Path: utzoo!attcan!uunet!snorkelwacker!bionet!root From: GenBank-Updates@genbank.bio.net Newsgroups: bionet.molbio.genbank.updates Subject: Database Update Message-ID: Date: 30 Jun 90 12:00:15 GMT Sender: root@genbank.BIO.NET Distribution: bionet Lines: 2968 Approved: lear@genbank.bio.net Checksum: 03589 178 LOCUS DROGNBPSA1 441 bp ds-DNA INV 30-JUN-1990 DEFINITION D.melanogaster guanine nucleotide-binding protein (Gs) alpha subunit gene, exon 1. ACCESSION M33996 KEYWORDS guanine nucleotide-binding protein. SEGMENT 1 of 3 SOURCE D.melanogaster (strain Canton S) embryo DNA, clones lambda-DGs-[4,5,7,10,11,12]. ORGANISM Drosophila melanogaster Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Cyclorrhapha; Schizophora; Drosophiloidea; Drosophilidae. REFERENCE 1 (bases 1 to 441) AUTHORS Quan,F. and Forte,M.A. TITLE Two forms of Drosophila melanogaster Gs-alpha are produced by alternate splicing involving an unusual splice site JOURNAL Mol. Cell. Biol. 10, 910-917 (1990) STANDARD simple staff_entry FEATURES from to/span description pre-msg 362 > 441 guanine nucleotide-binding protein (Gs-alpha) mRNA and introns (alt.) pre-msg 174 > 441 Gs-alpha mRNA and introns (alt.) IVS 426 > 441 intron A signal 152 157 promoter region (put.) variant 365 365 c in DNA, g in cDNA BASE COUNT 140 a 89 c 85 g 127 t ORIGIN 1 bp upstream of EcoRI site. 1 gaattcgcta ttctacatag ctcgggatac tttattttat tattaatatt cgctaaaata 61 gcacatcgtc atttggcata gatgtttttg gcccagtaac atatctatct acatcaccgc 121 ccgcactatc cgataggcag actgactatc gataaaagta tctacttcgt tgcatcccta 181 ggttgataca taaaataaaa aatatataaa aagtgagtta gtactggtat taaaagtaat 241 ttttaagcta caaattgatg aattgcgagc acacagagac taagaacatt gggaatccgg 301 aaaacagtgg ctggcgcgtc gggtgcgata gaattgcctg tttttcagac cccaaaagtc 361 gctcccaacc gagtcgtgca cctatagtct tggcccgaag ttgctcccat gaataaaaat 421 gttcggtaat ttcacggtaa a // LOCUS DROGNBPSA2 897 bp ds-DNA INV 30-JUN-1990 DEFINITION D.melanogaster guanine nucleotide-binding protein (Gs) alpha subunit gene, exons 2,3 and 4. ACCESSION M33997 KEYWORDS guanine nucleotide-binding protein. SEGMENT 2 of 3 SOURCE D.melanogaster (strain Canton S) embryo DNA, clones lambda-DGs-[4,5,7,10,11,12]. ORGANISM Drosophila melanogaster Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Cyclorrhapha; Schizophora; Drosophiloidea; Drosophilidae. REFERENCE 1 (bases 1 to 897) AUTHORS Quan,F. and Forte,M.A. TITLE Two forms of Drosophila melanogaster Gs-alpha are produced by alternate splicing involving an unusual splice site JOURNAL Mol. Cell. Biol. 10, 910-917 (1990) STANDARD simple staff_entry FEATURES from to/span description pept 265 540 guanine nucleotide-binding protein (Gs-alpha-S), exon 2 607 703 guanine nucleotide-binding protein (Gs-alpha-S), exon 3 760 + 880 guanine nucleotide-binding protein (Gs-alpha-S), exon 4 pep$ 265 540 guanine nucleotide-binding protein (Gs-alpha-L), exon 2 607 703 guanine nucleotide-binding protein (Gs-alpha-L), exon 3 760 + 880 guanine nucleotide-binding protein (Gs-alpha-L), exon 4 pre-msg < 1 > 897 Gs-alpha mRNA and introns IVS < 1 29 intron A IVS 541 606 intron B IVS 704 759 intron C IVS 881 > 897 intron D BASE COUNT 266 a 225 c 226 g 180 t ORIGIN About 1.4 kbp downstream of segment 1. 1 ccatctacta taccattgta cgaatgcagc ctgctgcaga gatccactga agcgctgagc 61 caacgccaac ggtggtgcca ctgagatcgg agatcggaga tcgcagaccg gagaccgacg 121 agcacacaag ggattgtggt ttgatccgag gaacccaagc actcagctat actggagcag 181 aacggagaaa gcacaagggg tgccgagtcg cccgacgcga accaggaaaa ccgagcgacg 241 tgttggtgga ccccgtgggc tgcgatgggt tgctttgggt cgcccacctc caagcagtcg 301 gacgtgaact cggaggactc gaagagccag aagcgccgga gcgatgcaat atctagacag 361 ttgcagaagg acaaacagct ctacagggcc acacacaggc tgctcctcct gggggcgggc 421 gagtccggca aatcaaccat agtcaagcaa atgcgaatat tgcatgtcga cggattttct 481 gactcggaaa agaaacagaa aattgatgat attaaaaaga atattcgaga cgctatcttg 541 gtgagttcca tcccgccggc catctaagcc caaacacttg cttaactcct tgccaatccc 601 ttacagacta ttacaggagc catgagcaca cttaatccac ctgtagcttt agaaaagaag 661 gaaaatgaac ccagagtgga gtacattcag gattatgcat ctagtaagag cctctgccgc 721 cccaacttaa gttgttatca accattatct gccccgcagg tccggacttt aattatcctc 781 ctgaatttta tgaacataca gaagaactat ggaaagacaa gggcgttctt caaacctatg 841 agaggtcgaa tgagtatcaa ttaatcgatt gtgcgaaata gtaagtaatg cccaccc // LOCUS DROGNBPSA3 1380 bp ds-DNA INV 30-JUN-1990 DEFINITION D.melanogaster guanine nucleotide-binding protein (Gs) alpha subunit gene, exons 5,6,7,8 and 9. ACCESSION M33998 KEYWORDS guanine nucleotide-binding protein. SEGMENT 3 of 3 SOURCE D.melanogaster (strain Canton S) embryo DNA, clones lambda-DGs-[4,5,7,10,11,12]. ORGANISM Drosophila melanogaster Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Cyclorrhapha; Schizophora; Drosophiloidea; Drosophilidae. REFERENCE 1 (bases 1 to 1380) AUTHORS Quan,F. and Forte,M.A. TITLE Two forms of Drosophila melanogaster Gs-alpha are produced by alternate splicing involving an unusual splice site JOURNAL Mol. Cell. Biol. 10, 910-917 (1990) STANDARD simple staff_entry FEATURES from to/span description pept + 4 132 guanine nucleotide-binding protein (Gs-alpha-S), exon 5 206 385 guanine nucleotide-binding protein (Gs-alpha-S), exon 6 445 569 guanine nucleotide-binding protein (Gs-alpha-S), exon 7 746 828 guanine nucleotide-binding protein (Gs-alpha-S), exon 8 909 1055 guanine nucleotide-binding protein (Gs-alpha-S), exon 9 pep$ + 4 132 guanine nucleotide-binding protein (Gs-alpha-L), exon 5 206 385 guanine nucleotide-binding protein (Gs-alpha-L), exon 6 445 569 guanine nucleotide-binding protein (Gs-alpha-L), exon 7 755 828 guanine nucleotide-binding protein (Gs-alpha-L), exon 8 909 1055 guanine nucleotide-binding protein (Gs-alpha-L), exon 9 pre-msg < 1 1115 Gs-alpha mRNA and introns (alt.) pre-msg < 1 1176 Gs-alpha mRNA and introns (alt.) pre-msg < 1 1243 Gs-alpha mRNA and introns (alt.) IVS < 1 3 intron D IVS 133 205 intron E IVS 386 444 intron F IVS 570 745 intron G (for Gs-alpha-S) (no splice consensus) IVS 570 754 intron G' (for Gs-alpha-L) IVS 829 908 intron H variant 780 780 t in DNA, c in cDNA signal 1083 1088 polyA signal signal 1154 1159 polyA signal signal 1221 1226 polyA signal BASE COUNT 441 a 265 c 254 g 420 t ORIGIN About 500 bp downstream of segment 2. 1 aagcttcctg gaccgagtga gcacaatcaa gaatccaaac tacaccccta atgagcagga 61 tattcttcgg tgccgtgttt tgacttctgg aatatttgaa acaagatttc aagtggacaa 121 agtaaacttt cagtaagtgt aatcccaagt gatatcgcaa tattttagtt tctattccat 181 tctaatgata tgcattcgtg tgcagcatgt tcgatgtcgg tggccagcgg gacgagcgta 241 ggaaatggat tcagtgtttc aatgatgtaa ctgctatcat attcgtaact gcgtgctcaa 301 gttataacat ggttttgcgg gaagatccca cccagaaccg acttcgagaa tctttggatt 361 tgttcaagag tatttggaac aacaggtgaa ccgagcaatt tggcgccatc tcgacaaatg 421 gaaactaacg agttgttctt tcagatggct tcgcacgatt tctattatac tatttttaaa 481 taagcaagat ttgttagcag agaaaattaa ggctggaaaa agtaaattgt cggaatattt 541 ctccgagttt aacaaatacc aaacgccaag taagtaaaat agtataaccc atagtagagg 601 ccaattgagg gcgagggagt catcagatca accgactcag atctggccaa gaaattcgca 661 attccttttc aaatttgcaa accgtgccca agttaactta agaaatttaa tggataatgt 721 attttgtcta atttcaaatg tgctgtcgac acaggtgacg caataatgga atccaatgat 781 gacccagaag taatacgagc aaaatatttc atacgagacg agtttctggt gggttatatc 841 acatctccgt ttcttcctcc acctatctaa ctagccttaa tccttaatgg gatctctttc 901 ttatatagcg tatatctacc gctagcggag acggaaaaca ctactgctat ccacatttca 961 catgcgccgt tgacacagaa aacattaaac gtgtgtttaa tgattgcaga gacattattc 1021 aaaggatgca ccttcgtcaa tatgaattgt tataggttat ccccatcgcc gtaatgcaag 1081 taaataaaaa tattaatgac ttactgtttt aaatataatt atcaaatgta atttgtattt 1141 aaatagtccc ttgattaaaa caaaaaattc gctgcattta gatctggtat gacctttcac 1201 aaaactcaac attaaagaat aataaataaa catgttaata acagacacgc ttgtttcgat 1261 tattttggct attctaccag gatgcacctg ctttattttc tatagtccct tgacatgaag 1321 cattttagag tatttccgct atcagagtcc gtatccatat ccatgggcat ttacattcac // LOCUS SYCSBEFA 850 bp ds-DNA BCT 30-JUN-1990 DEFINITION Synechocystis sp. cytochrome B559 alpha subunit (psbE) and beta subunit (psbF), and photosystem II L protein genes, complete cds. ACCESSION M33897 X06988 KEYWORDS cytochrome B559 alpha subunit; cytochrome B559 beta subunit; photosystem II protein L. SOURCE Synechocystis sp. (strain PCC6803) DNA, clone pKW1261. ORGANISM Synechocystis sp. Prokaryota; Bacteria; Gracilicutes; Oxyphotobacteria; Cyanobacteria; Chroococcales. REFERENCE 1 (bases 1 to 553) AUTHORS Pakrasi,H.B., Williams,J.G.K. and Arntzen,C.J. TITLE Targeted mutagenesis of the psbE and psbF genes blocks photosynthetic electron transport: Evidence for a functional role of cytochrome B559 in photosystem II JOURNAL EMBO J. 7, 325-332 (1988) STANDARD full staff_entry REFERENCE 2 (bases 1 to 850) AUTHORS Pakrasi,H.B., Nyhus,K.J. and Granok,H. TITLE Targeted deletion mutagenesis of the beta subunit of Cytochrome B559 protein destabilizes the reaction center of photosystem II JOURNAL Z. Naturforsch., C, Biosci. 45, 423-429 (1990) STANDARD full staff_entry COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by H.B.Pakrasi, 01-MAY-1990. Washington University Dept. of Biology Campus Box 1137 St. Louis, MO 63130 FEATURES from to/span description pept 121 366 cytochrome B559 alpha-subunit (psbE) pept 403 537 cytochrome B559 beta subunit (psbF) pept 547 666 L protein of photosystem II (PS2) binding 109 112 ribosomal binding site (put.) binding 392 396 ribosomal binding site (put.) BASE COUNT 197 a 196 c 197 g 260 t ORIGIN 1 gctaccccag caccgaggtg gcaatggttc cctaggcggc tcacaaaata gtagactaga 61 ctctacttgc tttgcatttg tcagtcaatg ttgttttgaa aaattgaagg agaacacaaa 121 atgtcaggga ctaccggcga gcgtccattt tccgatattg tcaccagcat tcgctactgg 181 gtgatccaca gcatcaccat cccgatgttg tttattgctg gttggttgtt tgtcagcacg 241 ggcttagcct acgatgcttt tggcactccc cgccccgatg aatatttcac ccagacccgt 301 caagagttgc ccattctcca ggaacgctac gacattaatc aggaaattca agagtttaat 361 caataaaaca tttaattgtt cttttttagt tggtaattaa caatggcaac ccaaaatcct 421 aatcaaccgg ttacttatcc catttttacg gtgcgctggc tggcggttca caccctggcg 481 gtgccctctg tcttctttgt cggggcgatc gccgcgatgc aatttattca acgctaggag 541 tttttcatgg acagaaattc aaacccaaac cgccaaccgg tggaattgaa ccgcacttct 601 ttatacctgg gtctattgtt ggtggctgtg ttggggattt tgttctccag ctatttcttt 661 aactaaactt ttttaatacg caatttagga ggcatggtat gttcgcagaa ggcagaatcc 721 ctttgtgggt ggtgggtgta gtggccggta ttggcgccat tggtgttcta ggattatttt 781 tctacggagc ctatgctggt ttaggttctt ccatgtaatc gagggctagc cgccacacaa 841 tatcatggtt // LOCUS MUSBFGFR 2526 bp ss-mRNA ROD 30-JUN-1990 DEFINITION Mouse basic fibroblast growth factor receptor (bFGF-R) mRNA, complete cds. ACCESSION M28998 KEYWORDS fibroblast growth factor receptor; transmembrane protein; tyrosine kinase. SOURCE Mouse (strain CBA/CaH), cDNA to mRNA, clone NE2. ORGANISM Mus musculus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 2526) AUTHORS Reid,H.H., Wilks,A.F. and Bernard,O. TITLE Two forms of basic fibroblast growth factor receptor-like mRNA are expressed in the developing mouse brain JOURNAL Proc. Natl. Acad. Sci. U.S.A. 87, 1596-1600 (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by O.Bernard, 11-OCT-1989. FEATURES from to/span description pept 58 2526 fibroblast growth factor-receptor precursor sigp 58 117 fibroblast growth factor-receptor signal peptide (put.) matp 118 2523 fibroblast growth factor-receptor BASE COUNT 579 a 710 c 708 g 529 t ORIGIN 1 gtggaatatc catggaggta cggagccttg ttaccaacct ctaaccgcag aactgggatg 61 tggggctgga agtgcctcct cttctgggct gtgctggtca cagccactct ctgcactgcc 121 aggccagccc caaccttgcc cgaacaagct cagccctggg gagtccctgt ggaagtggag 181 tctctcctgg tccaccctgg cgacctgcta cagcttcgct gtcggcttcg cgatgatgtg 241 cagagcatca actggctgcg ggatggggtg cagctggtgg agagcaaccg tacccgcatc 301 acaggggagg aggtggaggt gcgggactcc atccccgctg actctggcct ctacgcttgc 361 gtgaccagca gcccctctgg cagcgatacc acctacttct ccgtcaatgt ctcagatgca 421 ctcccatcct cggaagatga tgacgacgac gatgactcct cctcggagga gaaagagacg 481 gacaacacca aaccaaaccg taggcctgta gctccctact ggacatcccc agagaaaatg 541 gagaagaaac tgcatgcggt gcccgctgcc aagacggtga agttcaagtg cccgtcgagt 601 gggacaccca accccactct gcgctggttg aaaaatggca aagagtttaa gcctgaccac 661 cgaattggag gctacaaggt tcgctatgcc acctggagca tcataatgga ttctgtggtg 721 ccttctgaca agggcaacta cacctgcatc gtggagaatg agtatgggag catcaaccac 781 acctaccagc ttgacgtcgt ggaacgatct ccgcaccgac cccatccttc agcagggctg 841 cctgccaaca agacagtggc cctgggcagc aatgtggagt tcatgtgtaa ggtgtacagc 901 gatccgcagc ctcacattca gtggctgaag cacatcgagg tgaacgggag taagatcggg 961 ccagacaact tgccgtatgt ccagatcctg aagactgctg gagttaatac caccgacaag 1021 gaaatggagg tgcttcatct acggaatgtc tcctttgagg atgcggggga gtatacgtgc 1081 ttggcgggta actctatcgg actctcccat cactctgcat ggttgaccgt tctggaagcc 1141 ctggaagaga gaccagctgt gatgacctca ccgctctacc tggagatcat tatctactgc 1201 accggggcct tcctgatctc ctgcatgttg ggctctgtca tcatctataa gatgaagagc 1261 ggcaccaaga agagcgactt ccatagccag atggctgtgc acaagctggc caagagcatc 1321 cctctgcgca gacaggtaac agtgtcagct gactccagtg catccatgaa ctctggggtt 1381 ctcctggttc ggccctcacg gctctcctcc agcgggaccc ccatgctggc tggagtctcc 1441 gaatatgagc tccctgagga tccccgctgg gagctgccac gagacagact ggtcttaggc 1501 aaaccacttg gcgagggctg cttcgggcag gtggtgttgg ctgaggccat cgggctggat 1561 aaggacaaac ccaaccgtgt gaccaaagtg gccgtgaaga tgttgaagtc cgacgcaacg 1621 gagaaggacc tgtcggatct gatctcggag atggagatga tgaaaatgat tgggaagcac 1681 aagaatatca tcaaccttct gggagcgtgc acacaggatg gtcctcttta tgtcattgtg 1741 gagtacgcct ccaaaggcaa tctccgggag tatctacagg cccggaggcc tcctgggctg 1801 gagtactgct ataaccccag ccacaacccc gaggaacagc tgtcttccaa agatctggta 1861 tcctgtgcct atcaggtggc tcggggcatg gagtatcttg cctctaagaa gtgtatacac 1921 cgagacctgg ctgctaggaa cgtcctggtg accgaggata acgtaatgaa gatcgcagac 1981 tttggcttag ctcgagacat tcatcatatc gactactaca agaaaaccac caacggccgg 2041 ctgcctgtga agtggatggc ccctgaggcg ttgtttgacc ggatctacac acaccagagc 2101 gatgtgtggt cttttggagt gctcttgtgg gagatcttca ctctgggtgg ctccccatac 2161 cccggtgtgc ctgtggagga acttttcaag ctgctgaagg agggtcatcg aatggacaag 2221 cccagtaact gtaccaatga gctgtacatg atgatgcggg actgctggca tgcagtgccc 2281 tctcagagac ctacgttcaa gcagttggtg gaagacctgg accacattgt ggccttgacc 2341 tccaaccagg agtatctgga cctgtccata ccgctggacc agtactcacc cagctttccc 2401 gacacacgga gctccacctg ctcctcaggg gaggactctg tcttctctca tgagccgtta 2461 cctgaggagc cctgtctgcc tcgacacccc acccagcttg ccaacagtgg actcaaacgg 2521 cgctga // LOCUS BSSBIODAYB 4382 bp ds-DNA BCT 30-JUN-1990 DEFINITION B.sphaericus bioDAYB operon genes, complete cds. ACCESSION M29292 KEYWORDS adenosylmethionine-8-amino-7-oxononanoate aminotransferase; bioB; biotin synthase; dethiobiotin synthase. SOURCE B.sphaericus (strain IF03525) DNA. ORGANISM Bacillus sphaericus Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 456 to 511) AUTHORS Gloeckler,R., Ohsawa,I., Speck,D., Ledoux,C., Bernard,S., Zinsius,M., Villeval,D., Kisou,T., Komogawa,K. and Lemoine,U. TITLE Cloning and characterization of the Bacillus sphaericus genes controlling the bioconversion of pimelate into dethiobiotin JOURNAL Gene 87, 63-70 (1990) STANDARD full staff_review REFERENCE 2 (bases 1 to 4382) AUTHORS Gloeckler,R., Ohsawa,I., Speck,D., Ledoux,C., Bernard,S., Zinsius,M., Villeval,D., Kisou,T., Komogawa,K. and Lemoine,U. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by R.Goleckler, 20-OCT-1989, for release after publication. FEATURES from to/span description pept 509 1213 dethiobiotin synthase (bioD) (ttg start codon) pept 1194 2561 adenosylmethionine-8-amino-7-oxononanoate aminotransferase (bioA) (gtg start codon) pept 2566 3156 biotin synthase (bioY) pept 3156 4154 bioB protein (gtg start codon) mRNA < 456 4364 bioDAYB mRNA binding 491 503 ribosome binding site binding 1179 1186 ribosome binding site binding 2545 2556 ribosome binding site binding 4317 4364 ribosome binding site BASE COUNT 1376 a 746 c 952 g 1308 t ORIGIN 1 aagctttgca cacttctgtt tcgtatcctc atattgaact tgatgaaacc ttcctatggc 61 cgtatgcatt gagatttttt ctcgatgttc tgcttgcaat gttcgatatt cttcttgccg 121 aatagctaca cgataccaaa attcataacg caacggtaaa tctcttattt cgtaagtaag 181 caaagtattt aaaatactgc tcatttgttc atatgtatct agctttttat ctgtctcctt 241 aaatagtcca aacattttgc caccccctgt tttgattaat actacaacct atgataaaaa 301 ccctttaata tttcttggga aataatccaa cgttgataaa acggggtgaa tatccgatca 361 atcgagtgaa atttaggata gaataccctc ggaaaaagca ttatctgaat catttatgta 421 aaaatgcaaa aaaaggcatt tacaaaagga aaaagaatgt gttaacttaa aaactatagt 481 tggttaacta aaagaggggg aggtacagtt gcaacacttt tgggttgttg gaacagatac 541 agatgttgga aaaacatttg tcaccacatt attaatgcgt aatttgcaaa aacagggcgt 601 acgtgtaacg ccttataaac cagtccaaac tggtgaagtg tatgatggtg aacaagccta 661 ttacttcgac acagcgatgt atgaaaaata ttccttgcaa ttgctagaca gagagaattt 721 aaatggctat tcatttaaag aggctgcatc gccacatttt gcggctcaac tggaggggca 781 gcaaattgac acacagcagt tattaaagca aatgcaactt ttacagcaaa catgggatgt 841 tgttatttgt gaaggagcgg gtgggctctt tgtgccatta gatgcatgtg gcgaaacgac 901 attgttggat gtcattgttg aaagtaaact acccgttgtc gtggttacac gaacagcact 961 aggaacaatt aaccatacgc tcttaacgtt agaggcattg actacacgga aaattgaagt 1021 gcttggtctt gtatttaacg gtgatatggg gagcaggatg gagcaagaca atatccaaac 1081 gattttacag tattatacat tgccctatat gacgatacca aagctggaag agctgtcgga 1141 cattaatgag tatgcaatta cgggcacatc attgtttgaa aggctgatta gacgtgaaac 1201 aagtattaac tgagctacaa gaaaaagatt tacaacatgt ctggcatcct tgctcacaaa 1261 tgaaagatta tgaggctttt ccaccaatcg ttataaaaaa aggcgaaggt gtatggctgt 1321 atgatgaaca gaatcaacgc tatcttgatg cggtatcttc atggtgggtc aatttatttg 1381 gacatgccaa tccacgtatt agccaagcat taagtgaaca agcatttacg ttggagcata 1441 caatttttgc gaatttttca catgagccag cgattaaact cgcacaaaaa ttagtagctt 1501 taacaccaca aagtttacaa aaagtatttt ttgcagataa tggttcatct gctatagaag 1561 tcgctttaaa aatgagtttt caatatcata tgcaaacggg gaaaacgcaa aaaaaacgct 1621 ttttggcatt aacggatgcc taccatggtg aaacattagg tgctttatcc gtcggtggcg 1681 tagatcttta taacgaagtg tatcaaccac tgttattgga tacggtacga gcacaaggcc 1741 cagattgttt ccgttgccca ttcaagcatc atccggatag ttgccatgcc caatgtatta 1801 gttttgtaga ggatcagttg cgcatgcatc ataaggaaat tacggcggtt attattgagc 1861 cactcattca agcggcagca gggatgaaaa tgtatccagc tatttatttg cgacgtttac 1921 gtgaactatg tacgcaatat gatgtgcatc taattgcaga cgaaattgct gtaggttttg 1981 ggcgcacagg tacacttttt gcctgtgagc aggctaatat ctctccggat tttatgtgtt 2041 tatcaaaagg tttaacaggt gggtatttac cactgtctgt cgtaatgacg acgaatgatg 2101 tatatcaggc attttatgat gattatgcca cgatgaaggc gtttttacat tcacatagtt 2161 acacagggaa tacacttgcc tgccgtgttg ctctagaggt attggcgata tttgaagaag 2221 aacagtatat agacgttgtg caagacaaag gtgaacgcat gcgaaagcta gccttggagg 2281 cttttagtga tttacctttt gttggtgaat atcggcaagt tgggtttgtc ggggcgattg 2341 aacttgtggc gaatcgcgat accaaagagc cattaccgag tgaggagcgc atcggctatc 2401 aaatatacaa aagagcttta gcaaaagggt tactgattcg tccacttggg aatgttttgt 2461 atttcatgcc accatacatt ataacggacg atgaaatgca atttatgatt caaacaacaa 2521 aagatacaat tgttcaattt tttgaagagc gggagggatg agggcatgtt gaaacaacag 2581 tcaacgttat cacttgtgat gattgcgatg tttgctgcat taacagcagt tggtgccttc 2641 attaaaattc cattaccgct cgtgccgttt acattacaaa ttgtctttgt ctttttagcg 2701 ggttgcttac tcggtggtcg caatggattt caaagtcagc tagtttacat aggaataggt 2761 ttagttggct tgccagtttt tacacaaggt ggaggcatta catatgtatt gcagccgact 2821 tttggttact taataggatt tgctcttgct gcattagtaa tcggctatat gattgatcga 2881 gtagaatcac caacgaaaaa gcatttcatt gttgccaata ttatagggct tatcattatt 2941 tatgcagtcg cagtacctta tttatatgta gcattaaatg tatggttaaa catgaaatca 3001 agttggtctc atgtattttt agtaggcttt gtcaatagta ttgttgcaga cttttgctta 3061 gcaattgctt ctgccctttt agctgaacgt ctatacaaag tattccgttc cgctagagct 3121 ataaaacttg tgcaaattga aaaggagaat gtttagtgaa ttggttacaa ttagcagatg 3181 aagtgattgc aggcaaggta attagcgatg atgaggcact tgccatttta aatagtgatg 3241 atgatgatat tttaaagcta atggacggcg catttgccat tcgtaagcac tattacggta 3301 aaaaagtaaa gttaaatatg attatgaatg ctaaaagtgg ctattgccca gaggattgtg 3361 gctattgctc gcagtcatct aaatcgaccg ctcctattga gaaatatccg ttcattacaa 3421 aagaagaaat attagcgggg gcaaagcgtg cgtttgaaaa taaaattggt acgtattgca 3481 tcgtcgcaag cggacgtggg ccgactcgta aagatgtcaa tgtagtgagt gaagccgttg 3541 aagaaattaa agcaaaatat ggcttaaaag tttgcgcttg cttaggttta ctaaaagaag 3601 aacaagcaca acaattaaaa gaagcgggtg ttgatcgcta caatcataac ttaaatacat 3661 cagagcgtca ccattcctat attacgacga cgcacacata tgaggatcgt gttaataccg 3721 ttgaggttgt aaagaaacat ggtatttccc catgttctgg agccattatt gggatgaaag 3781 aaacgaaaat ggatgtcgtg gaaattgcac gcgcattgca tcagttggac gcggattcaa 3841 ttccagttaa cttcttacat gcaattgatg gaacgaaact tgaaggaaca caggacttaa 3901 atcctcgcta ttgcttaaaa gtattagcgt tattccgcta catgaatcct tcgaaggaaa 3961 ttagaatttc cggtggtcgc gaagtcaatt taggattcct tcagccattt ggactgtatg 4021 cagcaaatag tatttttgtt ggggattact taactactga aggacaagaa gccaatagcg 4081 attatcgtat gcttgaagat ttgggctttg aaatcgagct gacacaaaag caagaagaag 4141 cattttgttc ttaattcaac caatcattat gaaataaaat ctactactac acaatatgat 4201 tacctcaaaa ccgtgtgagc gtcgtggaaa aggcgcacag acggtttttt ggtcgataaa 4261 agagaaggag aaaggtaaat aaatggttcc gataatatac ctataaaatg atggttttca 4321 caaaatgttc aatgaaagcg ttttgaaatt gaacagtttg tgaagggctt cacataaagc 4381 tt // LOCUS BSSBIOXWF 4530 bp ds-DNA BCT 30-JUN-1990 DEFINITION B.sphaericus bioXWF operon genes, complete cds. ACCESSION M29291 KEYWORDS 7-keto-8-aminopelargonic acid synthetase; bioF; bioW; bioX. SOURCE B.sphaericus (strain IF03525) DNA. ORGANISM Bacillus sphaericus Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1081 to 1151) AUTHORS Gloeckler,R., Ohsawa,I., Speck,D., Ledoux,C., Bernard,S., Zinsius,M., Villeval,D., Kisou,T., Komogawa,K. and Lemoine,U. TITLE Cloning and characterization of the Bacillus sphaericus genes controlling the bioconversion of pimelate into dethiobiotin JOURNAL Gene 87, 63-70 (1990) STANDARD full staff_review REFERENCE 2 (bases 1 to 4530) AUTHORS Gloeckler,R., Ohsawa,I., Speck,D., Ledoux,C., Bernard,S., Zinsius,M., Villeval,D., Kisou,T., Komogawa,K. and Lemoine,U. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by R.Goleckler, 20-OCT-1989, for release after publication. FEATURES from to/span description pept 1149 1649 bioX protein pept 1630 2367 bioW protein pept 2364 3533 7-keto-8-aminopelargonic acid synthetase (bioF) mRNA < 1081 3560 bioXWF mRNA binding 1132 1140 ribosome binding site binding 1612 1621 ribosome binding site binding 2350 2355 ribosome binding site BASE COUNT 1426 a 768 c 958 g 1378 t ORIGIN 1 aagctttact acaaccagga ggatgtagtt taggcgctgt tttaccatct aaaacaagtg 61 atggtaaaac ttatgtcctt agaaattacg atttgtcacc agctatatct gatatgagac 121 tttgtacaac taaggtaaaa gggaaatata gtcatactgg attctctgtt tcgtactttg 181 gtcgaagtga aggcttaaat gaagagggat tctgtgtagc ttttgcctca tgcggtattc 241 cagttggaaa acatccagga atgaaaaagc ctatcctaaa aggacttcag tttatggtaa 301 tagtaagagc tttacttgaa aattgtaaag atgttgagga aggaattact tatttagaga 361 atatgcctat tggaacaaat atgaatttgc tactgtcaga tgccaaaggg aatgtagctt 421 tagtagaaac gtatgatgga gaaaagttcg tagaaagggg caatcaaaaa tcaggatttt 481 tgattgcaac taatcacgct gtaatgccca aaataatgaa gttagaagac agaaaattag 541 aacaatctga aatacgttat aattttttga aaaataactt agagagtgat gattttttta 601 caaagaataa attacaacaa ttaatgttta atgaataccc taatggtgta acagtgcaca 661 atttcgaaga aaatttctga actgttcatt caattctatt taatcttaac gacaaacaat 721 tagatatttc tttcggttcc cctataaata ataaaatcta taaattaaaa gtaggagaaa 781 ccttgccttt taatgaatta gaagttttca tagagaactc aaactatgga ccaaacttct 841 ggaagctaat caaataataa tatggccaaa gaaacacttt cagctgcatg atgagccgag 901 agtgtttttt tatcattcct ctattcaata ataaatcgct tatttcacct tcttggaggt 961 ttgaaatcct cttgtttcat aggtttctgg cgttttcctt tttgacgaag cactgttaaa 1021 gctctatcct tttttgaaaa aaatatagaa aaacaatttt aatctacctt cctatctata 1081 aatgtgttaa cttaattatt attaaggtta actcaaattg aagaagttag aatgggagga 1141 ataggaggat gcgaaagttt tctacatatg atcttgctca gatttcatta ctagcttgtc 1201 ttattatcgt tacaggcatg tttaagattc caacaggtat tcctggatct gagtttcaat 1261 tatcagcacc gattgccgtt gcgattgcag cagtatttgg atttaagcga tattttcttg 1321 cgggaatcat tgcaagtcta atcttatttt tactaggtat acactccatc ttaaatgttg 1381 aaatttcaat aattttccga ttgactgttg gtctaatcat tgttttatta ggaacttcaa 1441 ttccggtact agttgtggca ggaccgattg gaacaatggt tgctagactt ggattggctt 1501 ttacgttagg gaccccgttt ttgccactat tcgttttggc gattccaggg atggtcatta 1561 cggctgtcag tgtttatcca ataacgaaaa tgttatatgc aattaataag aaagtagcag 1621 gtgatcatca tgttagaaac gtgttatagc attcgaatgc gtgcagctga aaaaaatctc 1681 gaaggaggag aaaagcatat atctggtggg gaacggatag ggagtgaatt tcaaatagag 1741 ccaattgtaa aacagttatt gaacaaagca aggaatcatt cgcgcggaga tgctgacttt 1801 attcaaatta ccgttgaaaa acttacaggt gatcagatac tgtatatgcc accgttagaa 1861 ataacgacaa ttgatgagag ttcaattgaa agggcacata aagaagctag gagtatatta 1921 acctcagtag gtgtttccaa gcaggcacaa aatgttgctt ttcatctact tgctagtaat 1981 caaaatcttc gtggggctat cctccttcat agtcaaactg gcttacgact tgacaatcgc 2041 ggactgaaag gcgttcgtgt atcacgaatc gattggcaag acgctgatgt aggttacaat 2101 gagcgtgttc gtgaagcgct agctctggca acgaaagtgg caaattctcc gtataccatc 2161 gcagaattat gttggtcaga tgatccagaa tacgttactg gctatgtaag caatcatgag 2221 attggttatg tcagaattac gcctttaaaa agggaaggct gtgaaagtgg cggacgtatt 2281 ttttttgtgt cagatgaagt tgagctagaa tcatatatac actatttaga aagagaacct 2341 attctcatta gggggcattt aaaatgaatg atcgctttcg aagggaactg caagtaatag 2401 aagagcaagg attgacaagg aagttacgtt tgttttcaac tggaaatgaa agtgaggtag 2461 tgatgaatgg taagaaattt ttgctatttt catcgaataa ctacttaggc cttgcaacag 2521 atagtcgttt gaaaaagaaa gcaactgaag gcattagtaa atacggtaca ggggctggcg 2581 gttctcgact tacaactgga aacttcgaca ttcatgaaca gctagaatct gaaattgcag 2641 attttaaaaa gactgaagcg gccattgtat tcagcagtgg gtatttagcg aacgtaggtg 2701 tgatttcgag cgtgatgaag gcaggagata ctatcttttc tgatgcttgg aatcacgcga 2761 gtattataga tggttgtcga ttaagtaaag ccaaaacgat tgtttatgaa catgcggata 2821 tggtggattt agagcggaaa ttaaggcaat cacatgggga tggattgaag ttcatcgtaa 2881 cggatggcgt ttttagtatg gatggtgata ttgcgccact tccaaaaata gtagagttag 2941 ccaaggaata caaagcgtac ataatgattg atgatgcgca tgcaacaggt gttcttggca 3001 atgatggttg tggtaccgct gattattttg gtttgaaaga tgagattgat tttacagtag 3061 gcacgttgag taaagcgatt ggtgcagagg gtggatttgt atcgacatca tccattgcta 3121 agaactattt gttaaataac gcccgatctt ttattttcca aacagcttta tcgccaagtg 3181 cgattgaagc agcgcgagaa ggcatttcca tcatacagaa tgagcccgag cggagaaagc 3241 aattgctgaa aaatgcgcag tacttacgat tgaaattaga ggaatctggt tttgtaatga 3301 aagaagggga aacacctatt atttctctta tcattggtgg ttctcatgaa gccatgcagt 3361 tttctgcgaa actactggat gaaggtgtct ttattccagc gattcgacca ccaacagtgc 3421 cgaaagggtc aagtcggttg cgtataacgg taatggctac acatacaata gagcagctcg 3481 atatggtcat tagtaaaatt aagaaaatag gaaaagaaat ggggattgta taattgtttg 3541 agtgcctggc actcaaacaa ttttttgatt gctttttctt attaattaca tagcactaac 3601 cttcaagttc tgcaattgcc tctaattcaa ttaagcagcc atggcttaat tctttaattg 3661 ggataatggc gcgggcaggc ttatgactac cgaaaaattg tgcataagtt tcatttacgt 3721 ccgcccataa atcagcagat gttatataga cgcgacacat aacaacagcc tccttcgtaa 3781 gaccgcttgc ttgaagcacg acttccatct tttgaagcgc catgaatgtt tcagcgtgaa 3841 tgccaccagt tggaggtttg cctgtagctg gatcgactga agtttgcccc gaaatatata 3901 aattcccgtt actaatcatg cctggtgtat aatgcccgat tggctcttgt tctatcaaaa 3961 ctttcttcat aataagttcc tccttataaa cgttgtaatt gatttagccc aatattgcca 4021 cctgaaataa ggaagcaaac atggtcgttt ttcgtaatcg gtaaattgcc tcgaagagct 4081 gctcctatcc cgatggcaga ggagggttca gctaatattt tgccttctag tagcaatgtt 4141 ttcatcccat taagtatgga agcctcgtct acacgcacaa tgtcatcaac taatttttca 4201 acaatcggga agtttcgctc cctaggttgt aaagttaata gagcatccgc taacgattgt 4261 tgttcagcta atagtaatct tttaccaact tgaatacttt ctgaatagcg agggacgacg 4321 gctggttcaa caccaaaaat tttaatatgt ggtgctaaag attttaccgc agttgcgaca 4381 ccacttagca gaccaccacc accaatagga acaacaattg cacttacctg agagaactgt 4441 tctaaaattt ccaatcctac tgtcccttgc cccgccataa tatcgtaatc atcataagga 4501 tgcacaatgg cataaccatg ttctaagctt // LOCUS HUMATPAS01 1458 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exons 2-5. ACCESSION M28284 KEYWORDS adenosine triphosphatase. SEGMENT 1 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 1458) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept / 35 148 adenosine triphosphate alpha subunit, exon 2 (EC 3.6.1.3) (AA at 35) 308 442 adenosine triphosphate alpha subunit, exon 3 876 993 adenosine triphosphate alpha subunit, exon 4 1109 + 1377 adenosine triphosphate alpha subunit, exon 5 IVS < 1 34 adenosine triphosphate alpha subunit intron A IVS 149 307 adenosine triphosphate alpha subunit intron B IVS 443 875 adenosine triphosphate alpha subunit intron C IVS 994 1108 adenosine triphosphate alpha subunit intron D IVS 1378 > 1458 adenosine triphosphate alpha subunit intron E BASE COUNT 267 a 493 c 429 g 269 t ORIGIN 1 gtcgacggat caacatcccc acatctcccc acagctgtac ctgggcatcg tgctggcggc 61 cgtggtgatc atcactggct gcttctccta ctaccaggag gccaagagct ccaagatcat 121 ggagtccttc aagaacatgg tgccccaggt gaagggtgcc cagcaagggc cagagggggt 181 gttagtgtat gggctggggc cgggcccagc aagggccaga gggggtgtta gtgtatgggc 241 tggggccggg ccagtgaccc ccaggcagag ggagtctggg aggtgacatt actccatccc 301 acctcagcaa gccctggtga tccgggaagg tgagaagatg caggtgaacg ctgaggaggt 361 ggtggtcggg gacctggtgg agatcaaggg tggagaccga gtgccagctg acctgcggat 421 catctcagcc cacggctgca aggtgggcct gtagggcccg gctttaccct ccctcgggct 481 gcccaggagc tcaggcccag ccctcctccc tcacactcag gagtccaggt cccaacccct 541 cctccctcag acccaggagt ccaggccccc aggccctcct ccctcagacc caggagttta 601 ggccctgggc acctcctcac ccaacagtca ggagtccagg cccagccctc acctttcgga 661 gatccttagg gaccctagac cttggccagc agcactgtgc cttccccacc ttcaagatcc 721 cagcctctgg cctcccacac accactcacc cactgggcac ccaggcttct agctgtgatc 781 tccaggcaca caggcttcag cccaagccct gtacacaaat accctcctgt cccaggccct 841 ggactgaacc ctctctctgc tgcacctacc cccaggtgga caactcctcc ctgactggcg 901 aatccgagcc ccagactcgc tctcccgact gcacgcacga caaccccttg gagactcgga 961 acatcacctt cttttccacc aactgtgtgg aaggtgaggc gggtgcagag aagacacaca 1021 gctgggcaga ccagggatgt gtcccagggg tcaggcctca gaacctccct gagccacccc 1081 acctcagcct aacccctctg ggctgcaggc acggctcggg gcgtggtggt ggccacgggc 1141 gaccgcactg tcatgggccg tatcgccacc ctggcatcag ggctggaggt gggcaagacg 1201 cccatcgcca tcgagattga gcacttcatc cagctcatca ccggcgtggc tgtcttcctg 1261 ggtgtctcct tcttcatcct ctccctcatt ctcggataca cctggcttga ggctgtcatc 1321 ttcctcatcg gcatcatcgt ggccaatgtc ccagagggtc tgctggccac tgtcactgta 1381 aggccaggct cctgggtctg ggtggggagg gcctgggggt ctgggctcct gggtctgagg 1441 gaggaggggc tgggatcc // LOCUS HUMATPAS02 200 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 6. ACCESSION M28285 KEYWORDS adenosine triphosphatase. SEGMENT 2 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 200) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 33 + 200 adenosine triphosphate alpha subunit, exon 6 (EC 3.6.1.3) IVS < 1 32 adenosine triphosphate alpha subunit intron E BASE COUNT 44 a 65 c 52 g 39 t ORIGIN 1 ccctgtaatt gcctgccttg ctcgtcctcc aggtgtgtct gaccgtgacc gccaagcgca 61 tggcccggaa gaactgcctg gtgaagaacc tggaggctgt agagaccctg ggctccacgt 121 ccaccatctg ctcagataag acagggaccc tcactcagaa ccgcatgaca gtcgccacca 181 tgtggtttga caaccagatc // LOCUS HUMATPAS03 200 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 7 (5' end). ACCESSION M28286 KEYWORDS adenosine triphosphatase. SEGMENT 3 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 200) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 67 / 200 adenosine triphosphate alpha subunit, exon 7 (EC 3.6.1.3) IVS < 1 66 adenosine triphosphate alpha subunit intron F (no splice consensus) BASE COUNT 43 a 68 c 55 g 34 t ORIGIN 1 ggccaccctc tgatcggtcc ccagctctcc atccatgaga ccgaggaccc caacgacaac 61 cgatacctgc tggtgatgaa gggtgccccc gagcgcatcc tggaccgctg ctccaccatc 121 ctgctacagg gcaaggagca gcctctggac gaggaaatga aggaggcctt tcagaatgcc 181 taccttgagc tcggtggcct // LOCUS HUMATPAS04 559 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exons 8 and 9. ACCESSION M28287 KEYWORDS adenosine triphosphatase. SEGMENT 4 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 559) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept / 155 330 adenosine triphosphate alpha subunit, exon 8 (EC 3.6.1.3) (AA at 157) 401 + 537 adenosine triphosphate alpha subunit, exon 9 IVS < 1 154 adenosine triphosphate alpha subunit intron G IVS 331 400 adenosine triphosphate alpha subunit intron H IVS 538 > 559 adenosine triphosphate alpha subunit intron I BASE COUNT 125 a 165 c 157 g 112 t ORIGIN 1 acttaatata tatatagtag tatgaaggaa gtatcctaga atgaatgctg actgccgtct 61 gctgatggga gatgaatgcg gcgatcagac atctaggcat gggtgcaggt tccgaggctg 121 gaaccctcac accccaaccc ttccctgcca ctaggtttct gccattatta cctgcccgag 181 gagcagtatc cccaaggctt tgccttcgac tgtgatgacg tgaacttcac cacggacaac 241 ctctgctttg tgggcctcat gtccatgatc ggcccacccc gggcagccgt ccctgacgcg 301 gtgggcaagt gtcgcagcgc aggcatcaag gtgtggcttg ggtgctgggg aggcaagcag 361 gcgtggcgga gaggccatcc ctaaaaaaca atgcctgcag gtcatcatgg tcaccggcga 421 tcaccccatc acggccaagg ccattgccaa gggtgtgggc atcatctctg agggcaacga 481 gactgtggag gacatcgccg cccggctcaa cattcccgtc agccaggtta accccaggtg 541 agccacccat tcccagcca // LOCUS HUMATPAS05 323 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 10. ACCESSION M35821 KEYWORDS adenosine triphosphatase. SEGMENT 5 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 323) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 62 + 212 adenosine triphosphate alpha subunit, exon 10 (EC 3.6.1.3) IVS < 1 61 adenosine triphosphate alpha subunit intron I IVS 213 > 323 adenosine triphosphate alpha subunit intron J BASE COUNT 59 a 106 c 97 g 61 t ORIGIN 1 gatcactttg ccactcctca cacaccctga cctcagccat cgctctctct gctcttccca 61 gggatgccaa ggcctgcgtg atccacggca ccgacctcaa ggacttcacc tccgagcaaa 121 tcgacgagat cctgcagaat cacaccgaga tcgtcttcgc ccgcacatcc ccccagcaga 181 agctcatcat tgtggagggc tgtcagagac aggtgggctg cgctcccgca gaggagggga 241 cggggccttg actcctgggt cctcactgag gccggggctg gtttcctggg tctgagggag 301 gaggggctgg gggtctgacc tgg // LOCUS HUMATPAS06 428 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 11. ACCESSION M35822 KEYWORDS adenosine triphosphatase. SEGMENT 6 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 428) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 147 + 315 adenosine triphosphate alpha subunit, exon 11 (EC 3.6.1.3) IVS < 1 146 adenosine triphosphate alpha subunit intron J IVS 316 > 427 adenosine triphosphate alpha subunit intron K BASE COUNT 83 a 110 c 147 g 88 t ORIGIN 1 tctagagagt ctgagcctaa ctcctagtct aggaagagag ttggacctaa cttctagtct 61 aagagagggc tgggtcctgg ctttctggat ctgaggaggg actctgggga ctggcctctg 121 gtgtcatcct taccctctct ccccagggtg caattgtggc tgtgaccggg gatggtgtga 181 acgactcccc cgctctgaag aaggccgaca ttggggtggc catgggcatc gctggctctg 241 acgtctccaa gcaggcagct gacatgatcc tgctggacga caactttgcc tccatcgtca 301 caggggtgga ggagggtgag ttggccaggg gtggcctgga gaccaggtca ctaccggagc 361 ctgagaccag caaggggaac tggccagggc tgcaggggga tgtgtggcag agaccaaggc 421 ccctgcct // LOCUS HUMATPAS07 939 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, intron J. ACCESSION M28288 KEYWORDS adenosine triphosphatase. SEGMENT 7 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 939) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description IVS < 1 > 939 adenosine triphosphate alpha subunit intron K BASE COUNT 287 a 197 c 250 g 205 t ORIGIN 1 ggatcccgtc ctgagtgaca cgagccagac acaaaagcat tcttagcatc caactccaac 61 tggagcaggc tcagcacccg tctctgggct aaaagtcagg ataatggtta tgtctaggag 121 gagggatata gactggaaga gagcagacaa aacctaaatg gggggctcgg aatggttttc 181 tatcttgact ggggtctggt ggttgcatgg ctgtgtacat gtgtaaaaat tgtatacacc 241 ctctctggtt gaatatttta atgagatata atatgcccag ctcagtgtat gcatgccata 301 tctcaataaa tattcaacca gtacaggttg tctaaagtaa acaaaataaa gattaatcca 361 ggccaggcgg tggggctaca cctgtaatcc caagactttg gagaccgaag caggaggatt 421 gcctgagatc aagagttcaa gaccagcctg gccaacatga tgaaacccca tctctactaa 481 aaatacaaaa attagctggg cttggtggtg ggcacctgta accccagcta cttgggaggc 541 tgaggcagga gaatcatttg aacctcagag gcagacgttg cagtgagccg caattgtgcc 601 attgcatcca gcctgggcaa cagagcaaga ctccatctca aaaaaataaa ataaaataaa 661 ataaacatta gtcaggcacg gtggctcgag cctgtggtcg cagctacttg ggaggctgag 721 gtgggaggat cacttgagga ggtcgaggtt gcagtgactg atgattgcag cactgggcta 781 ccagcctggg caacgaggtg gagaccttct ctctaaataa ataaataagt aaaaagatta 841 gcccatgaac aatgaggtca atcattaaga aagaacaggc gggcacggtg gcaaacacct 901 gtaatcccag cactttggga gcgctgaggc gggtggatc // LOCUS HUMATPAS08 1619 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exons 12 and 13. ACCESSION M28289 KEYWORDS adenosine triphosphatase. SEGMENT 8 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 1619) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 1069 1223 adenosine triphosphate alpha subunit, exon 12 (EC 3.6.1.3) 1301 + 1424 adenosine triphosphate alpha subunit, exon 13 IVS < 1 1068 adenosine triphosphate alpha subunit intron K IVS 1224 1300 adenosine triphosphate alpha subunit intron L IVS 1425 > 1619 adenosine triphosphate alpha subunit intron M BASE COUNT 372 a 419 c 489 g 339 t ORIGIN 1 ggatccaagg tccagctgtg gagttgtgtc tgtagctcgc cccttcttgc tgtgtagtat 61 ttgactgcat ggatgtaccg tggtttattc atccctcacc tgttgatgga catggggttg 121 actctggctt ttggctctga tgagtggtgc tatggtgaac attctcgtac ttgcttttcg 181 ctgggcataa acagtcctcc tctcttttgg gtataaaacc taggagtcgg attactcggt 241 cggtggggtg ggggatgttt gatagcaact ccgaaaccat cttccaaagt ggttatttca 301 agaatgtttc cacaaaggcg atctggctgg atgtttatgt ggaaaggtag gtgggtgagg 361 ggccaggtgt ggagacttat gcctgtaatc ccagcacttc gggaggctga gatggaatca 421 cagcccagaa attagacaag cctaggaaaa gtggtgagac tctgtctcta ctaaaaatac 481 aaaaattagc tggacgtggt ggcgcgtgac tgtagtctca gctacatggg aggctgaggc 541 aggaggatca cttgagcctg ggagtcgagg ttgcagtgag ccgtgatcat gccactgcac 601 tgcagcctgg gcaacagagt gagaccctgt cccaaaaaga aaataatggt gggtgggctg 661 gggggtagaa aaggacgcag gccgggcgcg gtcgtcacgc ctgtaatccc aggcacttca 721 ggaggccgag gagggcagat cacgaggtca ggagattgag accatgcagg ctaacacagt 781 gaaaccccgt ctctaataaa aatacaaaaa aattagccgg gcgtggtggc aggtgcctgt 841 agtgccagct actcgggagg ctgaggcagg agaatggcgt gaacccggga ggcggagctt 901 gcagtgagcc gagatcgcac cactgcactc cagcctgggc aacacagcga gactctgtct 961 caaaaaaaaa aaaaaaaaaa aaaaggacgt tggatgaggg cagaggaggg gcagagggag 1021 tggggctccc tggcatgggc gcctgctctg agcctgcctg tgccacaggc cgcctgatct 1081 tcgacaacct aaagaagtcc attgcctaca ccctgaccag caatatcccg gagatcacgc 1141 ccttcctgct gttcatcatg gccaacatcc cgctgcccct gggcaccatc accatcctct 1201 gcatcgatct gggcactgac atggtgagcc ctggcagcca cccttggggc caggagggtg 1261 gagtcctccc ctctccggct caccggcctc ctccgcctag gtccctgcca tctcactggc 1321 gtacgaggct gccgaaagcg acatcatgaa gagacagccc aggaacccgc ggacggacaa 1381 attggtcaat gagagactca tcagcatggc ctacgggcag attggtgagg caccggggac 1441 tccatctcct taccaccatg ccggcctaga gcatgcctgg ccaccgtgcg tgcttgggac 1501 cctggcattg actcagggga gcagacgtgg gcaggaccaa ccagtgagct atctgagggg 1561 ggggtctgca ccccatcctt ctccacctcc tcctctctgc tgttgatgtg tgcggatcc // LOCUS HUMATPAS09 276 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 14. ACCESSION M28290 KEYWORDS adenosine triphosphatase. SEGMENT 9 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 276) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 86 + 231 adenosine triphosphate alpha subunit, exon 14 (EC 3.6.1.3) IVS < 1 85 adenosine triphosphate alpha subunit intron M IVS 232 > 276 adenosine triphosphate alpha subunit intron N BASE COUNT 46 a 83 c 81 g 66 t ORIGIN 1 ccgggccctc tgaggtgccc tgggttaggc tgactggccc caatctgagc ctctgcctga 61 ggacttacct ctctcctcct tccaggaatg atccaggctc tcggtggctt cttctcttac 121 tttgtgatcc tggcagaaaa tggcttcttg cccggcaacc tggtgggcat ccggctgaac 181 tgggatgacc gcaccgtcaa tgacctggaa gacagttacg ggcagcagtg ggtgagtagg 241 gcagggtgct gtgtctctgc ccaccgtaag atcccc // LOCUS HUMATPAS10 567 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 15. ACCESSION M28291 KEYWORDS adenosine triphosphatase. SEGMENT 10 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 567) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 366 + 496 adenosine triphosphate alpha subunit, exon 15 (EC 3.6.1.3) IVS < 1 365 adenosine triphosphate alpha subunit intron N IVS 497 > 567 adenosine triphosphate alpha subunit intron O BASE COUNT 95 a 179 c 161 g 132 t ORIGIN 1 ctgatgccct tgccagccca tctgagcctt tgtcccactg ctgagctcgt ctgccctgcc 61 agccttcttc cccacctctg tctgtccctt caaagcccag ttgctgtctg tctccttggg 121 aggccacagg gtcttatcct cctccctggc ccctggtgga tgtgagatca ccattaactt 181 tcttcttcct tgtacgtctc ctgactcctc cctctgggac tatgagcccg cagaaggaag 241 acacacctga ggccctgagg accccatgca ggatgggcgg ggcaaagagc acggaacgtc 301 ggggtggcgg ctagggctgc agtgccacta actgacgtcc cgtgccctgg tcaccgctcc 361 tgcagacata cgagcagagg aaggtggtgg agttcacctg ccacacggcc ttctttgtga 421 gcatcgttgt cgcccagtgg gccgatctga tcatctgcaa gacccggagg aactcggtct 481 tccagcaggg catgaagtga gggccggggg acatggtgac tggacagcca tctgtctgtc 541 cgagtcgtct gtctgtcgtg tgtactc // LOCUS HUMATPAS11 212 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 16. ACCESSION M28292 KEYWORDS adenosine triphosphatase. SEGMENT 11 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 212) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 28 + 129 adenosine triphosphate alpha subunit, exon 16 (EC 3.6.1.3) IVS < 1 27 adenosine triphosphate alpha subunit intron O IVS 130 > 212 adenosine triphosphate alpha subunit intron P BASE COUNT 33 a 81 c 53 g 45 t ORIGIN 1 cccagccctg cccttctgtg cctccaggaa caagatcatg atcttcgggc tgtttgagga 61 gacggccctg gctgccttcc tgtcctactg ccccggaatg gacgtggccc tgcgcatgta 121 ccctctcaag tgagtgcccc gctgccccca gccctgccca caccagcgcc tgccatggag 181 cctcttcctt agactaggtc tgaactaggc cc // LOCUS HUMATPAS12 1047 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -activated adenosine triphosphatase alpha subunit gene, exon 17 and 18. ACCESSION M28293 KEYWORDS adenosine triphosphatase. SEGMENT 12 of 12 SOURCE Human placenta DNA, clones lambda-NK-alpha[3-2,10-3]. REFERENCE 1 (bases 1 to 1047) AUTHORS Ovchinnikov,Y.A., Monastyrskaya,G.S., Broude,N.E., Allikmets,R.L., Ushkaryov,Y.A., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulubova,I.E., Petrukhin,K.E., Gryshin,A.V., Sverdlov,V.E., Kiyatkin,N.I., Kostina,M.B., Modyanov,N.N. and Sverdlov,E.D. TITLE The family of human Na+, K+ -ATPase genes: A partial nucleotide sequence related to the alpha-subunit JOURNAL FEBS Lett. 213, 73-80 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 101 192 adenosine triphosphate alpha subunit, exon 17 (EC 3.6.1.3) 474 502 adenosine triphosphate alpha subunit, exon 18 IVS < 1 100 adenosine triphosphate alpha subunit intron P BASE COUNT 145 a 391 c 236 g 275 t ORIGIN 1 ggatcctggg agactgcccc tctgcgtccc ctccagtccc ctgaaactct gcctctcgtt 61 agggccccgc actcaagccc tcctgctctc ccctctgcag gcccagctgg tggttctgtg 121 ccttccccta cagtttcctc atcttcgtct acgacgaaat ccgcaaactc atcctgcgca 181 ggaacccagg gggtgaggga gctcggcaag gcagccgagg ggggcggggg gcagcagggt 241 ctcaggcagc tggtcccagg ctcccctcgc cctgctggat gctctgccac ctggttccca 301 ctcttctctc tcttcccatc tctccggcac ccactctgtc ttctcacggg tctctgtctg 361 tgtggtttcc ttgtctctct ccctctctgt ccctctctct gctgggcggc tcgccttgcc 421 tgtctctctc catctcttac tctgtctctt tctttccttc tttgtctctc caggttgggt 481 ggagaaggaa acctactact gacctcagcc ccaccacatc gcccatctct tccccgtccg 541 caggccagga ccgcccctgt cagtcccccc aattttgtat tctgggggga ggagccctct 601 cttcctgtgg ccccaccttg gcccccaccc cctccactat ctcctgccgc ccccactctg 661 gctggcttct ctcccctgcc ccaaacctct ctcctctctc ttttctgtgt cagtttctct 721 ccctctcctc acccctctat ccattcctcc cgccccagcc acctccctgg gctctttttt 781 actccccttc agccccccgg tgatgccatc tctggttctg gacaattatc aaatatatca 841 gtggggagag agaagcggtg tgtgtgttgt gcctgctttc cagacgggga ctgcggctgg 901 gacagcatcc cctctgttgg ggcgcgctgc caggcgactc tcgaaactgc aggaacttag 961 cctggcactg gcttggaagt cacggaatct cagagccatc taatcacgga gttttcaact 1021 ccacgaaagt cagagcagct tgaattc // LOCUS HUMATPASE1 309 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 2, clone lambda-NK-alpha-RD-16. ACCESSION M27571 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 1 of 3 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R3-2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 309) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept / 21 + 289 Na+, K+ -ATPase alpha subunit, exon 2 (AA at 23) IVS < 1 20 Na+, K+ -ATPase alpha subunit intron A IVS 290 > 309 Na+, K+ -ATPase alpha subunit intron B BASE COUNT 54 a 88 c 96 g 71 t ORIGIN 1 gatgccccac catgttgcag gcactgccag gggcattgtg attgccacag gagaccggac 61 ggtgatgggc cgcatagcta ctctcgcctc aggcctggag gttgggcgga cacccatagc 121 aatggagatt gaacacttca tccagctgat cacaggggtc gctgtattcc tgggggtctc 181 cttcttcgtg ctctccctca tcctgggcta cagctggctg gaggcagtca tcttcctcat 241 cggcatcata gtggccaacg tgcctgaggg gcttctggcc actgtcactg tgagtgggtc 301 aggctgagg // LOCUS HUMATPASE2 239 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 3, clone lambda-NK-alpha-RD-16. ACCESSION M27576 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 2 of 3 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R3-2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 239) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 21 + 219 Na+, K+ -ATPase alpha subunit, exon 3 IVS < 1 20 Na+, K+ -ATPase alpha subunit intron B IVS 220 > 239 Na+, K+ -ATPase alpha subunit intron C BASE COUNT 53 a 76 c 66 g 44 t ORIGIN 1 ttctcctctt tctctaccag gtgtgcctga ccctgacagc caagcgcatg gcacggaaga 61 actgcctggt gaagaacctg gaggcggtgg agacgctggg ctccacgtcc accatctgct 121 cggacaagac gggcaccctc acccagaacc gcatgaccgt cgcccacatg tggtttgaca 181 accaaatcca tgaggctgac accaccgaag atcagtctgg tgattgggtg ctccagcgg // LOCUS HUMATPASE3 150 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 4, clone lambda-NK-alpha-RD-16. ACCESSION M27578 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 3 of 3 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R3-2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 150) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 21 / 130 Na+, K+ -ATPase alpha subunit, exon 4 IVS < 1 20 Na+, K+ -ATPase alpha subunit intron C IVS 131 > 150 Na+, K+ -ATPase alpha subunit intron D BASE COUNT 31 a 49 c 38 g 32 t ORIGIN 1 tccccctcat ttcctcccag gggccacttt tgacaaacga tcccctacgt ggacggccct 61 gtctcgaatt gctggtctct gcaaccgcgc cgtcttcaag gcaggacagg agaacatctc 121 cgtgtctaag gtagggggtc aggacacaca // LOCUS HUMATPASA1 308 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 2, clone lambda-NK-alpha-TW-4. ACCESSION M27572 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 1 of 2 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-TW-4. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 308) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept / 21 / 288 Na+, K+ -ATPase alpha subunit, exon 2 (AA at 22) IVS < 1 20 Na+, K+ -ATPase alpha subunit intron A IVS 289 > 308 Na+, K+ -ATPase alpha subunit intron B BASE COUNT 56 a 79 c 80 g 93 t ORIGIN 1 tccctcccct tctttttaag gaccgcacgt ggtattgttg tctacactgg ggatcgcact 61 gtgatgggaa gaattgccac acttgcttct gggctggaag gaggccagac ccccattgct 121 gcagaaattg aacattttat ccacatcatc acgggtgtgg ctgtgttcct gggtgtgtct 181 ttcttcatcc tttctctcat ccttgagtac acctggcttg aggctgtcat cttcctcatc 241 ggtatcatcg tagccaatgt gccggaaggt ttgctggcca ctgtcacggt aagaggcagg 301 tgatggtc // LOCUS HUMATPASA2 95 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 4, 3' end, clone lambda-NK-alpha-TW-4. ACCESSION M27579 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 2 of 2 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-TW-4. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 95) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept < 1 / 75 Na+, K+ -ATPase alpha subunit, exon 4 (AA at 1) IVS 76 > 95 Na+, K+ -ATPase alpha subunit intron D BASE COUNT 27 a 20 c 21 g 27 t ORIGIN 1 gctctgtcca gaattgcagg tctttgtaac agggcagtgt ttcaggctaa ccaggaaaac 61 ctacctattc ttaaggtatg ctcaagagtt aacta // LOCUS HUMATPASEA 188 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 3 (5' end). clone lambda-NK-alpha-SW3.2. ACCESSION M27574 KEYWORDS Na+, K+ -ATPase alpha-subunit. SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-SW3.2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 188) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept / 21 > 188 Na+, K+ -ATPase alpha subunit, exon 3 (AA at 21) IVS < 1 20 Na+, K+ -ATPase alpha subunit intron B BASE COUNT 45 a 57 c 50 g 36 t ORIGIN 1 gtccttccct ctcctgctag gtgaccctgt cgctgacagc aaaacggatg gccaagaaga 61 actgcctggt gaagaacctg gaggctgtgg agacccctgg ctccacctcc atcatctgct 121 cggacaagac tgggacactg acccagaaca ggatgacagt ggcccatctg tggttcgaca 181 atcagatc // LOCUS HUMATPASEB 141 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 3 (partial), clone lambda-NK-alpha-R15-1. ACCESSION M27575 KEYWORDS Na+, K+ -ATPase alpha-subunit. SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R15-1. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 141) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept < 1 > 141 Na+, K+ -ATPase alpha subunit, exon 3 (AA at 1) BASE COUNT 32 a 41 c 41 g 27 t ORIGIN 1 ctgtccctga cagccaagcg cctggccagt aagaactgcg tggtcaagaa cctggaggcg 61 gtggagacat tgggctccac ttcggtgatc tgctcggaca agacagggac tctcactcag 121 aaccgcatga ctgtgtccca t // LOCUS HUMATPAB1 309 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 2, clone lambda-NK-alpha-R3-2. ACCESSION M27570 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 1 of 3 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R3-2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 309) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept / 21 + 289 Na+, K+ -ATPase alpha subunit, exon 2 (AA at 23) IVS < 1 20 Na+, K+ -ATPase alpha subunit intron A IVS 290 > 309 Na+, K+ -ATPase alpha subunit intron B BASE COUNT 45 a 103 c 89 g 72 t ORIGIN 1 ctaacccctc tggcctgcag gcacggctcg gggcgtggtg gtggccacgg gcgaccgcac 61 tgtcatgggc cgtatcgcca ccctggcatc agggctggag gtgggcaaga cgcccatcgc 121 catcgagatt gagcacttca tccagctcat caccggcgtg gctgtcttcc tgggtgtctc 181 cttcttcatc ctctccctca ttctcggata cacctggctt gaggctgtca tcttcctcat 241 cggcatcatc gtggccaatg tcccagaggg tctgctggcc actgtcactg taaggccagg 301 ctcctgggt // LOCUS HUMATPAB2 239 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 3, clone lambda-NK-alpha-R3-2. ACCESSION M27573 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 2 of 3 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R3-2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 239) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 21 + 219 Na+, K+ -ATPase alpha subunit, exon 3 (AA at 22) IVS < 1 20 Na+, K+ -ATPase alpha subunit intron B IVS 220 > 239 Na+, K+ -ATPase alpha subunit intron C BASE COUNT 54 a 77 c 68 g 40 t ORIGIN 1 ctgccttgct cgtcctccag gtgtgtctga ccgtgaccgc caagcgcatg gcccggaaga 61 actgcctggt gaagaacctg gaggctgtag agaccctggg ctccacgtcc accatctgct 121 cagataagac agggaccctc actcagaacc gcatgacagt cgcccacatg tggtttgaca 181 accagatcca cgaggctgac accactgagg accagtcagg tgagcgcagg ccccgggta // LOCUS HUMATPAB3 150 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human Na+, K+ -ATPase alpha-subunit gene, exon 4, clone lambda-NK-alpha-R3-2. ACCESSION M27577 KEYWORDS Na+, K+ -ATPase alpha-subunit. SEGMENT 3 of 3 SOURCE Human placenta and adult brain DNA, clone lambda-NK-alpha-R3-2. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 150) AUTHORS Sverdlov,E.D., Monastyrskaya,G.S., Broude,N.E., Ushkaryov,Y.A., Allikmets,R.L., Melkov,A.M., Smirnov,Y.V., Malyshev,I.V., Dulobova,I.E., Petrukhin,K.E., Grishin,A.V., Kijatkin,N.I., Kostina,M.B., Sverdlov,V.E., Modyanov,N.N. and Ovchnikov,Y.A. TITLE The family of human Na+ K+ -ATPase genes: No less than five genes and/or pseudogenes related to the alpha-subunit JOURNAL FEBS Lett. 217, 275-278 (1987) STANDARD simple staff_entry FEATURES from to/span description pept + 21 / 130 Na+, K+ -ATPase alpha subunit, exon 4 (AA at 22) IVS < 1 20 Na+, K+ -ATPase alpha subunit intron C IVS 131 > 150 Na+, K+ -ATPase alpha subunit intron D BASE COUNT 27 a 50 c 38 g 35 t ORIGIN 1 ctcacacatg cctcccccag ggacctcatt tgacaagagt tcgcacacct gggtggccct 61 gtctcacatc gctgggctct gcaatcgccc tgtcttcaag ggtggtcagg acaacatccc 121 tgtgctcaag gtgggttagc tactggcctc // LOCUS NGORRDA 1486 bp ss-rRNA RNA 30-JUN-1990 DEFINITION N.gonorrhoeae 16S ribosomal RNA. ACCESSION M34130 KEYWORDS 16S ribosomal RNA; small subunit ribosomal RNA. SOURCE N.gonorrhoeae (strain 2013) ribosomal RNA. ORGANISM Neisseria gonorrhoeae Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Neisseriaceae. REFERENCE 1 (bases 1 to 1486) AUTHORS Woese,C.R. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. Author address: C.R.Woese Dept. Microbiology 131 Burrill Hall 407 S. Goodwin Ave. University of Illinois Urbana, IL 61801 FEATURES from to/span description rRNA 1 1486 16S ribosomal RNA BASE COUNT 365 a 334 c 460 g 294 t 33 others ORIGIN 1 nnaacataag agtttgatcc tggctcagat tgaacgctgg cggcatgctt tacacatgca 61 agtcggacgg cagcacaggg aagcttgctt ctcgggtggc gagtggcgaa cgggtgagta 121 acatatcgga acgtaccggg tagcggggga taactgatcg aaagatcagc taataccgca 181 tacgtcttga gagggaaagc aggggacctn cgggccntgc gctatcngag cggccgatat 241 ctgattagct ngtnggcggg gtaaaggccc accaaggcga cgatcagtag cgggtctgag 301 aggatgatcc gcnacactgg gactgagaca cggccnagac tcctacggga gncagcagtg 361 ggnnattttg gacaatgggc gcnagcctga tccagccatg cngcgtgtct gaagaaggcc 421 ttcgggttgt aaaggacttt tgtcagggaa gaaaaggccg ttgccaatat cggcggccga 481 tgacggtacc tgaagaataa gcaccggcta actacgtgcn agcagccncg nnnatacgta 541 gggtgcgagc gttaatcgga attactgggc gtaaagcggg cgcagacggt tacttaagca 601 ggatgtgaaa tcncngggct caacccggna actgcgttct gaactgggtg actcgagtgt 661 gtcagaggga ggtggaattc cacgtgtagc agtgaaatgc gtagagatgt ggaggaatac 721 cnatggcgaa ggcagcctcc tgggataaca ctgacgttca tgtccgaaag cgtgggtagc 781 aaacaggatt agataccctg gtagtccacg ccctaaacga tgtcaattag ctgttgggca 841 actnnattgc ttggtagcgt agctaacgcg tgaaattgac cgcctgggga gtacggtcgc 901 aagattaaaa ctcaaaggaa ttgacggggn accgcacaag cggtggatga tgtggattaa 961 ttcgatnnaa cgcgaagaac cttacctggt tttgacatgt gcggaatcct ccggagacgg 1021 agnagtgcct tcgggagccg taacacaggt gctgcatggc tgtcgtcagc tcgtgtcgtg 1081 agatgttggg ttaagtcccg caacgagcgc aacccttgtc attagttgcc atcattcggt 1141 tgggcactct aatgagactg ccggtgacaa gccggaggaa ggtggggatg acgtcaagtc 1201 ctcatggccc ttatgaccag ggcttcacac gtcatacaat ggtcggtaca gagggtagcc 1261 aagcgcgagc ggagccaatc tcacaaaacc gatcgtagtc cggattgcac tctgcaactc 1321 gagtgcatga agtcggaatc gctagtaatc gcaggtcagc atactgcggt gaatacgttc 1381 ccngnncttg tacacaccgc ccgtcacacc atgggagtgg ggnataccag aagtaggtag 1441 ggtaaccgca aggagtccgc ttaccacggt atgcttcatg actggg // LOCUS SPLRRDA 1492 bp ss-rRNA RNA 30-JUN-1990 DEFINITION S.volutans 16S ribosomal RNA. ACCESSION M34131 KEYWORDS 16S ribosomal RNA; small subunit ribosomal RNA. SOURCE S.volutans (strain ATCC 19554) ribosomal RNA. ORGANISM Spirillum volutans Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Aerobic/microaerophilic, motile, helical/vibrioid bacteria. REFERENCE 1 (bases 1 to 1492) AUTHORS Woese,C.R. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. Author address: C.R.Woese Dept. Microbiology 131 Burrill Hall 407 S. Goodwin Ave. University of Illinois Urbana, IL 61801 FEATURES from to/span description rRNA 1 1492 16S ribosomal RNA BASE COUNT 389 a 327 c 446 g 299 t 31 others ORIGIN 1 tcaaatgaag agtttgatcc tggctcagat tgaacgctgn cngcatgcct tacacatgca 61 agtcgaacgg taacagggac ttcggtccgc tgacgagtgg cgaacgggtg agtaaagcat 121 aggaatacat ccattagtgg gggataacgc atcgaaaggt gtgctaatac cgcatacgct 181 ctaaggagga aagcanggga tccnagacct tgcgctaatg ggctagccta tgtccgatta 241 gctagttggt agagtaaaag cctaccaagg cgacgatcgg taactggtct gagaggatga 301 tcagtcacac tggaactgag acacggtcca gactcctacg ggaggcagca gtggggaatt 361 ttggacaatg ggggaaaccc tgatccagcc atgccgcgtg ggtgaagaag gccttcgggt 421 tgtaaagccc tttcgggagg aaagaaaagc attgctctaa catagcaatg tgatgacggt 481 acctccataa gaagcaccgg ctaactacgt gccagcngcc gcggtaatac gtagggtgcn 541 agcgttaatc ggaattactg ggcgtaaagc gtgcgcaggc ggctagataa gccagatgtg 601 aaatccccga gctcaacttg ggtatcgcgc ttggaactgt ctagcnagag tttggcngag 661 gggggtagaa ttccacgtgt agcagtgaaa tgcgtagaga tgtggaggaa taccgatggc 721 gaaggnngcc ccctgggcta aaactgacgc tcatgcncga aagcgtgggg agcaaacagg 781 attagatacc ctggtagtcc acgccctaaa cgatgtcaac tggttgttgg gagggtaaac 841 ctcttagtaa cgaagctaac gcgagaagtt gactgcctgg ggagtacggt cgcaagatta 901 aaactcaaag gaattgacgg gganccgcac aagcggtgga ttatgtggat taattcgatg 961 caacgcgaaa aaccttacct acctttgaca tgtcgagaat cctgcagaga tgcgggngtg 1021 ccttcgggaa ctcgaacaca ggtgctgcat ggctgtcgtc agctcgtgtc gtgagatgtt 1081 gggttaagtc ccgcaacgag cgcaaccctt atcattagtn gctacgcaag ggcactctaa 1141 tgagactgcc ggtgacaaac cggaggaagg tggggatgac gtcaagtcct catggccctt 1201 atgggtaggg cttcacacgt aatacaatgg tcggtacaga gggttgccaa cccgtgaggg 1261 ggagctaatc tcagaaagcc gatcgtagtc cggattgcag tctgcaactc gactgcatga 1321 agtcggaatc gctagtaatc gcggatcagc atgcngcggt gaatacgttc ccgggtcttg 1381 tacacaccgc ccgtcacacc atgggagtgg gtttcaccag aagtagttag cctaaccgcn 1441 aggagggcga ttaccacggt gngattcatg nnnnnnnnnn nnnngtaaca ag // LOCUS LOAREPDNA 839 bp ds-DNA INV 30-JUN-1990 DEFINITION Loa loa repetitive DNA sequence. ACCESSION M34259 KEYWORDS repetitive DNA. SOURCE Loa loa DNA. ORGANISM Loa loa Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Orthorrhapha; Tabanoidea; Tabanidae. REFERENCE 1 (bases 1 to 839) AUTHORS Klion,A.D., Raghavan,N., Brindley,P.J. and Nutman,T.B. TITLE Cloning and characterization of a species-specific repetitive DNA sequence from Loa loa JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by A.D.Klion, 11-MAY-1990. Author address: A.D.Klion NIAID/NIH, Lab Parasitic Diseases Bldg 4, Rm 126 9000 Rockville Pike Bethesda, MD 20892 BASE COUNT 207 a 130 c 199 g 303 t ORIGIN 1 gatcaaatac ctgatacgct cgtataaccg tgtcatccgg atatttatta tattaattat 61 taaagtgtta atcaaacatg agcaaaactt tttcgacgac gcaaattaca ttcctcgttt 121 tagtgcttta acccgaatgt aatataacat aacaaccatt tgcttaggct taggtttttc 181 gggtttatgc ttaggcttag gtttttcggg tttatgctta ggcttaggct taggttcttc 241 gggtttatgc ttaggcttag gcttaggttt ctcgggttta tgcttaggtt catgcttagg 301 cttaggctta ggcttgggct taggcttagg cttaggctta ggtttttcgg gtttatgctt 361 aggcttaggc ttaggcttgg gcttaggctt aggcttaggc ttaggttttt cgggtttatg 421 cttaggctta ggcttaggct taggcttggg cttaggctta ggcttaggct taggcttagg 481 cttaggtttt tcgggtttat gcttaggttt atgcttaggg tttatgctta gttttttttt 541 gaacactgtt cgataaccat ataagtatca taaatgtaaa catgtaaaat ttcagcattt 601 ataacaagaa gcaccaaaaa acaccgatgg atgaagcaaa agcggacgat gagcatgcca 661 cagtgaggag ctgttaagcg acttcgtgct gctacaaatt tgcattatgc aatggattac 721 agtaatccat tgttggatac agtgttgttt tctgatttgt agtaatccat cacagtaatt 781 cagcaaagtg aagtgtactc tgttgaaagc gtaagtattg cattggtgat attatgatc // LOCUS CFXRRDA 1486 bp ss-rRNA BCT 30-JUN-1990 DEFINITION C.aurantiacus 16S ribosomal RNA. ACCESSION M34116 KEYWORDS 16S ribosomal RNA. SOURCE C.aurantiacus (strain J10FL) ribosomal RNA. ORGANISM Chloroflexus aurantiacus Prokaryota; Bacteria; Gracilicutes; Anoxyphotobacteria; Multicellular filamentous green bacteria; Chloroflexaceae. REFERENCE 1 (bases 1 to 1486) AUTHORS Oyaizu,H., Debrunner-Vossbrinck,B., Mandelco,L., Studier,J.A. and Woese,C.R. TITLE The green non-sulfur bacteria: A deep branching in the eubacterial line of descent JOURNAL Syst. Appl. Microbiol. 9, 47-53 (1987) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 15-MAY-1990. FEATURES from to/span description rRNA 1 1486 16S ribosomal RNA BASE COUNT 301 a 394 c 495 g 224 t 72 others ORIGIN 1 acaatgnaga gtttgatcct ggctcaggac gaacgctggc ggcgtgccta atgcatgcaa 61 gtcgaacgca gcaggcgtgc ctggctgcgt ggcgaacggc tgaggaacac gtgggtgacc 121 tgccccggag tgggggatac cccgtcgaaa gacgggacaa tcccgcatac gctcgacgga 181 ggaaagccga aggcgctctg nnaggggccn gcggcccatc aggtagttgg tgtggtaacg 241 gcgcaccaag ccaatgacgg gtacccggtc tgagaggacg accgggcaga ctgggactga 301 gacacggccc agactcctac gggaggcagc agcaaggaat tttccccaat gggcgcaagc 361 ctgagggagc aacgccgcgt ggaggacgac ggccttcggg ttgtaaactc ctttcgggtg 421 ggacgatgct gacggtacca ccagaagcag ccccggctaa ctctgtgcca gcagccgcgg 481 taagacagag ggggcnagcg ttgtccggag ttactgggcg taaagggcgc gcaggcggtg 541 ggctgcgtcg gcgctgaaag cgccccgctt aacggggcga ggcgcgccga tacgagtcca 601 ctcgaggcaa gcagagggtg gcggaattcc gggtggagcg gtgaaatgcg tagagatccg 661 gaggaacgcc agtggggaag ccggccacct gggcttgacc tgacgctgag gcgcgacagc 721 gtggggagca aaccggatta gatacccggg tagtccacgc cgtaaacgat gccggctcgg 781 cgtctggcgc acgttggtgt gctgggtgcc ttagctcacg cggtaagccg gccgcctggg 841 gannnnnnnn nnnngcttaa aactcaaagg aattgnnnnn nnnnngcaca agnnnnnnnn 901 nnnnnngttt aattcgacgc aacacgaaga accttacccg gacttgacat ggcgctgcat 961 cccctggaaa cagggncgcc tgncgaggcg caccacaggt gctgcatggc tgtcgtcagc 1021 tcgtgtcgtg agatgttggg ttcagtcccg caacgagcgc aacccgtgtc ggtagttaca 1081 ggtgtctacc gagactgccg ntgaccggcg gaggaaggcg cggatgacgt caagtcagca 1141 tggcccttac gtccggggcg acacacacgc tacaatggcc acgacaatgc gttgccaagc 1201 cgcaaggtgg agctaatcgc ctaaacgtgg tctcagtgca gantcggggc tgcaactcgc 1261 ccccgtgaag gcggagttgc tagtaaccgc gtatcagcca tggcgcggtg aatacgttcc 1321 cgggccttgt acacaccgcc cgtcacgtca tgggagtggc caatgcttga agtccgtgtg 1381 ctaaccccag tcggggaggc agcggccgag ggcaggggcc gcgacnnnnn nnnnnnngta 1441 acaagnnnnn ngtaccggaa gnnnnnnnnn gatcacctcc tttcta // LOCUS DVURRDA 1551 bp ds-DNA BCT 30-JUN-1990 DEFINITION D.desulfuricans 16S ribosomal RNA gene. ACCESSION M34113 KEYWORDS 16S ribosomal RNA. SOURCE D.desulfuricans (ATCC 27774) DNA. ORGANISM Desulfovibrio desulfuricans Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Sulfate- or sulfur-reducing dissimilatory bacteria. REFERENCE 1 (bases 1 to 1551) AUTHORS Oyaizu,H. and Woese,C.R. TITLE Phylogenetic relationships among the sulfate respiring bacteria, myxobacteria and purple bacteria JOURNAL Syst. Appl. Microbiol. 6, 257-263 (1985) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. FEATURES from to/span description rRNA 1 1551 16S ribosomal RNA BASE COUNT 387 a 364 c 488 g 311 t 1 others ORIGIN 1 tgaactggag agtntgattc tggctcagat tgaacgctgg cggcgtgctt aacacatgca 61 agtcgaacgc gaaagggact tcggtcctga gtaaagtggc gcacgggtga gtaacgcgtg 121 gataatctgc ccttatgatc gggataacag ttggaaacgg ctgctaatac cggatacgct 181 caaaatgaac tttttgagga aagatggcct ctgcttgcat gctatcacgt aaggatgagt 241 ccgcgtccca ttagcttgtt ggcggggtaa cggcccacca aggcatcgat gggtagccga 301 tttgagagga tgatcggcca cactggaact gaaacacggt ccagactcct acgggaggca 361 gcagtgggga atattgcgca atgggcgaaa gcctgacgca gcgacgccgc gtgagggatg 421 aaggttttcg gatcgtaaac ctctgtcaga agggaagaaa ctacgttgtg ctaatcagca 481 gcgtactgac ggtaccttca aaggaagcac cggctaactc cgtgccagca gccgcggtaa 541 tacggagggt gcaagcgtta atcggaatta ctgggcgtaa agcgcacgta ggctgtagtg 601 taagtcaggg gtgaaatccc acggctcaac cgtggaactg cctttgatac tgcacaactt 661 gaatccggga gagggtggcg gaattccagg tgtaggagtg aaatccgtag atatctggag 721 gaacatcagt ggcgaaggcg gccacctgga ccggtattga cgctgaggtg cgaaagcgtg 781 gggagcaaac aggattagat accctggtag tccacgctgt aaacgatgga tgctagatgt 841 cggggagtat tcttcggtgt cgtagttaac gcgttaagca tcccgcctgg ggagtacggt 901 cgcaaggctg aaactcaaag aaattgacgg gggcccgcac aagcggtgga gtatgtggtt 961 taattcgatg caacgcgaag aaccttacct aggtttgaca tccacggaac cctcccgaaa 1021 aggaggggtg cccttcgggg agccgtgaga caggtgctgc atggctgtcg tcagctcgtg 1081 tcgtgagatg ttgggttaag tcccgcaacg agcgcaaccc ctatggatag ttgccagcaa 1141 gtaatgttgg gcactctatt cagactgccc gggttaaccg ggaggaaggt ggggacgacg 1201 tcaagtcatc atggccctta cgcctagggc tacacacgta ctacaatggc gcgcacaaag 1261 gggagcgaga ccgcgaggtg gagccaatcc caaaaaacgc gtcccagtcc ggattgcagt 1321 ctgcaactcg actgcatgaa gttggaatcg ctagtaattc gagatcagca tgctcgggtg 1381 aatgcgttcc cgggccttgt acacaccgcc cgtcacacca cgaaagtcgg ttttacccga 1441 agccggtgag ccaaccagca atggaggcag ccgtctacgg tagggccgat gattggggtg 1501 aagtcgtaac aaggtagccg taggggaacc tgcggctgga tcacctcctt t // LOCUS HPTRRDA 1484 bp ss-rRNA BCT 30-JUN-1990 DEFINITION H.aurantiacus 16S ribosomal RNA. ACCESSION M34117 KEYWORDS 16S ribosomal RNA. SOURCE H.aurantiacus (ATCC 23779) ribosomal RNA. ORGANISM Herpetosiphon aurantiacus Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Nonphotosynthetic, nonfruiting gliding bacteria; Cytophagales; Cytophagaceae. REFERENCE 1 (bases 1 to 1484) AUTHORS Oyaizu,H., Debrunner-Vossbrinck,B., Mandelco,L., Studier,J.A. and Woese,C.R. TITLE The green non-sulfur bacteria: A deep branching in the eubacterial line of descent JOURNAL Syst. Appl. Microbiol. 9, 47-53 (1987) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 15-MAY-1990. FEATURES from to/span description rRNA 1 1484 16S ribosomal RNA BASE COUNT 331 a 359 c 465 g 265 t 64 others ORIGIN 1 nttgtcggcg agtttgatcc tggctcagga cgaacgctgg cggcgtgcct aatgcatgca 61 agtcgaacgc attcttcgga aggagtggcg cacggctgag gaacacgtga ctaacctacc 121 ccggtgtggg ggataacggg tcgaaagact cgctaatccc gccatacgat ngcctcggcg 181 gaggaaagcc gtaaggcgca ctggnngggg gtcgcgtccc attagatagt tggtgtggta 241 atggcgcacc aagtcgatga tgggtctctg gtctgagagg ncgaccagac agattgggac 301 tgagacacgg cccaaactcc tacggggngc agcagcaagg aattttcggc aatgggcgca 361 agcctgaccg agcaacgccg cgtggaggat gacggctctt gggttgtaaa ctccttttgg 421 gggggacgat aatgacggta ccctccgaat caggcccggc taactacgtg ccagcagccg 481 cggtaatacg taggggccaa gcgttgtccg gaattactgg gcgtaaagcg tgnntaggcn 541 gtcgatgatg tgccgcgtga aagcgccgga gtaatgccgg ccaggtcgcg gcagacacgt 601 tgactagagg ctcgcagagg aacgtggaat tcccggtgta gtggtgaaat gcgtagatat 661 cgggaggaac accagtggcg caagcggcgt tctgggcgag acctgacact gagccacgac 721 ggcgtgggga gcaaacagga ttagataccc tggtagtcca cgcagtaaac gatgcatacc 781 aggtgtggga tggcgttcgc gtcgttccgt gccgcagctt acgcgatgag tatgccgcct 841 ggggactacg agcgcaagct taaaactcaa aggaattgnn nnnnnnnngc acaagnnnnn 901 nnnnnnnnng tttaattcga cgcaacgcga agaaccttac ctagtcttga catagcactg 961 caagcttcgg aaatgaagtt cgccttcgag ggtgtgctac aggtgctgca tggctgtcgt 1021 cagctcgtgt cgtgagatgt tgggttaagt cccgcaacga gcgcaacccc tgtgaggtgt 1081 tacaagtgtc acctcagact gccgttgtca acaacggagg aaggcgggga tgacgtcaag 1141 tccgcatggc ccttacgact agggcgacac acacgctaca atggctggga gaatgcgccg 1201 cgacctggca acaggctgcg aatcgagaac accagtcaca gttcagattg ggggctgcaa 1261 ctcgccccca tgaaggcgga gttgctagta atcgccggtc agcatacggc ggtgaatcag 1321 tacccgggcc ttgtacacac cgcccgtcac gtcatggaag tgggaaacac ctgaagtccg 1381 tggctaaccg caaggaggca gcggccgagg gtgggtctcg taactgnnnn nnnnnngtaa 1441 caagnnnnnn nnnnnngaag nnnnnnnnng atcacctcct ttct // LOCUS MXARRDB 1540 bp ds-DNA BCT 30-JUN-1990 DEFINITION M.xanthus 16S ribosomal RNA gene. ACCESSION M34114 KEYWORDS 16S ribosomal RNA. SOURCE M.xanthus (strain MD207) DNA. ORGANISM Myxococcus xanthus Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Myxobacteria; Myxococcaceae. REFERENCE 1 (bases 1 to 1540) AUTHORS Oyaizu,H. and Woese,C.R. TITLE Phylogenetic relationships among the sulfate respiring bacteria, myxobacteria and purple bacteria JOURNAL Syst. Appl. Microbiol. 6, 257-263 (1985) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. FEATURES from to/span description rRNA 1 1540 16S ribosomal RNA BASE COUNT 384 a 372 c 488 g 295 t 1 others ORIGIN 1 caattggaga gtttgatcct ggctcagaac gaacgctggc ggcgtgccta acacatgcaa 61 gtcgagcgcg aataggggca acccttagta gagcggcgca cgggtgcgta acacgtggat 121 aatctgcctg agtgctcggg ataaccagtc gaaagattgg ctaataccgg ataagcccac 181 ggtttcttcg gagactgagg gaaaaggtgg cctctgtata caagctatca cattcagatg 241 agtccgcggc ccatcagcta gttggcgggg taatggccca ccaaggcaac gacgggtagc 301 tggtctgaga ggacgatcag ccacactgga actgagacac ggtccagact cctacgggag 361 gcagcagtgg ggaattttgc gcaatgggcg aaagcctgac gcagcaacgc cgcgtgtgtg 421 atgaaggtct ttggattgta aagcactttc gaccgggaag aaaacccgtt ggctaacatc 481 caacggcttg acggtaccgg gagaagaagc accggctaac tctgtgccag cagccgcggt 541 aatacagagg gtgcaagcgt tgttcggaat tattgggcgt aaagcgcgtg taggcggcgt 601 gacaagtcgg gtgtgaaagc cctcagctca actgaggaag tgcgcccgaa actgttgtgc 661 ttgagtgccg gagagggtgg cggaattccc caagtagagg tgaaattcgt agatatgggg 721 aggaacaccg gtggcgaagg cggccacctg gacggtaact gacgctgaga cgcgaaagcg 781 tggggagcaa acaggattag ataccctggt agtccacgcc gtaaacgatg agaactaggt 841 gtcgtgggag ttgacccccg cggtgccgaa gctaacgcat taagttctcc gcctgggaag 901 tacggtcgca agactaaaac tcaaaggaat tgacgggggn ccgcacaagc ggtggagcat 961 gtggtttaat tcgacgcaac gcgcagaacc ttacctggtc ttgacatcct cagaatcctt 1021 cagagatgag ggagtgcccg caagggaact gagagacagg tgctgcatgg ctgtcgtcag 1081 ctcgtgtcgt gagatgttgg gttaagtccc gcaacgagcg caaccctcgc ctttagttgc 1141 cacgcaagtg gatctctaga gggactgccg gtgttaaacc ggaggaaggt ggggatgacg 1201 tcaagtcctc atggccttta tgaccagggc tacacacgtg ctacaatggc cggtacagag 1261 cgttgccaac ccgcgagggg gagctaatcg cataaaaccg gtctcagttc agattggagt 1321 ctgcaactcg actccatgaa ggaggaatcg ctagtaatcg cagatcagca cgctgcggtg 1381 aatacgttcc cgggccttgt acacaccgcc cgtcacacca tgggagtcga ttgctccaga 1441 aatcatctca ccaagaggtg ctcaaggagt ggtcggtaac tggggtgaag tcgtaacaag 1501 gtagccgtag gggaacctgc ggctggatca cctcctttct // LOCUS RBLRRDA 1491 bp ss-rRNA BCT 30-JUN-1990 DEFINITION R.acidophila 16S ribosomal RNA. ACCESSION M34128 KEYWORDS 16S ribosomal RNA. SOURCE R.acidophila (strain 7050) ribosomal RNA. ORGANISM Rhodopseudomonas acidophila Prokaryota; Bacteria; Gracilicutes; Anoxyphotobacteria; Purple nonsulfur bacteria. REFERENCE 1 (bases 1 to 1491) AUTHORS Woese,C.R. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. Author address: C.R.Woese Microbiology Department, 131 Burrill Hall University of Illinois 407 S. Goodwill Ave. Urbana, IL 61801 E-mail: ninja.life.uiuc.edu FEATURES from to/span description rRNA 1 1491 16S ribosomal RNA BASE COUNT 364 a 341 c 449 g 300 t 37 others ORIGIN 1 tacaacttga gagtttgatc ctggctcaga acgaacgctg gcggcaggct taacacatgc 61 aagtcgaacg ggcatagcaa tatgtcagtg gcagacgggt gaggaacacg tgggaacatg 121 ccctttggtt cggaacaact cagggaaact tgagctaata ccggataagc ctttcgaggg 181 aaagatttat cgccgaagga gtggcccgcg tccgattagc tagttggtga ggtaatggct 241 caccaaggcg acgatcggna gctngtctga gaggatgatc agccacattg ggactgagac 301 acggcccaaa ctcctacggg aggcagcagt ggggaatatt ggacaatggg cgcaagccng 361 atccagccat gccgcgtgag tgatgacggc cctagggttg taaagctctt tcacccacga 421 cgataatgac ggtagtgggc gaagaagccc cggctaactt cgtgccagca gccgcggtaa 481 tacgaagggg gcnagcgttg ttcggattta ctgggcgtaa agcgcacgta ggcngatctt 541 taagtcaggg gtgaaatgcc ggagctcaac ttcggaactg cctttgatac tggagatctt 601 gagttcgaga gaggtgagtg gaactgcgag tgtagaggtg aaattcgtag atattcgcaa 661 gaacaccagt ggcgaaggcg gctcactggc tcgatactga cgctgaggtg cnnaagcgtg 721 gggagcaaac aggattagat accctggtag tccacgccgt aaacgatgga tgctagccgt 781 taggcagctt gctgcttagt ggcgcagcta acgctttaag catcccgcct ggggagtacg 841 gtcgcaagat taaaactcaa aggaattgac gggggcncgc acaagcggtg gagcatgtgg 901 tttaattcga agcaacgcgc agaaccttac cagcttttga catgtcttgg acggatagca 961 gagatgttat cttctcttcg gagccgagaa cacaggtgct gcatggctgt cgtcngctcg 1021 tgtcgtgaga tgttgggtta agtcccgcaa cgagcgcaac ccacgtcctt agttgccatc 1081 attaagttgg gcactctagg gagactgccg gtgataagcc gagaggaagg tgtggatgac 1141 gtcaagtcct catggccctt acaggctggg ctacacacgt gctacaatgg cggtgacaat 1201 gggaagcgaa agggcgacct ctagcaaatc tcaaaaaacc gtctcagttc ggattgtact 1261 ctgcaactcg agtgcatgaa ggtggaatcg ctagtaatcg cagatcagaa cgctgcggtg 1321 aatacgttcc cgggccttgt acacaccgcc cgtcacacca tgggagttgg ctttacccga 1381 aggcgtttcg ctaaccgcaa ggaggcaggc gaccacggta gggtcagcgn ctnggnnnnn 1441 nnngtaacaa gnnnnnnnnn nnngaacctg nnnnnngatc acctcctttc t // LOCUS RCARRDA 1470 bp ss-rRNA BCT 30-JUN-1990 DEFINITION R.capsulatus 16S ribosomal RNA. ACCESSION M34129 KEYWORDS 16S ribosomal RNA. SOURCE R.capsulatus (strain B10, ATCC 33303) ribosomal RNA. ORGANISM Rhodobacter capsulatus Prokaryota; Bacteria; Gracilicutes; Anoxyphotobacteria; Purple nonsulfur bacteria. REFERENCE 1 (bases 1 to 1470) AUTHORS Woese,C.R. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. Author address: C.R.Woese Microbiology Department, 131 Burrill Hall University of Illinois 407 S. Goodwill Ave. Urbana, IL 61801 E-mail: ninja.life.uiuc.edu FEATURES from to/span description rRNA 1 1470 16S ribosomal RNA BASE COUNT 343 a 330 c 423 g 275 t 99 others ORIGIN 1 ttcaacttga gagtttgatc ctggctcaga acgaacgctg gcggcaggcc taacacatgc 61 aagtcgagcg agaccttcgg gtctagcggc ggacgggtga gtaacgcgtg ggaacgtgcc 121 ctttgctacg gaatagcccc gggaaactgg gagtaatacc gtatgtgccc ttcggggnaa 181 agatttatcg gcaaaggatc ggcccgcgtt ggattaggta gttggtgggg taatggccta 241 ccaagccgac gatccatagc tggtttgaga ggatgatcag ccacactggg actgagacac 301 ggcccagact cctacgggag gcagcagtgg ggaatcttag acaatggggg aaaccctgat 361 ctagccatgc cgcgtgagcg atgaaggcct tagggttgta aagctctttc aggtgggaag 421 ataatgacgg taccaccaga agaagccccg gctaactccg nnnnnnnngc cgcggtaata 481 cgnnnnnnnn nnnnnnnnnn nngaattact gnnnnnnnnn nnnnnnnnnn nnnnnnnnnn 541 nnnnngnggt gaaatcccag ggctcaacct tggaactgcc tttgaaactc ctggtcttga 601 ggncgagaga ggtgagtgga attccgagtg tagaggtgaa attcgtagat attcggagga 661 acaccagtgg cgaaggcggc tcactggctc gatactgacg ctgaggtgcg aaagcgtggg 721 gagcaaacag gattagatac cctggtagtc cacgccgtaa acgatgaatg ccagtcgtcg 781 gcaggcatgc ctgtcggtga cacactaacg gattaagcat tccgcctggg gagaacggtc 841 gcaagattaa aactcaaagg aattgacggg ggcccgcaca agcggtggag catgtggttt 901 aattcgaagc aacgcgcaga accttaccaa cccttgacat cgagatcgcg gttaccagag 961 atggtttcct tcagttcggc tggatcttag acaggtgctg catggctgtc gtcagctcgt 1021 gtcgtgagat gttgggttaa gtccggcaac gagcgcaacc cacactttca gttgccatca 1081 ttcagttggg cactctggaa gaactgccga tgataagtcg gaggaaggtg tggaggacgt 1141 caagtcctca tggcccttac gggttgggct acacacgtgc tacaatggtg gtgacaatgg 1201 gccaatccca aaaagccatc tcagttcgga ttggggtctg caactcgacc ccatgaagtn 1261 ggaatcgcta gtaatcgcgt aacagcaaga cgcggtgaat acgttcccgg gccttgtaca 1321 caccgcccgt cacaccatgg gaattgggtc taccctaaga aggtgcgcca accagcaang 1381 gaggcagcna gccacggtag gcacaggnng gnnnnnnnnn nngtaacaag nnnnnnnnnn 1441 nngaacctgn nnnnngatca cctcctttct // LOCUS RMVRRDA 1484 bp ss-rRNA BCT 30-JUN-1990 DEFINITION R.vannielii 16S ribosomal RNA. ACCESSION M34127 KEYWORDS 16S ribosomal RNA. SOURCE R.vannielii (strain EY33) ribosomal RNA. ORGANISM Rhodomicrobium vannielii Prokaryota; Bacteria; Gracilicutes; Anoxyphotobacteria; Purple nonsulfur bacteria. REFERENCE 1 (bases 1 to 1484) AUTHORS Woese,C.R. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 09-MAY-1990. Author address: C.R.Woese Microbiology Department, 131 Burrill Hall University of Illinois 407 S. Goodwill Ave. Urbana, IL 61801 E-mail: ninja.life.uiuc.edu FEATURES from to/span description rRNA 1 1484 16S ribosomal RNA BASE COUNT 343 a 343 c 433 g 292 t 73 others ORIGIN 1 caaaatctga gagtttgatc ctggctcaga acgaacgctg gcggcaggct taacacatgc 61 aagtcgaacg caccgcaagg tgagtggcag acgggtgagt aacgcgtggg aaccttccct 121 ttggtacgga ataacttcgg gaaaccgaag ctaataccgt atatctcctc cgggagaaag 181 atttatcgcc aaaggatggg cccgcgttgg attagctagt tggtgtggta acggcgcacc 241 aaggcgacga tccatagctg gtctgagagg atgatcagcc acactgggac tgagacacgg 301 cccagactcc tacgggaggc ngcngtgggg aatcttggac aatgggggca accctgatcc 361 agccatgccg cgtgagtgaa gaaggcctta gggttgtaaa gctcttttgg cggggacgat 421 aatgacggta cccgcagaat aagccccggc taacttcgtg ccagcagccg cggtaatacg 481 aagggggcna gcgttgttcg gaatcactgg gcgtaaagcg tacgcaggcg gattgataag 541 tcaggggtga aatcccgggg ctcaacctcg gaattgcctt tgatactgtc tgtctcgagt 601 tcgggagagg ttggcggaat tcctagtgta gaggtgaaat tcgtagatat taggaagaac 661 accagtggcg aaggnngcca actggcccga tactgacgct catgtacgaa agcgtgggga 721 gcaaacagga ttagataccc tggtagtcca cgctgtaaac tatggatgct agccgttggg 781 gagcttgctc ttcagtggcg cagctaacgt cttaagcatc ccgcctgggg agtacggtcg 841 caagattaaa actcaaagga attgacgggg gcccgcacaa gcggtggagc atgtggttta 901 attcgaggca acgcgaagaa ccttaccagc tcttgacatg tcgtgctacg tggagagatt 961 cacggttccc ttcggggacg cgaacacagg tgctgcatgg ctgtcgtcag ctcgtgtcgt 1021 gagatgttgg gttaagtccc gcaacgagcg caaccctcgc ccttagttgc taccatttag 1081 ttgagcactc taaggnnacc gccggtgata agccggagga aggtggggat gacgtcaagt 1141 catcatggcc cttacgggct gggctacaca cgtgctacaa tggcggtgac agtgggcagc 1201 gacacagcga tgtgatgcta atcccaaaaa gccgtctcag ttcagattgc actctgcaac 1261 tcgagtgcat gaagtcggaa tcgctagtaa tcgcggatca gcatgccgcg gtgaatacgt 1321 tcccgggcct tgtacacacc gcccgtcaca ccatgggagt tggttttacc cgaaggcgtn 1381 angctaaccg nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnnnnnn nnnnnngtaa 1441 caagnnnnnn nnnnnngaac ctgnnnnnng atcacctcct ttct // LOCUS THRRRDA 1528 bp ds-DNA BCT 30-JUN-1990 DEFINITION T.roseum 16S ribosomal RNA gene. ACCESSION M34115 KEYWORDS 16S ribosomal RNA. SOURCE T.roseum (strain ATCC 27502) DNA. ORGANISM Thermomicrobium roseum Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Neisseriaceae. REFERENCE 1 (bases 1 to 1528) AUTHORS Oyaizu,H., Debrunner-Vossbrinck,B., Mandelco,L., Studier,J.A. and Woese,C.R. TITLE The green non-sulfur bacteria: A deep branching in the eubacterial line of descent JOURNAL Syst. Appl. Microbiol. 9, 47-53 (1987) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.R.Woese, 15-MAY-1990. FEATURES from to/span description rRNA 1 1528 16S ribosomal RNA BASE COUNT 295 a 416 c 585 g 226 t 6 others ORIGIN 1 ggggatggag agtttgatcc tggctcaggg ggaacgctgg cggcgtgcct aatgcatgca 61 agtcggacgg gangcacgcn ctctggcgtg ccgaccgtgg cggacgggtg cgtaacacgt 121 ggggaaccct cccgggtgcg ggggataacc cggggaaact cgggctaata ccccatacgc 181 ttggctggcg gtgggccggc caaggaaagg cgcaggcgac tgtgctgtgc tcggagggcc 241 ctgcggccta tcagctagac ggtagggtaa cggcctaccg tggcgatgac gggtagctgg 301 tctgagagga tggccagcca cacgggcact gagacacggg cccgactcct acgggaggca 361 gcagcaggga atcttccgca atgggggcaa ccctgacgga gcgacgccgc gtgcgggagg 421 aagcccttcg gggtgtaaac cgctgttcgg ggggacgatc gagcgacggt accctcggag 481 caagtcccgg ctaactacgt gccagcagcc gcggtaagac gtagggggcg agcgttaccc 541 ggagtcactg ggcgtaaagg gcgtgtaggc ggctgggtac gccgcgtgtg aaagtccccg 601 gctcaaccgg ggagggtcgc gcgggacggc ctggctcgag ggcgggagag gcgggtggaa 661 ttcccggtgt agcggtgaaa tgcgtagaga tcgggaggaa cgccggtggc gaaggcggcc 721 cgctggcccg tacctgacgc tgaggcgcga aggcgtgggg agcgaaccgg attagatacc 781 cgggtagtcc acgcagtaaa cgatgcgggc gaggtgtggg tggtgttgac cccatccgtg 841 ccggcgccaa cgcagtaagc ccgccgcctg gggagtacgg ccgcaaggct aaaactcaaa 901 ggaattgacg ggggcccgca caagcagcgg agcgtgtggt ttaattcgac gcaacgcgaa 961 gaaccttacc agggcttgac atgccaccga acctggctga aaggctgggg tgcccggtga 1021 gggagcggtg gcacaggtgc tgcatggctg tcgtcagctc gtgccgtgag gtgttgggtt 1081 aagtcccgca acgagcgcaa ccctcggggt cagttacgcg ggtgtctgac ccgactgccg 1141 gggaaagccc ggaggaagga ggggatgacg tcaagtcagc atggccctga cgccctgggc 1201 gacacacacg ctacagtgac cgggacagtg ggcagcgaag gggcgacctg gagccaatcc 1261 cgcaaacccg gtcgtggtgg ggatcgcagg ctgcaacccg cctgcgtgaa cgcggagttg 1321 ctagtaaccg ccggtcagcc atacggcggt gaatacgttc ccgggccttg tacacaccgc 1381 ccgtcacgtc acgaaagctg gcttcacctg aagctggtgg gccaaccggc gcacgctggg 1441 ggcagccgtc gagggtgggg ctggtgattg ggacgaagtc gtaacaaggt agccgtaccg 1501 gaaggnnnng gtggatcacc tcctttct // LOCUS RATTATFL 11973 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat tyrosine aminotransferase (TAT) gene, 5' flank. ACCESSION M34257 KEYWORDS tyrosine aminotransferase. SOURCE Rat (strain Wistar) adult male liver DNA. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 8314 to 8413) AUTHORS Boshart,M., Weih,F., Schmidt,A., Fournier,R.E.K. and Schuetz,G. TITLE A cyclic AMP response element mediates repression of tyrosine aminotransferase gene transcription by the tissue-specific extinguisher locus Tse-1 JOURNAL Cell 61, 905-916 (1990) STANDARD full staff_review REFERENCE 2 (bases 1 to 11973) AUTHORS Labeit,S., Strahle,U. and Weih,F. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1],[2] kindly submitted by M.Boshart, 11-MAY-1990. BASE COUNT 3162 a 2618 c 2675 g 3518 t ORIGIN 1 gttcatgcat gtacaagtac atgtgaatgt gtgtgaacaa cttcagatgt cattacttgg 61 gccataatta ctgttgttga tgttgatagg gcctatcttc gcctgggggt ggccagtgag 121 gctggctaac tgctcagtca atccagacat ttgctcatct ctccgttccc aatgctggca 181 ttactacccg tgcctcccac accaccatgc ctggtatttt ttttttttcc tttttgtctt 241 tttaaatctg ggctgtaagg ttgaactcag gtccttgtgc atgcaagtca agtgttttac 301 agactgagct atctctccta gtcctgtgct ggaaattccc tcagacactt ctacatcaga 361 ttcaaatcct ttctctaggt gagagatgcc attcatttgc caacaaggcg gaatgggtga 421 gcttgtccaa aataccacgt ttaatcaggt tgtctgtttt ggttggctta tttgacactt 481 acaagtcaac attgcaacat tattatatat ttgtcttctg attttaaaaa tgatgggtga 541 tgcgcttgtg ttttaacctt ttctaggaga taaacgtcta cctgttgaat taacagactt 601 actttttaaa catcctgtcg tacatgacac ttttttttaa acatttattc atttattata 661 tataagtaca ctgtagctgc tcttcagaca caccagaaga gggcatcgga tctctttaca 721 gatggttgtg agccaccacg tggttgctgg gaattgaact caggacctct ggaagagtag 781 tcgggtgctc ttaaccgctg agccatttct ccagcccgac actttttaat actatataaa 841 acaagttaaa taaatacgat cgttgccctt agaaatgcac aaacacgaaa tgggacagac 901 ttttcacttt ctttcatgcg tagcacttcc acgaaaccac aagttaggaa caatgatcaa 961 atatttacag gacccctaag catcacagtt aataattttc atgtggggac gcacctatat 1021 gtgattggca gttgaatcaa caaagcagca aaaatcaaca actttaaaat aagatgtgta 1081 ggtcattttg gtcaactaaa atttgagaaa tcgctgattt gtgtatgcac gtgtgttcct 1141 aaaaccgtta ctttatgtag ttctttttca aagaaaggag atgggcaccc ccaggaaagc 1201 tggttatacc cattgcttgg agtttctgat gactgctttg acatcagggc agcattctgt 1261 catcatccgt gtgtactctg ggatgacagg gacctggacc tgtgtagaag agtcccctaa 1321 ctcccttctc actccccagg gcttaaggct tgcctgggtc acctgatgct cgtttgcagt 1381 gggcgaggta gggcaggtga ggagagtggg tccattgccg tgagacacgc aatcagtggc 1441 aatagtgaag tcactgagcc ggacgtttct caatatttgc tctggcagag ggaggggggg 1501 gggagggagg gagggaggga ggtagagctg tttttttgtt ctaagggact gaaaactctt 1561 ctggaaatct acggggaatg catggagagc cagcactggg tttggggctc agggggtctc 1621 gtggacagca tgtccagcct ttcctagtgc taatctactt ggcaaatgga gattcctcct 1681 tcgggtgtca gctcaggggt agatgaagca ccctctgcct tttccgggct catcctgaac 1741 ttcctataga acactgatct ataagcctct cgcctgtcct cctggagcac ctgccattca 1801 caggattcat cagggtggtg ttcagggaag acacccattg gggtcgtcaa cacaatagag 1861 ccaactgaag aagggaggat ctgcctccca ttttatattt attttattat tttatttgag 1921 acagagtatg tctatgtagc cttggctagg ctggaacttt ccttttttga gcaggttggc 1981 ctcaaactca ccaagattat ctggctatac atctcctgag tgctgggatt aaaggagtgt 2041 accactgtac ctggcttctc tctctctctg tctctgtctc tgtctgtctc tctgtctctc 2101 tgtctctctg tctctctctc tctctctctc tctttctctc tctctctctt ccttccttcc 2161 tcttcctttc cttctttcct tcttttcttc tctctctctt tctttcttcc tttctttctt 2221 tctttctttc tttctttctt tctttctttc tttctttctt tctttctttc tttctttctt 2281 ctttctcttc tagtttttgt gtgtgtgtct gtgtgttttg gatacagtct tgctatgtga 2341 ccctacgctc ttctcaaact tgtatttatt ttgccacagt tttcccagag ctgagagttg 2401 ctttccttaa aaaaaacaaa aaatcacagg ggttggggat ttagctcagt ggtagcgcta 2461 tggcctagca agcgcgaagg ccctgggttc ggtcctcagc tccgaaaaaa aagggaaaaa 2521 aaattacata ttacttttag agaataacag gtttctgttg tgaaatttcc gtaagtattt 2581 acaacaaatg cagtactgac tattaaacca agagccatgt gtatgctagg caaatgctct 2641 acccctgacc tgcgtaatgc actttgatga cactcttaac ccgttgcatc ctggtcacac 2701 tcttctcctt cctcttccca aatagataat cttctgcctt tatgcctttt tcttttctct 2761 acatctagat tccgcatgtg agattcttcc ttagctggtc ttctcttact gaacaccgtg 2821 ctctgtccag ttgtctgcaa atggcatcat tccgtccttt agagctgaac agaactccac 2881 cgtgtatgcg tactgcatct tttttatcca catctctgtg gacggaccct tagctgattg 2941 cgaagtctgc ctattacgaa tacagtgacg gcagatgcgc aggcatctac ttccgctcct 3001 ccaaggtgcg caggcgtctc ggcagtacac cgacttccgc tccacccggg acatacctgc 3061 gagtggtata gctaggtcac agggtgattc tatttttcga atctatacta atttccatgc 3121 ggctatatta atttacattc ccacaacaat atatggaggt tccattccgc ctgtacatta 3181 tatcccccct ctctttctct gcctcaagta tgctaggcaa gcacttttac cagtcagcca 3241 acattcccag cccacttatg gttttcttgg tgatgccatt atgattggga tgaggtgaac 3301 atctccatgt agttaagatt ggccttttcc tgattctatt tccctcctgt tcatcagaca 3361 gaccactgaa tagcctaatc atatggggcc ctgaggatct ccagttataa aagttaatga 3421 ttctggttgc ttaattgact taggtaacag ttaataaaac acagggcctc atgatttact 3481 gcctatgagg cagaatagct taactaccct gctgttagag gaggccacct tggcccgagg 3541 tttggttctg ttctttagta gctgtgtggc ctttggcaag ttattcaact ctcctatgtt 3601 tgggtttctg cagttttcaa atgcgtttat aatagtacct accacatggt ggaatcagta 3661 aagtaacaca gacttagaat tgccaagtgc caagaacaca agagatgctt gatcaatatt 3721 tacgggtgac taaaattatt atttctacat ttttagtcat tcttaaaagg caatgctcct 3781 tccccccttt ttcttctgga cagaatagaa aaaacatcgt tttcaattca taataaattt 3841 ccattctcat aaaatatcca gtaccattta aggagttaat acaagctcct tgaccctcat 3901 cacaggtatt aataaagctt tatgaattac attatcagtc acttgttcat tcagccatcc 3961 tactgagcac tggctgtatg atagacacca tctcatgaaa caacgataaa taaatattct 4021 gctctcatgg aattaatatt ccagcagggg gaaataggca ataattaaaa tatgtaaaat 4081 gtatactata ttttactgat tctaaaacat ccattttccc agatgttaaa acccagaatc 4141 taggtgtggt gcctcccatt tgtaatccta gtattcagga ggctgagcag aaggctgcaa 4201 gttcaaggct tgcctcagtt aaaaaaataa attctcaggg ctggggattg tattacttgg 4261 ttgttaggat gcttacctaa gcacacatta gaccctaaat ttgaccctca atactgcata 4321 aaactgggtc tggtgacatc caggtggtgg aggcaggagg atcagaagtt taaagttatc 4381 tggctacata gtgagttcca agacaggtca gccacaacct tgtctaaaaa aaaaaaaaaa 4441 accacacaat taatattcat ttcacactga ctgaccagca tttttctttt gaacaaaaaa 4501 caaaacaaaa caacatcaga ccaagacaac aaatgcgtca acagcctctt agttttgatg 4561 ctggacacag ttgcggttag atatagtctc ctcctcctgc ccgcttgctg gaaggtaaaa 4621 ccaatatcct ttgggtagca aaatcccggc accttctctc ggactttgtt ttgctcatag 4681 ttctgtggca ggaaacttga tgtcctagac ttgggtaatt cactgtgatt tggccctcgc 4741 tgatggtcct ctcccctctg taggtcccag cagcgagtct ggataaagat tgctgacttg 4801 cataatctct ggcatttgtt accaggcggg gtagggaacg agtgatcctg agacttcact 4861 gagggaggtc agcagcaaag ctctggaaca ttccatgttc cttggccaag tgcatgctcc 4921 acaacttaca gatcatggag actgaactgg gactttctgc agcaggaagt caggctcagc 4981 ccctacctgt ccgaatggca gaccttgtat tacccattaa gccacgggac tgggatgctc 5041 aggattgctg tggtctaagc aggtagtgag agatgagagg ctggctctga ctggtttggg 5101 ttattatttg tgagtgctca aaaggaaaca gatggtgcgg tcaacctagg cagtttacga 5161 aaagggactt tcacttgtga ctgtgttcta gcaggatttg tctgtggcct cttgtgcttc 5221 tgagcggaga ctgggaacga ttacatgggt tcacatgtgg tcacagtcat cctgggccaa 5281 caacaggctc agatgggcta gccatccaaa atggcttctt catcggttca gtgcgccgat 5341 agttttgcat cccctctttg acaaaacaca cgggatttct tttagtttta ttttaccttt 5401 atattttttc atcttattaa atctttccct ccactttatt tgtattgcca tataaccttt 5461 tccccacata ctatttcctg attttttgat ccccttccct ctgctcccag gtttccctgc 5521 ctttcctcct atccagattc actctctttc tgtctctcac tagaaaacaa ccaggcttct 5581 aaaggataat aataaaatat aatataacac aagaaaccaa catctaatac actgggataa 5641 agacaaaata aaaagaagaa aagaacacaa taagagacag acacagagac ccactagttc 5701 atacacttag gaatcccaca aaaacactaa actggaagcc ataatataga cgcaaaggac 5761 ctgtagggta aaaggagaga aaaatatgaa ataattaaat acaaaaaaaa aaaatagccc 5821 tggcgtggca ctgtgaaaca aggcatctcc aatgttgagt tggtttccca tggaccatct 5881 cctgctgggc atggggcccg cccctaagag tagtttgttt ccccagcgag actcccttgg 5941 agaaaagtaa aattttattt gccagtgttt ttaagtggtg ataacttctg gattagggat 6001 ggggtacgtg tccaactctc ctttcaactc taggacccat ctggtgcagc cctgtgacag 6061 ccctgcacgt gctgccacag tctctgtgag ttcctgtgtg gatcagtcct gttgaccaga 6121 gggcttgttt tctcggcgtc ttccatgcct ctggctctcc tgcctcctct tctgcagggt 6181 tcccagagac acccatttaa gccggggtat gccaaggttt ctcacgctct gcatgctgtc 6241 tggctacggc tttctatttg tcccatctgc cgaagaagga agcctctctg atgatgactg 6301 agcagggcac tgatctactt ccctgactga agcacacact ggatttcttt cacgaaagct 6361 cagggtacta agcgagattt ggtagacgaa ctggcctgtg ttcagaacgc tcagaatgac 6421 tcctctggct ttcatcggtc aacccagtca tggcaaactt atttcctgat aaaatgctca 6481 ggatgaggac tggattgcag atgcggccac aaataaaaga acacgaagtt caccctggag 6541 acaaacggct gaggtaagag tcatggttgc cacagttatg caaaacacaa aacaaataag 6601 gtggtgctat ttgctaaact ccgtgagtgg ggcacccaga aggcacctca gtctgcaaac 6661 agatgaagat tttatttagc ttttgaagag cagagtgctg aagtagagag aaaagccaca 6721 acctttaaag ggtgagcagc cctttgaaaa cccactatcc ctttatacca tgaacaaaac 6781 agcagatcta atgctggctc ttcctcccct cattaccttc tccctttttt atgtgctatt 6841 tactgccaac tggtgagcac gtccagaccg aggcttatag gaagcaccac gtaagacaag 6901 agggcataag tggagaacaa ggaattgatt gtatgtgcag tacccaagtg atactgtcca 6961 ttattctgga tggaaaggaa cgacttagct ggtgaggaga tggaaaaggc aggcggatgt 7021 ttcctgcatc agctgaagag ttagttgact attttttttc ttaatttgtt tttgtttgtg 7081 tatgagtgct ttgcgcgcac ctagtctgtg taccacatgt gtgcaatgct caaggaggcc 7141 agaagagggc gccgtatctc ctggagctgg cgttgcagat ggtcccgaac ggccacgggg 7201 gtgctatgaa ttgaacaaaa agtaggccag caggaagttc atcgtctcag gaaaaagtct 7261 cattaaaata tcctaaaata agacccatag agtaccaagc tgagagagta aggatataga 7321 atgtacgtct ggaacaatag acacatttca acatgttaat catgggcaga aagaattgat 7381 attgcttgtg tccaggtggt agaattactg aagaactttt aaaggtttat ttgtttttat 7441 tttatgtgtg ggagtgtttt gcctgcagga tttgagtgtg ctacgcgcac gtctgttctt 7501 cttggagggt gtcagatggc ctgaactgaa gttacagttg gttgtgagcc aactgtgtag 7561 atgctggaaa ccaaatcccc atcaggtcaa acaaatgctc tgaactgctg agccatctct 7621 ccagccgcct ggcggtagaa ttattttaaa aatgcttttg tatgccaggc atggtggctc 7681 acagctgtaa agccagaact tgggaggtag aggcagaagg atcagcagtt tgggccatca 7741 caggctggct acattgtgag tatgagggtc tcaaaaaaca aaacaaaaat tatcccaaag 7801 ataaagaaca acgacaactc caaaacaaac aattaaccca cttctggcaa aagcgacagc 7861 gtacacttag aaaagctcac tagaagtcat ttggttttta ttttgatatt agcttttact 7921 taggtatcaa ttcgtttgtg tgtttagttt tgagataccc cagactatag ttgtttgttt 7981 ttcaagggaa ggacttcact gtgcctgttg gtgtaacctt tagtgagtgt cagagcttgc 8041 tgggccttga ctcgaggtct agtttatctg gtattgcaga aacttcctat acagctctgg 8101 gtcctgtcac acactctccc accctgcctg gtctgctttc tgctgaggga aaacattagc 8161 ttccagaggc aggtagcacc agaacttgtt tgctctgcct gtttcccctc tgacctcagt 8221 tctgatgttg gctcccacac ccagatgaag gtgtgttcgt ggcattgacc tgatgatgca 8281 gctgccctgg ctcccttcgc atgcccctct gccctgcagc ttctgcgtca gcgccagtat 8341 ttgctggacc acttgccaac ccctgtgcag cctgctgctc tttgatctgt atacctgaag 8401 ccaagccagc ccggcctgta agcagctgtt ctagagcttt gcaacccgca tcctaagcca 8461 aggtctcatc taaggcaaaa ataagggggt tattttctac agggacaggt gcgggacact 8521 cacagatgct tcaagaacac agtgggccga gaaaatgaac aatgtccgtc tttgattaaa 8581 tggggcaaag gcaacatctt taatattatc attccgtcaa tcactttgag aaaagcttat 8641 ttaagaagac aattcccaat ggttttcaaa ccaccggtta ggaaggtaat tagcctttct 8701 gaaaatacca tcaaggagtc tgaagaactg taacgtcggg gtgtggtggc ccacaccttg 8761 tcctcccagc acctgggagg ccgagacaaa gaagatgtag agttgggggc cagcttctgg 8821 tactctcgat gttcaaaacc aaaacagaac ggtttaaaaa ttaagactct ggcatagaat 8881 attctagaat caaacgtacc acaaacagat tcaggaatac tcggaattca gtataaacta 8941 aagcaacttt ttaaaattag tagggagaac caggtgtggt ggtacacacc tttaattcca 9001 gcacatggag gcaggggcag gcagatcttt gtgagttcaa gggcagcctg gtctacatgg 9061 caagttccag gctagccagg gcagcatagt gaagctctgc ttacaaaagc aaaacaaaaa 9121 accgggaaaa ccttcagttt ttgaataaga cacatatgtg agttcctaag atgcatgaac 9181 gccacagaga ccactcaaga gagcaccaag gctcctacgc aaaggcaagt tagctccaga 9241 gccctaggag agctgctcat gggacagggc agcgacagcc accaagctga gagtcagctt 9301 gtgtgcccag gagggaggcg ttgggtcaga gcctctggag gacccctgaa gtctcttctc 9361 agtgttctct atcacaggga gagctgtcag cccctggaat gtggttctat gtctagaaaa 9421 ctatcccata aataacagga agcccaaggt ttaccaatct ctgctgtaca ggatgttcta 9481 gctactttat ttgcaataga aaatctgaaa gtttccccat gtccaacaag actagaacaa 9541 acaagtcctg cgtagtcgcc tgtcggtttc tgggtgtggt ggtatagccc tgtaatccca 9601 gcatttggga agctgaggtg ggaggatcgg gagttcaagg tcagcttggg ctacttagaa 9661 agaccttgtc tcaaaagaag tggagggggg gtggtggtgg tggtggtggt ggtgtaaaat 9721 tgatctcttt gtatgataat gtccatacaa tatattaata ttgaaaacag tcatgccata 9781 gaacaatttt gttcagtaaa tgtacatcac ataagtaact tcaaatttta gaagggataa 9841 ttttaaagtc aggcaggcag cattaaagaa gaatgaggaa atcaatttaa aattcttttt 9901 taaagactta cttactggat ttttgcctat gggtaatttg catgtatgtt ataacaccct 9961 gtatgtttct ggttcctatg gggatcagaa gagggtatta ggtcctctgg gactggaggt 10021 atagaccgta gtttgtgagt caccgtgtgg gttctaagaa ctgaaccggg tcttctggaa 10081 gggcagccag tgctcttaac ctctgagcca tcttgccatc cccaataaaa ttagttaaga 10141 aattattatt attgttgttg tcgttttcgt ccttattagt gtgtgtgttc agcagtcagt 10201 tctgtccttc cacagtggca tctaagagtg gaacctaggt tggtggtcag gcttgtgcag 10261 gaagtgattt ttgccggctg agcaatctca tcaggcttcg gacatttttt aactgttttt 10321 atatttttat tttatagttt ttattgtttt aattcaaagt gtcagagaat ctttcaaaat 10381 gttgcaatcc atataaaaat gaacgaggtg gttggcattt ttaacactaa gtcttcgcaa 10441 tgcaacgtct cttttatatc aacaatgcat ctcactttag accagccaca tatcaaggat 10501 caaaagtcaa ttatggctgt agccattata ggaggccgtg caactctaaa gtatgtacag 10561 ccggcggtac agcgtttgct ttggttcaat ttcctatatc aaaaaggagt gtgtgggagg 10621 gagttgtaga aagtgactga ggaagacacc cagtgtccta atgtcaacag gaggatccac 10681 agcaggactc tggcaacacc cgtgtttatg aaacatctct gcgtgctgta gcttttattg 10741 gggggtttca gtgatccgtg tgtttgggca ctagaactct gtcggaccca gggggatgtg 10801 agccttgtgc atctaaatcg cagtccgcct tttcaggccc atcgcaggaa gaagccattg 10861 tagagatgca gcgtggtggt gggagcactg cacatgcgca gagacgctac tatgcaaata 10921 atagtctagc gcctcttgtg gacggtgttg tagctgcggt ctgtgcctgt tggagcaagg 10981 agcctgtgtg gccctggaat cagattacct gctttagggt aggagagaga tcctaccact 11041 gttgttggtt cctttgttaa cgttgtgatc agttacaagc tgctctggga attttccact 11101 gtttaaagaa cgacttcaga tcccttaact cgctgcactc agttttgtac tctgatgaaa 11161 atgaagctgc agagatcttt ttggctgcct tgtttcttga ttgattatta atttgtttga 11221 actgcccagt ttgttctaac tggagtccaa aactctgtgg tgtgccaaga aaaggaaatt 11281 aaggcatagg gcaaagaaat aataataacg actacggtga cgacgatgat gatgacgatg 11341 taaatgccat tatcgaacga gagcatgatt ctatctgtgc tttgaaaact tattaaattt 11401 tgtacgcatt tattctgcat ttctatttag ctatccgcat acttatctat tttggtgaat 11461 cagtgaaatt ttttatttgt ttttcccttg gaatgcggtt gaatttttgt ggatattacc 11521 gttgtccgta gcaaatccca catatggtag atgggtattc aaccaaactc ttatcattgc 11581 ttatatccag gagtgagact agagtgcaca gagaaagggg taccagaagg accctcgttt 11641 aaatgtattt ctgtactgtt aacacaattt tcataaccaa aaaagaccaa taaagttaat 11701 cactgtcacc ccaactgccc tccaccattt tctcaaacat ctcaccaaat gactagaaag 11761 agttaacagg attccagata cttgatgtaa ggacaaatcc cagattggaa ggtggcccag 11821 ggttggggtg agaaacagca gagtgggggg tggggtatgg gggtaggtcc gggggaggga 11881 cttagttctc actctcaacc aatagcacga aggcttcggg cccaacgccc attggctgaa 11941 actatttcaa gggtcaggac tgcacctgag ctc // LOCUS DRRADHA 1321 bp ds-DNA INV 30-JUN-1990 DEFINITION D.orena alcohol dehydrogenase (Adh) gene, 5' flank. ACCESSION M33488 Z00032 KEYWORDS alcohol dehydrogenase. SOURCE D.orena DNA. ORGANISM Drosophila orena Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Cyclorrhapha; Schizophora; Drosophiloidea; Drosophilidae. REFERENCE 1 (bases 1 to 1321) AUTHORS Moses,K., Heberlein,U. and Ashburner,M. TITLE The Adh gene promoters of Drosophila melanogaster and Drosophila orena are functionally conserved and share features of sequence structure and nuclease-protected sites JOURNAL Mol. Cell. Biol. 10, 539-548 (1990) STANDARD simple staff_review BASE COUNT 409 a 295 c 260 g 357 t ORIGIN 1 tctagattga ttctactacg ctgcctccag cagacacgcc cccccagcac cccatcccct 61 cccgctggca ccagtttcag tattacacgt atggaaatta agccgaagtt caattgcgag 121 cgcaggaaca acacgagctt gcatctttct acacttcttg gcgcgctatg cttgacattc 181 acaaggtcga agctcttagc gttctgactc ggggtgctac actgcacaaa attacattat 241 gcattcttca aatatcccta atataccaaa tatgtattaa aaagtgatca tttaccgatc 301 gttcgaaaga cggtataggc ttacaaaaaa atttgccaaa gtaatttaca aattcataat 361 ggttttttca agtatataat atgtacatca atattttctt acatgtattt tatgggatga 421 ttatgtttta aactacactc aattttttct cagtgcactt cctggtgttc cattttctat 481 tgggtccgta cccggcgttt gtttgcagat cacttgcttg cctattatta tagcatttta 541 cacattacaa aattctggac gtcgctgctg cagccgctgt cgacgtcaac tgcactcgcc 601 cccacgacaa aacggtattt aaggcgctgt gcaagtccca gtcgccgatt atgtctcagt 661 gcagttgtca gttgcagttc agcagaccgg ctagcgagta cttgcatctc ttcaaattta 721 cctaattgat caagtaagtg ggaaagggac ctcattatgc aatgtcgaat agtaagagat 781 cactatcact aatggtggag cataataaaa tcaattgcat gcaatcgaaa tgaatgcaaa 841 ccggcacaag cagtagcaaa cctactaaac aaattaaaat ttggaggctg tgccgtggcg 901 aatatttgac ttggaaaatc acctgttgtt taaccgctaa aaataggaat tttaacatta 961 agcatccctg ttaatcggcg ccgtgccttc gttagctatc tcaaaagcgc gcgcgtgcag 1021 acgagcagta attttccaag catcaggcat agttgggcat aaattataaa catagaaact 1081 gaatactaat atagaaaaag ctttgccgcc acaaaatccc aaacaaaaac aaaatatgtg 1141 ccgaaaaata aaacaaaaat aaaccgtaaa ccgggcagcg ttgccgtcgt tgcgggctgt 1201 gaagcttacg tgaatagccg agagatcgcg taatgataga taaagaaagc tctacgtaag 1261 cgaagcttct gggggataga tcttcctata aatacgggac cgacgcgaac tggaaacgaa 1321 c // LOCUS M33489 1380 bp ss-mRNA BAD 30-JUN-1990 DEFINITION D.melanogaster alcohol dehydrogenase (Adh) mRNA, 5' flank. ACCESSION M33489 Z00032 KEYWORDS alcohol dehydrogenase. SOURCE D.melanogaster, cDNA to mRNA. REFERENCE 1 (bases 1 to 1380) AUTHORS Moses,K., Heberlein,U. and Ashburner,M. TITLE The Adh gene promoters of Drosophila melanogaster and Drosophila orena are functionally conserved and share features of sequence structure and nuclease-protected sites JOURNAL Mol. Cell. Biol. 10, 539-548 (1990) STANDARD simple staff_review COMMENT Secondary reference. BASE COUNT 426 a 290 c 241 g 423 t ORIGIN 1 tctagattga ttctacgctg cctccagcag ccacccctcc catccccatc cccatcacca 61 tccagtcccg ttggctccca gtcacagtat tacacgtatg caaattaagc cgaagttcaa 121 ttgcgaccgc aggaacaaca cgatctttct acacttctcc ttgctatgct tgacattcac 181 aaggtcaaag ctcttaatat tctggcttgt ggccctacac tgtaagaaat tactatagaa 241 ataagggtac acggaataag atattttttt tagtccatat gcttttaaca aatgtgtttt 301 gagtttatgt tatattattg ttagaaaaca ggtgtttttt tttaaatcgg ttaaaaaatt 361 actacgagag aaaaatacaa attttgtaaa taagattgac tctttttcga ttttggaata 421 ttttcattca ttttatgttt ttacgttttc acttatttgt ttctcagtgc actttctggt 481 gttccatttt ctattgggct ctttaccccg catttgtttg cagatcactt gcttgcgcat 541 ttttattgca ttttacatat tacacattat ttgaacgccg ctgctgctgc atccgtcgac 601 gtcgactgca ctcgccccca cgagagaaca gtatttaagg agctgcgaag gtccaagtca 661 ccgattattg tctcagtgca gttgtcagtt gcagttcagc agacgggcta acgagtactt 721 gcatctcttc aaatttactt aattgatcaa gtaagtagca aaagggcaca caattgaagg 781 aaattcttgt ttaattgaat ttattatgca agtgcggaaa taaaatgaca gtattaaata 841 gtaaatattt tgtaaaatca tatataatca aatttattca atcagaacta attcaagctg 901 tcacaagtag tgcgaactca attaattggc atcgaattaa aatttggagg cctgttccgc 961 atattcctct tggaaaatca cctgttagtt aacttctaaa aataggaatt ttaacataac 1021 tcgtccctgt taatcggcgc cgtgccttcg ttagctatct caaaagcgag cgcgtgcaga 1081 cgagcagtaa ttttccaagc atcaggcata taatatacta atactaatac taatactaat 1141 ataagaatac taatatagaa aaaaagcttt gccggtacaa aatcccaaac aaaaacaaac 1201 cgtgtgtgcc gaaaaataaa aataaaccat aaactaggca gcgctgccgt cgccggctga 1261 gcagcctgcg tacatagccg agatcgcgta acggtagata atgaaaagct ctacgtaacc 1321 gaagcttctg ctgtacggat cttcctataa atacggggcc gacacgaact ggaaaccaac // LOCUS RATRIBOI 1456 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat ribophorin I (Rpn-I) gene, 5'end. ACCESSION M33508 KEYWORDS ribophorin I. SOURCE Rat DNA. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 1456) AUTHORS Behal,A., Prakash,K., D'Eustachio,P., Adesnik,M., Sabatini,D.D. and Kreibich,G. TITLE Structure and chromosomal location of the rat ribophorin I gene JOURNAL J. Biol. Chem. 265, 8252-8258 (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by G.Kreibich, 03-APR-1990. FEATURES from to/span description pept 1362 > 1456 ribophorin I (Rpn-I) mRNA 1338 > 1456 Rpn-I mRNA (alt.) mRNA 1341 > 1456 Rpn-I mRNA (alt.) mRNA 1347 > 1456 Rpn-I mRNA (alt.) mRNA 1352 > 1456 Rpn-I mRNA (alt.) mRNA 1353 > 1456 Rpn-I mRNA (alt.) mRNA 1359 > 1456 Rpn-I mRNA (alt.) binding 1314 1324 SP1 binding site binding 1325 1333 SP1 binding site binding 1247 1256 SP1 binding site signal 1297 1300 CAAT box BASE COUNT 342 a 325 c 336 g 453 t ORIGIN 1 ctgcaggtgc taatttcctg acttcttctc tgtagggagg agcatgtcct tccctccgct 61 ctctcattag ccagtgtcag tgtttgaata tttccatctc cttccaaaat ttttttttct 121 tttttttttt ttcggagctg gggaccgaac ccagggcctt agcgcttgct aggccaagct 181 accactgagc taaatcccca acccccaaaa tttaccttta aattacatcc ttcaagcaac 241 aatattggga catgttcatt agatcagaat tgataagagg caacacggaa atgaaagagg 301 tgacagatct ctaccaaggc cttattgccc ttagtcagag cgaatgaagg agcagcagtc 361 tccttttgtg agtggagact gtacaccaca atcgtgcagg gggcttcgag attttatagg 421 gttgaaacgg gactttaggg gagcaaagtt ttatcagtag atttttcttt atcattatta 481 tcatcattgt tgttgttgtt tttaaatggt ttcaaggccc aataatgcca gtagatgttc 541 tctttgctac attatttttc ttatcaggtg ttatcagtat accgactaga gtttttccac 601 tagcttgaag ttcatttgtt ttaggtcatt aattcttcag tgtgactttg ggagagacag 661 cactagagga atccatctgc aagaagcctt tgtaaaaggt cttgccgcag agagaccctt 721 tcctgccttt ctgtcatatg acgatatgcg attccttctt tagacaatgc aatgccaaag 781 ttccatcttg gtagtaagga gcagccctca cctgacagct tagtcctgcc agtaacttca 841 ccttggactt ctacaattgt gctaagtgcc aacagatact tgatgttaat atcatcagcc 901 ttggttagtt gcttaaggtt tctgccatcg ctcatattaa aaattgaact aaatattagg 961 ggagagactt gaatctttgg aaatttcccg tttttcttta aacttttgcc cacttagtat 1021 tcatatcaat gtagagaagg caaacttatt tccttagact aagctgtttc tgagcggaga 1081 ggccattttt tttttttttt ttttttttgc ataagcatga aggaaacagg agataaggaa 1141 ggacgactac cacagaaatc actggtgagt ctagctaata agcgctcaaa gacgtgtgcc 1201 tgcgctttaa gatttttcaa tcaggcgccc catcgcggtt gccttggaga cggggtcctt 1261 cctgacccgg cccagccatc ttgtggtgct gttggccaat caacggttgc gccgtggcgg 1321 gggggggcgg ggcgcgtgtc ggtggcgctc agctcgcggt catggaggcg ccgatcgtct 1381 tgctgctgct gctatggctc gccttgcccg acgcctggca gcgcctcttc ggaggctccg 1441 ccgctggtca acgagg // LOCUS DROCYCB 2612 bp ss-mRNA INV 30-JUN-1990 DEFINITION D.melanogaster cyclin B mRNA, complete cds. ACCESSION M33192 KEYWORDS cyclin B. SOURCE D.melanogaster 3-12 hour embryo, cDNA to mRNA, clone Nr 4/4. ORGANISM Drosophila melanogaster Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Diptera; Brachycera; Cyclorrhapha; Schizophora; Drosophiloidea; Drosophilidae. REFERENCE 1 (bases 1 to 2612) AUTHORS Lehner,C.F. and O'Farrell,P.H. TITLE The roles of Drosophila cyclins A and B in mitotic control JOURNAL Cell 61, 535-547 (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by C.F.Lehner, 26-MAR-1990, for release after publication. FEATURES from to/span description pept 250 1842 cyclin B mRNA < 1 2612 cyclin B mRNA BASE COUNT 710 a 670 c 635 g 597 t ORIGIN Chromosome 2; map postion 59A 1 aattcaaacg gcagcttggc ctcgcttcgt gtgcaaaact cgatcaggtt ttcggataat 61 tgacaatccc gcactcgact tgtaaattat aaactattag taatcatata ttcggacaac 121 aaattcaaca gctaaacaag cgttcggtca cagaaacgcg atcaaaagtc aaccaaacca 181 agtgatagcc aagcgtctgc ctatcttcgt gttaattgtg tttgtacaga tagaaaagaa 241 gcaatcaaaa tggtgggcac aacactgaaa atgcgtggcg atgagaacgc ttcggagaac 301 ttcaagcaag tgcaattgaa gaaattgacg gttccttcca tggaggcaac aacaaaacgc 361 gcggccttgg gcgatttgca gaatcgcggc ataagtcgtc ccatcgcagc gaaggatgcg 421 gcacagaaag actccaagga tctcaagctc acagacgccc tgcgcaatgc caaagctcgg 481 gtggacagcc actggaagaa acagccactg ggcagcacca atggcaatgg caatggcgcc 541 gttccgccca aggtcaacga ggggggcgtg tcggcgtttt tgcgttcgaa ttcggtgcgc 601 aatcgcgttc cgaccaagac cactgtagaa cccactaaag ttacagtcaa gtccagttct 661 tccgagaacg tgaacgagcc caccttgaag cgcgaggaca gcaatctgtc gaagaagtcg 721 ctgaccaaac tcggtgccgc tttggccaaa cccgtgatgg gagtttcagg aattcgacgg 781 gaaccagtag ctgtttcccg caaagaggca gagaccaaga aggaactgcc agaaaccaag 841 aaggactcac tggaagtgaa aaaggatgcg accaggatgc cccttattag gggcaacagt 901 gcagtcacta cgaccacatc cacgatgccc accaccatgt ccctttccag caagcgcttg 961 gctgggatcg aggacattga tgccaatgac aaggagaacc tggtactggt ctccgaatat 1021 gtaaacgaca tctacgacta cttgtatcag gtggagctgg agcagcccat tcacaaggat 1081 cacctggccg gacagaagga ggtgtcccac aagatgcgag ccgtgctgat cgattggatc 1141 aacgaagtcc acctgcagtt ccatctggct gcagagacct tccagctggc ggtggctatc 1201 attgatcgct acctgcaggt ggtcaaggac accaaacgca cgtacttgca attggtggga 1261 gtgacagcac tcttcatagc caccaagtac gaggagctgt tcccgccggc aatcggagat 1321 ttcgtcttca tcacggacga cacctacact gcccggcaga tccgacagat ggagctgcaa 1381 atcttcaagg ccatcgactg taatctgtcg cgtccgctgc cgattcactt ccttcgacgc 1441 tactcgaagg ctgctggcgc cgaggacgag caccatacga tgtccaagta cttcatcgag 1501 ttagcttccg tggactacga aatggccact tacaggccat cggagattgc agctgcctca 1561 ctgttcctgt cgctgcactt gctcaatgga aaccaccggg ccggtacagg attcaacgac 1621 cgtcactgga cgcccactct gaccttctac tcgcgatact cggccgcgca cttgcgtccg 1681 attacccggc tgatcgcgaa actggcccgg gacgctcctc aggccaagct gaaggccatc 1741 tacaacaagt accagggcag caagttccag aagatcgcgc tgcgaacgga gctgaccggt 1801 gcgctgatgg actcgattgt gggccagagc cagaggaaat agtgcggtcc aaggcggact 1861 ggaagaccct gacttaccta gtttagttta atttgttttc atttttaaat ttgtagcgta 1921 tttcattttc tgttcgtttc gtgttcgtta aaaaatgcgt atagttaccg tagtcgcatt 1981 gccaactatc tttacctgca tcacccatcc ctaagatatc gtaatctgct ggagtccctt 2041 gagcagtttt cggctactgc caagagctgg ctcccggcat ctttgcccac ggagcacaag 2101 ttgctcgcga gccggccgct gggagtgagt tcctccggta agactaggaa ccgaactaaa 2161 ctggagcccg tcagctcctt tcgctgggtc accatctcag tgggagcgag cggcggagcg 2221 gtggacaccg agagagagag tgggcaacga gttcatttgc tggccgaaca catcggcgtt 2281 gtctctccaa gaattatatt ttataattgt acccgtgaaa tcatttcatc ccctacctac 2341 ctatcactaa ttgtatttgt cgttagtttt tagtttcgat gggaatgaat aaatccaaaa 2401 aattgtgcaa aattattccc ataaatcgca taaaaaagag acgtagacta tttgtaattt 2461 atatcatgta tttcgcacat tcatacaaaa acaacttatg ctagttatat tgtttaccac 2521 taagcaacga ttaaaacacg ttttaactaa ctgatgtttc ccaaaaatgt ctctgaacaa 2581 tacatagaaa ataaagtttt gtataatttt at // LOCUS RATSV4I1 37 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat/SV40 5' recombination junction. ACCESSION K01218 KEYWORDS . SEGMENT 1 of 3 SOURCE Rat (strain Fisher) SV40-transformed isogenic cell line SV14B. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 37) AUTHORS Sambrook,J., Greene,R., Stringer,J., Mitchison,T., Hu,S.-L. and Botchan,M. TITLE Analysis of the sites of integration of viral DNA sequences in rat cells transformed by adenovirus 2 or SV40 JOURNAL Cold Spring Harb. Symp. Quant. Biol. 44, 569-584 (1980) STANDARD simple staff_review COMMENT The three segments of this entry represent an integration of the SV40 genome in which two SV40 fragments are integrated in opposite orientations with a 40 bp insert of undetermined origin between them. The authors report that SV40 and adenovirus inserts into host cell DNA appears to be chaotic, with inversions, deletions, and recombination with segments of uncertain origin. FEATURES from to/span description recomb 25 26 rat DNA end/SV40 DNA start BASE COUNT 12 a 8 c 5 g 12 t ORIGIN About 57 bp 3' to EcorI site. 1 acttcacatt ctaggatgtc tggctactaa aaaatct // LOCUS RATSV4I2 58 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat/SV40 recombination junction DNA and an insert of undetermined origin. ACCESSION K01219 KEYWORDS . SEGMENT 2 of 3 SOURCE Rat (strain Fisher) SV40-transformed isogenic cell line SV14B. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 58) AUTHORS Sambrook,J., Greene,R., Stringer,J., Mitchison,T., Hu,S.-L. and Botchan,M. TITLE Analysis of the sites of integration of viral DNA sequences in rat cells transformed by adenovirus 2 or SV40 JOURNAL Cold Spring Harb. Symp. Quant. Biol. 44, 569-584 (1980) STANDARD simple staff_review COMMENT The three segments of this entry represent an integration of the SV40 genome in which two SV40 fragments are integrated in opposite orientations with a 40 bp insert of undetermined origin between them. The authors report that SV40 and adenovirus inserts into host cell DNA appears to be chaotic, with inversions, deletions, and recombination with segments of uncertain origin. FEATURES from to/span description recomb 9 10 SV40 DNA end/insert of unkown origin DNA start recomb 49 50 insert of unknown origin DNA end/SV40 DNA start BASE COUNT 11 a 17 c 11 g 19 t ORIGIN About 3850 bp after segment 1. 1 tttgtgatct ttgcaatccc acagattgca gcataccagg cttccctgtc cttgtgca // LOCUS RATSV4I3 40 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat/SV40 3' recombination junction. ACCESSION K01220 KEYWORDS . SEGMENT 3 of 3 SOURCE Rat (strain Fisher) SV40-transformed isogenic cell line SV14B. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 40) AUTHORS Sambrook,J., Greene,R., Stringer,J., Mitchison,T., Hu,S.-L. and Botchan,M. TITLE Analysis of the sites of integration of viral DNA sequences in rat cells transformed by adenovirus 2 or SV40 JOURNAL Cold Spring Harb. Symp. Quant. Biol. 44, 569-584 (1980) STANDARD simple staff_review COMMENT The three segments of this entry represent an integration of the SV40 genome in which two SV40 fragments are integrated in opposite orientations with a 40 bp insert of undetermined origin between them. The authors report that SV40 and adenovirus inserts into host cell DNA appears to be chaotic, with inversions, deletions, and recombination with segments of uncertain origin. FEATURES from to/span description recomb 16 17 SV40 DNA end/Rat cell DNA start BASE COUNT 9 a 8 c 7 g 16 t ORIGIN About 770 bp after segment 2. 1 gctttttaaa tcctcacttc aggggtaaga gtttcattct // LOCUS RATSV4J1 42 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat/SV40 DNA recombination junction, clone pEM2. ACCESSION K02743 KEYWORDS . SEGMENT 1 of 2 SOURCE Rat (strain Fisher) SV40 transformed cell line tsA30-N2 DNA, clone pEM2. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 42) AUTHORS Hasson,J.-F., Mougneau,E., Cuzin,F. and Yaniv,M. TITLE Simian virus 40 illegitimate recombination occurs near short direct repeats JOURNAL J. Mol. Biol. 177, 53-68 (1984) STANDARD full staff_review COMMENT [1] reports that of two junctions between rat and SV40 DNA studied, one was a very abrupt transition, whereas the other (shown here) had an area of homology (bp 16-26) between the two sequences at the junction. The more likely recombination site at base 26 is given in the sites table, although base 16 might be another candidate. FEATURES from to/span description recomb 25 26 rat DNA end/SV40 DNA (base 439) start BASE COUNT 6 a 6 c 10 g 20 t ORIGIN 1 atggctgtat gcttttttta gagcctttgc tgcaattttg tg // LOCUS RATSV4J2 1357 bp ds-DNA Rod 30-JUN-1990 DEFINITION Rat/SV40 recombination junction, clone pEM5. ACCESSION K02744 KEYWORDS . SEGMENT 2 of 2 SOURCE Rat (strain Fisher) SV40 transformed cell line tsA30-N2 DNA, clone pEM5. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 1357) AUTHORS Hasson,J.-F., Mougneau,E., Cuzin,F. and Yaniv,M. TITLE Simian virus 40 illegitimate recombination occurs near short direct repeats JOURNAL J. Mol. Biol. 177, 53-68 (1984) STANDARD full staff_review COMMENT [1] reports that of two junctions between rat and SV40 DNA studied, one, shown here, was a very abrupt transition, whereas the other had an area of homology between the two sequences at the junction. A member of an interspersed middle-repetitive family bordered by 15 bp direct repeats is present at positions 595 to 790. Short direct repeats (ttg)6 and (tatc)12 are present at positions 53-70 and 310-357, respectively. [1] speculates that the presence of these short repeats provides a good environment for the viral integration process. FEATURES from to/span description recomb 24 25 SV40 DNA (base 705) end/rat DNA start unsure 306 307 tt could be ttt BASE COUNT 336 a 273 c 228 g 520 t ORIGIN About 5 kb after segment 1; 823 bp upstream of HindII site. 1 caacttgcat ctgttgctac tgttttttac tctgatgttg ctactgagaa ttttgttgtt 61 gttgttgttg gtggttttta aagacagtct cactatgtag tccaggctgg cctggaactt 121 gctctgtagg gtaagctggc catgaactca gtttgtatcc agtagctaga gtgagtcctt 181 gaacttggtc ctcctgcctt tgcctctcaa ctgctggcag ctactgagaa acttaactta 241 atctcattgc ttttttctct gacttttttt agaattggtt tttaatctta atactctatg 301 gtgcattcct atctatctat ctatctatct atctatctat ctatctatct atctatcacc 361 tatctctctt atatatctgt accctgtact ttttcagctt tttattatgg ggctcacgca 421 catgcacata atacgtctgc ataccatggc acacatgtga aggccacaca tgtagactaa 481 tcagttttct ccttctacta tgtgcatcct gggaatgaac ttaggtcatc gggcttggtg 541 gcaggtattt ttgtttgcta agctacctca ccagcccctc tggttctttt taaattcttt 601 tgagtttttt tttaatattt atttatttat tatacataag tacactgtag ctatcttcag 661 acacaccaga agagggcatt ggttgtgtga gccaccatgt agttgctggg atttgaactc 721 aggacctctg gaagagcagt cagtgctctt aaccgctgag ccatctctcc aacccttctt 781 ttgagttttt atgtgtcttt tctttttata aatttctaaa gtcaacgtaa aaagcattgg 841 atttgattac agcatgtttt tcttttatta aaaatattga ggcttttaac tctttagaga 901 caataaaccc aataagcatt agcataaata ccaattctta gaacaataca ttttcaaaca 961 cagaaacatt tactgaaaaa aggaactttt ttgcatcttt ataaatctgc tctattctag 1021 cttataaggt aaatgcttta ggctcatgtc caatttatat tcaatgtttg ttgatgtctg 1081 caatctatga ggaaaatcta acctcacaaa ggtgcatggt ttagaaacag aaagtttgac 1141 tttggttttg ttgttgtttg gatagtggtc tgtttggttg tgagtgtcac atttccttac 1201 atatgtgtgt gtcattatac ttttacatat tacttttaca tatgtgtcat tataactttg 1261 cctaatttga ccctctcctc ccctgctacc cgactctatt gctggttcaa ttcttcaccc 1321 caaatagtct ctcccagtat tcaggtcaca tgaattc // LOCUS RATSV4M1 37 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat/SV40 5' recombination junction. ACCESSION K01093 KEYWORDS . SEGMENT 1 of 3 SOURCE Rat cell line 14B DNA. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 37) AUTHORS Botchan,M., Stringer,J., Mitchison,T. and Sambrook,J. TITLE Integration and excision of SV40 DNA from the chromosome of a transformed cell JOURNAL Cell 20, 143-152 (1980) STANDARD full staff_review COMMENT The authors report that parts of the SV40 genome are integrated in opposite orientations and that a segment of SV40 has been deleted in rat cell line 14B. There is a 40 bp insertion of unknown origin. [1] analyzes 3 segments with rat proviral boundaries. FEATURES from to/span description recomb 25 26 rat DNA end/SV40 DNA start BASE COUNT 12 a 8 c 5 g 12 t ORIGIN 1 acttcacatt ctaggatgtc tggctactaa aaaatct // LOCUS RATSV4M2 58 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat SV40 proviral DNA with insert of undetermined origin. ACCESSION K01094 KEYWORDS recombinant DNA. SEGMENT 2 of 2 SOURCE Rat cell line 14B DNA. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 58) AUTHORS Botchan,M., Stringer,J., Mitchison,T. and Sambrook,J. TITLE Integration and excision of SV40 DNA from the chromosome of a transformed cell JOURNAL Cell 20, 143-152 (1980) STANDARD full staff_review COMMENT The authors report that parts of the SV40 genome are integrated in opposite orientations and that a segment of SV40 has been deleted in rat cell line 14B. There is a 40 bp insertion of unknown origin. [1] analyzes 3 segments with rat proviral boundaries. FEATURES from to/span description recomb 9 10 SV40 DNA end/DNA of unknown origin start recomb 49 50 DNA of unknown origin end/SV40 DNA start BASE COUNT 19 a 11 c 17 g 11 t ORIGIN About 3085 bp after segment 1. 1 tgcacaagga cagggaagcc tggtatgctg caatctgtgg gattgcaaag atcacaaa // LOCUS RATSV4M3 40 bp ds-DNA ROD 30-JUN-1990 DEFINITION Rat/SV40 3' recombination junction. ACCESSION K01095 KEYWORDS . SEGMENT 3 of 3 SOURCE Rat cell line 14B DNA. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 40) AUTHORS Botchan,M., Stringer,J., Mitchison,T. and Sambrook,J. TITLE Integration and excision of SV40 DNA from the chromosome of a transformed cell JOURNAL Cell 20, 143-152 (1980) STANDARD full staff_review COMMENT The authors report that parts of the SV40 genome are integrated in opposite orientations and that a segment of SV40 has been deleted in rat cell line 14B. There is a 40 bp insertion of unknown origin. [1] analyzes 3 segments with rat proviral boundaries. FEATURES from to/span description prov < 1 16 SV40 DNA BASE COUNT 9 a 8 c 7 g 16 t ORIGIN About 818 bp after segment 2. 1 gctttttaaa tcctcacttc aggggtaaga gtttcattct // LOCUS XELXOTCH 9163 bp ss-mRNA VRT 30-JUN-1990 DEFINITION X.laevis Xotch protein mRNA, complete cds. ACCESSION M33874 KEYWORDS Xotch. SOURCE X.laevis, cDNA to mRNA. ORGANISM Xenopus laevis Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Amphibia; Lissamphibia; Anura; Archeobatrachia; Pipoidea; Pipidae. REFERENCE 1 (bases 1 to 9163) AUTHORS Coffman,C., Harris,W. and Kintner,C. TITLE Xotch, the Xenopus homolog of the Drosophila notch gene JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable [or printed] sequence for [1] kindly submitted by C.R.Coffman, 26-APR-1990. Author address: C.R.Coffman University of California Dept. of Biology-B022, La Jolla, CA 92093 FEATURES from to/span description pept 346 7917 Xotch protein mRNA < 1 9163 Xotch mRNA signal 9146 9151 poly-A signal rpt 409 4632 EGF-like repeats rpt 4684 5025 lin-12/Notch repeats rpt 5953 6591 cdc-10/SWI-6 repeats BASE COUNT 2499 a 2192 c 2188 g 2284 t ORIGIN 1 gaattccgga cgcctggtgg aactaaacag actggaatgc actggaacac ggaagcctat 61 gcggggatac attgtagcgc tgagcccttc cgctgtaaca ttgtagcgct gagccgctca 121 tacactgtag cgctgtaact tcaggctgtg cgcaaactga gtgcgctatt ctctctccaa 181 tctggaaact ctgtcgcttt tggaccaggg attgcactga cttggattat cttcaccttt 241 ctctaaggga tttatagatt tttgccttgg gacctttatc ctccccttgt cctgggacag 301 ggaccttcat caggatctat gttcctatag tgagactgca ggaaaatgga tcggataggg 361 ctggctgtgc tgctctgctc cctgcctgtc ctcacacaag gtcttcgatg cactcagact 421 gcagaaatgt gcctgaacgg tgggaggtgc gaaatgaccc ctggtggaac tggggtgtgc 481 ctatgcggta atttgtattt cggtgaaagg tgccagttcc ccaatccctg caccataaag 541 aatcagtgta tgaactttgg aacctgcgag cctgtgctac aggggaacgc catagacttc 601 atctgccact gccccgtggg tttcaccgac aaagtgtgcc tgactcccgt ggataacgcc 661 tgcgtcaaca acccgtgccg gaatggagga acctgtgaac ttttgaatag cgtgactgaa 721 tacaaatgca ggtgtccccc aggatggaca ggggattcgt gccagcaggc agatccatgt 781 gcctctaatc catgtgccaa tggtgggaag tgtttgccct ttgagatcca gtatatctgc 841 aagtgtcccc ctggattcca tggagctacc tgcaagcagg acattaatga gtgcagccaa 901 aatccctgca agaatggcgg ccagtgcatc aatgagtttg gatcataccg ctgcacctgt 961 cagaacaggt ttactggaag aaactgtgat gagccatatg tcccctgcaa cccatcgccg 1021 tgcttgaatg gagggacctg ccgccaaact gatgacacct cctatgattg cacttgtctt 1081 ccaggcttta gtggacaaaa ttgtgaagag aacattgacg actgcccgag caacaactgc 1141 cgcaatggtg ggacctgtgt ggatggagtc aacacctata actgccagtg tccacctgac 1201 tggacaggcc aatactgcac ggaggatgtg gacgaatgcc aactgatgcc aaacgcttgc 1261 caaaatgggg gaacctgcca caacacctac ggtggataca actgtgtttg tgtcaacggc 1321 tggaccggag aggactgcag cgagaacatt gacgattgtg ccaacgccgc ctgccatagt 1381 ggtgccacct gtcatgatcg cgtggcatct ttctactgcg agtgcccaca cggccggaca 1441 ggtctccttt gccacctgga taatgcctgt atcagcaatc cctgcaacga aggctccaac 1501 tgtgacacca acccagtcaa cgggaaagcc atttgcacct gcccacctgg gtacactggt 1561 cctgcttgca acaatgatgt ggatgagtgc tctctgggtg ccaatccatg tgagcatggt 1621 gggagatgta ccaacaccct gggttccttc cagtgcaact gcccccaggg atatgcagga 1681 ccccgctgcg agattgatgt caatgaatgt ctttccaacc cgtgccaaaa tgattccaca 1741 tgcctggacc agattggaga gtttcagtgt atatgtatgc caggttacga aggcctttac 1801 tgtgaaacca acatagatga atgtgccagc aacccctgcc tacataatgg caagtgcatt 1861 gataaaatca acgagttccg ctgcgactgt cccacaggct tcagtggaaa cctctgccag 1921 catgactttg atgagtgtac cagcactccg tgcaaaaatg gagccaaatg cttggatggt 1981 ccaaattctt acacctgcca atgtacagaa ggtttcaccg ggcgccactg cgaacaagac 2041 atcaatgaat gcattcctga tccgtgccac tacggcacct gcaaagacgg cattgctacc 2101 ttcacatgcc tgtgccggcc tgggtacacg gggcgtctgt gtgataatga catcaatgag 2161 tgcctgagca agccgtgcct aaacgggggg cagtgtacag accgagagaa tggatacata 2221 tgcacttgtc cgaaaggaac cacaggggtg aattgcgaaa ccaaaataga tgactgtgcc 2281 agtaacctgt gcgataatgg aaagtgcatt gacaagattg atggctacga gtgcacctgc 2341 gagcctggtt acacaggcaa gttgtgcaat attaacatta acgaatgtga cagcaatcca 2401 tgccgcaatg gagggacttg caaagaccag atcaatggct tcacatgtgt gtgcccagat 2461 ggctaccatg accacatgtg cctgtctgaa gtaaatgaat gcaacagcaa tccatgtatc 2521 cacggggcgt gccatgatgg agtcaatggg tataaatgtg actgtgaagc aggatggagc 2581 ggtagcaatt gtgacatcaa taacaatgag tgtgaatcca acccgtgtat gaatggtggt 2641 acctgcaaag acatgaccgg agcatacatc tgtacttgca aagcaggatt tagtgggcca 2701 aactgccaaa ctaacatcaa cgaatgttcc tctaacccct gcttgaacca tggaacgtgt 2761 attgatgatg ttgctggtta caaatgcaac tgcatgttac cttatacagg tgccatttgt 2821 gaggcagttt tggctccgtg tgcaggcagt ccttgtaaaa atggtggcag atgtaaagaa 2881 tcagaagact ttgaaacctt ctcttgtgaa tgtccacccg ggtggcaagg gcaaacatgt 2941 gagattgaca tgaatgaatg cgtaaatcgc ccttgccgta acggtgcaac gtgtcaaaac 3001 accaatggca gctacaagtg caactgcaaa cctggttaca ctgggcggaa ctgcgagatg 3061 gacattgatg actgccaacc aaatccttgt cacaatggag gatcctgttc tgacggcatt 3121 aatatgtttt tctgtaactg cccggccggg ttccgggggc ctaagtgcga agaggacatt 3181 aacgagtgtg ccagtaaccc gtgcaaaaat ggagccaact gcactgattg tgtaaacagc 3241 tacacatgca cctgccagcc tggatttagt ggcatccact gtgaaagcaa cacccctgac 3301 tgcaccgaga gctcgtgctt taatggtggc acctgcattg atgggatcaa tacgtttaca 3361 tgccagtgcc cacctggatt taccggaagc tactgccaac atgatatcaa tgaatgtgac 3421 tccaagcctt gtttgaacgg aggcacctgc caggacagtt acgggacata caagtgcacc 3481 tgtccgcaag gatacactgg gctgaactgc cagaacctgg tgcgttggtg tgactcttct 3541 ccctgtaaaa atggaggaaa gtgctggcag acaaacaact tttatcgttg tgagtgcaag 3601 agtggctgga ctggtgttta ctgtgatgtc cccagtgtct cctgcgaggt tgctgctaag 3661 cagcaaggtg tggatatcgt tcatctgtgt cgcaattctg gcatgtgtgt ggacactgga 3721 aacacacatt tctgccgctg tcaggctggc tacacaggca gttactgcga ggaacaggtg 3781 gacgaatgct cgccgaatcc ttgtcagaac ggtgccacat gcacagacta cttaggtggc 3841 tactcttgcg agtgtgttgc cggctaccat ggagtaaact gctccgagga gatcaatgag 3901 tgtttgtccc acccgtgcca gaatggagga acctgtattg atctcattaa cacctacaaa 3961 tgctcctgcc ccagaggaac tcaaggtgtg cactgtgaaa ttaatgtgga tgattgcacg 4021 cccttctacg actccttcac cttggaaccc aaatgcttca acaatggcaa atgtatagac 4081 cgcgtgggtg gctataactg catctgccct ccaggctttg taggggaacg ctgtgaaggc 4141 gatgtgaacg agtgcctgtc taatccctgt gactcccgtg gcacccagaa ctgcattcaa 4201 ctggtgaatg attaccggtg tgagtgccgg cagggattca caggaaggcg ctgtgaatct 4261 gttgtggatg gttgtaaggg aatgccctgc cgaaacggtg gaacatgtgc tgtcgccagc 4321 aatacagaac gtggatttat ttgcaaatgc cctcctgggt ttgacggagc cacttgcgag 4381 tatgattcac gaacctgcag caaccttcgc tgccagaatg gcggcacttg catttcggtg 4441 ctgacgagtt ccaaatgcgt gtgctcggaa ggctatactg gcgccacatg tcagtaccct 4501 gttatcagtc cttgtgcttc ccacccttgt tacaatggag gaacctgcca gttctttgct 4561 gaggaacctt tcttccagtg cttctgtcca aaaaacttta acgggctctt ctgccatatc 4621 ttggattatg agtttcccgg gggactaggc aagaatatta ctcctcctga taatgacgat 4681 atctgcgaaa acgagcagtg ctctgagctg gctgacaaca aagtctgcaa cgccaactgc 4741 aacaaccatg cttgcggatg ggatggagga gactgctctc tcaacttcaa tgacccatgg 4801 aagaactgca cccagtcgct gcagtgctgg aaatatttca atgatggcaa atgcgattct 4861 cagtgcaaca acactgggtg tctgtacgac gggtttgact gccagaaagt tgaggttcag 4921 tgcaaccctt tgtatgacca gtactgcaag gatcactttc aagatggcca ctgcgaccaa 4981 ggctgtaaca atgcagagtg cgaatgggat ggcctggact gcgccaacat gccagagaac 5041 ctggctgaag gcaccctggt gttggtcgtc ctcatgcccc ctgaaaggct taagaacaac 5101 tctgtcaatt tcctccgtga gctgagccga gtgctccaca caaatgtggt gttcaagaaa 5161 gacagcaaag gcgaatacaa gatctaccct tactatggca atgaggaaga acttaaaaaa 5221 catcacatca agaggtcaac tgattactgg tcggatgctc cttctgccat cttcagcaca 5281 atgaaagaat ccattttact aggaaggcat cgtagggagt tggatgaaat ggaagttagg 5341 gggtcaatcg tatacttgga aatagacaac cgccagtgtt acaaatcctc ctctcagtgc 5401 ttcaacagtg ctacagatgt tgccgcattc cttggggctt tggcctccct tgggagtctg 5461 gacacccttt cctataagat tgaggcagtg aaaagtgaga acatggagac ccccaagccc 5521 tctactctct atcccatgtt atccatgttg gtcattccgt tattaatcat cttcgtcttc 5581 atgatggtca tcgttaataa gaagcgtcgc cgtgaacacg acagctttgg ttccccgacg 5641 gctttattcc aaaagaaccc agcaaaaaga aacggcgaga cgccttggga ggattctgtt 5701 ggcttaaagc ccattaagaa tatgacagat ggctctttta tggacgataa tcagaatgaa 5761 tggggagatg aggagaccct ggaaaacaag aggttcaggt ttgaagagca agtgattctc 5821 ccagaacttg ttgacgacaa aactgacccc cgacagtgga cacggcagca ccttgacgcc 5881 gctgatctgc gcatttcatc catggcccca acgccgccgc agggagagat tgaggccgac 5941 tgtatggatg tcaatgtccg tggccctgat ggcttcaccc cacttatgat tgcctcctgt 6001 agcggaggtg gattagagac tggaaacagc gaagaggaag aggatgcttc agctaatatg 6061 atttccgact tcattgggca gggtgcccaa ctgcataacc aaaccgaccg cactggcgag 6121 acagcacttc atctggccgc aagatacgca cgtgctgatg cagccaagcg cctgttggaa 6181 tcgagtgcgg acgccaacgt ccaggataac atgggcagga ctcctctcca tgcagcagtg 6241 gcggctgatg ctcagggcgt attccagatt ctcattcgga accgagcgac agacttagac 6301 gcccgcatgt ttgatggcac tacccctctg atcctggccg ctcggctggc cgtggaaggg 6361 atggtggagg agcttatcaa tgctcatgca gatgtcaacg ctgttgatga atttggaaaa 6421 tctgctttgc attgggcagc ggctgtgaat aacgttgatg ctgcagctgt gcttctcaag 6481 aatagtgcaa ataaggacat gcaaaacaac aaggaagaga catccctgtt cttggccgca 6541 agagaaggca gctacgaaac tgccaaagtc cttttggatc actacgccaa ccgtgacatc 6601 acagaccaca tggatcggct gcctcgtgac atcgcccaag aacgcatgca ccacgacatt 6661 gttcacctgc tggatgaata taaccttgtg aagagcccaa cgctgcacaa tggtccgttg 6721 ggagcaacga cattatcacc tcccatctgc tcccctaatg gttacatggg gaacatgaag 6781 ccttctgttc agagcaagaa agcccgcaag cccagtatca aaggtaatgg ctgcaaagag 6841 gccaaagagc tgaaagccag aaggaaaaaa tctcaagatg ggaaaacaac tctcttggat 6901 tctggcagtt ctggagtgtt gtccccagtg gactccctgg agtcaacaca tggatactta 6961 tcagatgtgt cttctcctcc gctgatgacc tctccgtttc agcagtctcc atccatgcct 7021 ctgaaccact tgacaagcat gccagagtcc cagcttggca tgaatcacat aaacatggcc 7081 accaagcagg aaatggcagc aggttccaac agaatggctt ttgatgccat ggtgccacgt 7141 ctgacccatc tcaatgcctc aagccctaat accatcatga gcaatggatc catgcatttc 7201 actgtgggag gagctccgac tatgaacagc caatgtgact ggttagctag gctgcagaat 7261 gggatggtcc agaatcagta tgacccaatc agaaatggca tccaacaagg caatgctcaa 7321 caagctcaag ctcttcagca tggccttatg acctcgctcc ataatggtct gccagcaaca 7381 actctctccc aaatgatgac ctatcaggcc atgcccaaca caaggctagc caatcagcca 7441 catctaatgc aagcccagca aatgcaacag cagcaaaact tgcagttgca ccagagcatg 7501 cagcaacaac atcacaattc cagcacgacc tctactcaca tcaactcacc attctgcagc 7561 agtgacataa gccagacgga cctgcagcaa atgtcaagca acaacattca ttcagtaatg 7621 ccccaggaca ctcagatatt tgctgcatct ctgccttcca atcttacgca gtctatgaca 7681 actgcacaat ttttaacccc cccttcccag catagctact cctccccaat ggacaataca 7741 ccaagccatc aactacaagt accagaccac ccgttcctga cgccttctcc tgagtcacct 7801 gaccagtggt caagctcctc ccctcattcc aatatgtctg actggtcaga aggaatatca 7861 agtcctccca cgagtatgca gcctcagcgc acccacatac ctgaagcttt caagtaaaaa 7921 aaaaaaaagt ttaaaaaaat gtaaaatatt tttaaagaca ctgagagaga ctttaagaga 7981 ctgaaggaaa tttttatatg gtttttatac ttaaaataac agaacatttg aattttctag 8041 tatttattta tatatacgtt tgacctaaaa cactgccctt ttatttataa gctttttttc 8101 atttttagga caaaatattt taacttcttg ccttgaaagt ttttcagttc taaatcttat 8161 gaaattggtt cctgcctggt attgaaaacg gcaatgtatt tattttttat ttacctgaat 8221 agtatacagg aacaaaccac tggggtgggg gggttatcgg gatgtgtatt tagcagaaaa 8281 aagattttct ataaaatgaa atctttcagg ttttcattta tagcactaaa aagattccag 8341 tattaatttt aaattaaatc atgaagaaga tgctccgaat acctctcgct gtcagggagg 8401 tgcccaatag gttttttttt tttgtttttt ttttggaaaa cctgaaactc ttggtaagta 8461 cagaaagaaa gcataaaata caggagggca cgcctaggtc tgatgcattc tcaatgggaa 8521 taaaatcctg aaaagtgact cattttaaaa aattatattt gttagaaaaa acaaactgcc 8581 attttgaatc ccttgtgtcg catggggtat tggtcagaaa atgcatgcaa tttttggtac 8641 aagcccgtgg catattttct acagtttttt tttttttttt tttttttttg taaatatcta 8701 tggtggattt tgtttcaaaa atctatttgt atatcctgat ttatattgct tatccgagta 8761 ggagtgcagg ctggatggaa ccatgccgaa gacaaatcgc agattggaca ttgtttttta 8821 tttttttgcc tacagagact atttgcacat gaacaacaac aaaaaaaaga agatatattt 8881 aaatataaaa ttttatacaa acgaaaaaac aaaaaacaaa aactgtcgat ttgcctctag 8941 ttccacttct tctgtgatac gatgcagttg ggcagttcat tccttatgcc gtactgtaca 9001 aagatctgta gaatttagtt gtttttcctg aacaaataaa tatgtaatgt atcgagcaga 9061 aatgtagttt acaaaaaaaa ctatttgttg ttgttgctgt taacacttct gtaaacaaat 9121 tttttttggt ttgtttattt gttgtaataa aattgtacaa aat // LOCUS CCRFTRCX 2202 bp ds-DNA BCT 30-JUN-1990 DEFINITION C.crescentus transcriptional protein (ftrC) gene, complete cds. ACCESSION M30946 KEYWORDS transcriptional protein. SOURCE C.crescentus (strain CB15) DNA. ORGANISM Caulobacter crescentus Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Budding and/or appendaged bacteria; Prosthecate bacteria. REFERENCE 1 (bases 1 to 2202) AUTHORS Van Way,S.M. and Mullin,D.A. JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by D.A.Mullin, 20-DEC-1989. Author address: D.A.Mullin Tulane University Dept. of Biology 2000 Perciual Stern Hall New Orleans, LA 70118 FEATURES from to/span description pept 340 1707 transcriptional protein (ftrC) BASE COUNT 383 a 741 c 750 g 328 t ORIGIN 1 gaattcggag gggccatgct ggcctccgag gctccgatcg aactcagcga caagaccgct 61 gcggacctgg cgccggtctt cgacgttccg gtcaacatct cggccgtgct gggccgcgcc 121 aacatgtccg tggcgcagct gctgcagctg ggccagggct cgatcctgga gctggaccgc 181 aaggtcggcg aggcgatcga catctacgtc aataaccgcc tggtcgcccg gggcgaggtc 241 gtcgtcgtcg acgagcgcct gggcgtgacc atgacggaaa tcatcaagga cggcgaccag 301 ggctgacgcc cggtggtcgt tcgagaggga gagtaagaga tgcggcttct ggtcgttgga 361 aaactgaacg ggcagctctc ggtcgccgtg aagatggcga tgaacgcggg cgcgaaggtc 421 tcgcacgtcg aaacgacgga gcaggcgacc aacgcgctgc gggcggggca gggcgctgac 481 cttctgatgg tcgactatgt gctcgacatc gccggtctga tcgccgccaa cgaagccgag 541 cggatgcggg tgccggtggt ggcctgcggc gtcgacgccg atccgatgcg cgcggccaac 601 gccatcaagg ccggggccaa ggagttcatc ccgctgccgc cggacgccga gctgatcgcc 661 gccgtcctgg ccgccgtcac cgacgacgaa aagccgatgg tcgtccgcga cccggccatg 721 gagcaggtca tcaagctggc cgaccaggtc gccccctccg aagcctcgat cctgatcacc 781 ggggagagcg gctcgggtaa ggaggtcatg gcccgctacg tccacggcaa gtcgcgccgg 841 gccaaggcgc cgttcatcag cgtcaactgc gccgccatcc ccgagaacct gctggaaagc 901 gagctgttcg gccacgagaa gggcgccttc accggggcca tggcccgccg catcggcaag 961 ttcgaggagg ccgacggcgg caccctgctg ctggacgaaa tcagcgaaat ggacgtgcgc 1021 ctgcaagcca agctgctgcg cgccatccag gagcgcgaga tcgaccgcgt gggcggctcc 1081 aagccggtca aggtcaatat ccgcatcctg gccaccagca accgcgacct ggcccaggcg 1141 gtgaaggacg ggacgttccg ggaagacctg ctctaccgtc tgaacgtcgt gaacctgcgc 1201 ctgccgccgc tgcgcgagcg tccggccgac gtgatcagcc tgtgcgagtt cttcgtgaag 1261 aagtactcgg ccgccaacgg catcgaggaa aagccgatct cggccgaggc caagcgccgc 1321 ctgatcgctc accgctggcc gggcaacgtc cgcgagctgg aaaacgccat gcaccgggcg 1381 gtgctgctgt cggcgggccc ggagatcgag gagttcgcca tccgtctgcc cgacggccag 1441 ccgatggccc cggcgccgga cgtcgcggtt gcccgcggcg cccagatggc cgccgacgcc 1501 gcctcgcgcg ccttcgtcgg ctcgaccgtc gccgaggtcg agcagcagct gatcatcgac 1561 accctggagc actgcctggg caaccgcacc catgcggcca acatcctggg catctcgatc 1621 cgcaccctgc gcaacaagct gaaggaatat tccgacgccg gcgtgcaggt gccgccgccc 1681 cagggcgggg tcggcgcggc cgcttaagac cagggcgtcg aggtggcggg accgaaaacc 1741 tcgcccttcg acaagctcag ggtgaggttt tctatgcctg gcccggcgct tcattcgtcc 1801 tcaccctgag cctgtcgaag ggcgaggacg acgcaaagct ccgggccgat ctggccgccg 1861 ccgcgaccat cggtccggcg ccgcgccgcg aaaaatttgg ttaacaagat ggcggcgggc 1921 cgcaaatcgc tccaagcgaa agcctagctt cccatccccg gttcaaggtt ccgaatggcc 1981 gacgccgccg ccccgaacgc cagctcgatg cccagcgcca agtcgctgct cgacgggttg 2041 atgcgcggcg agatgggcct ggccctgggc gtggtcggca tcatcgtgct gctgatcatc 2101 ccggttccgg cgccgctgct ggacgtgctg ctggccattt cgctgacggg atcggtgctg 2161 atcctgatga cggcgattct gatcaagaag ccgctggaat tc // LOCUS TRCTC26 638 bp ss-mRNA INV 30-JUN-1990 DEFINITION T.cruzi AMP-inducible protein (TC26) mRNA, partial cds. ACCESSION M34062 KEYWORDS AMP-inducible protein. SOURCE T.cruzi (strain X10/4) trypomastigote, cDNA to mRNA, clone G26. ORGANISM Trypanosoma cruzi Eukaryota; Animalia; Protozoa; Sarcomastigophora; Mastigophora; Kinetoplastida; Trypanosomatina; Trypanosomatidae. REFERENCE 1 (bases 1 to 638) AUTHORS Heath,S., Hieny,S. and Sher,A. TITLE A cyclic AMP inducible gene expressed during the development of infective stages of Trypanosoma cruzi JOURNAL Mol. Biochem. Parasitol. (1990) In press STANDARD full staff_review COMMENT Draft entry and computer-readable [or printed] sequence for [1] kindly submitted by S.Heath, 08-MAY-1990. FEATURES from to/span description pept < 1 > 638 AMP-inducible protein (TC26) (AA at 1) BASE COUNT 154 a 174 c 168 g 142 t ORIGIN 1 accccaccag accaactggt aatggtagcg accggcgctc agcttggaat tccgtgcgct 61 gcttctagcc ctagagaagc tgatgatccc ccgtatccga cacaggcgta caaccctgct 121 tgtggttacg gacagtcagt ctcttctagc ggctctaaac aagggcccgc tcaatcagac 181 agactggacg gaggatcaga tctggcggcg tctcttgaca ctgacgtgtg ctggctggtc 241 gtgcacctgc agttttgtta cggacattgt ggagtacatg ctaacgagct tgcagatcag 301 tatgcgagga actatggaaa gtggacaata cacggagcaa ggaatcgcac ctttatggca 361 tacggatctg ctgacgtgtt ttactaccca gctcaccaac aagtggcgta ctaccattcg 421 tcaagacact catcgctacc tgctttgcgg cacaaggcca tcagatctcg cggtaaggac 481 ctgatcactc aggaagttct acaccgtcag aactggttca cctcgcaagg gcaaggtgcg 541 gggaatctga gctctggggc cgactatctg ggccgtgaga gattgcacga accaatgccg 601 tttctgcaac atctcaccgg aacagtctgc atatatat // LOCUS HUMSATM29A 700 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human minisatellite MS29 locus 1 polymorphism. ACCESSION M28875 KEYWORDS minisatellite. SOURCE Human DNA. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 700) AUTHORS Wong,Z., Royle,N.J. and Jeffreys,A.J. TITLE A novel human DNA polymorphism resulting from transfer of DNA from chromosome 6 to chromosome 16 JOURNAL Genomics 7, 222-234 (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by A.J.Jeffreys, 04-OCT-1989. BASE COUNT 156 a 188 c 212 g 144 t ORIGIN Chromosome 6p25-pter. 1 ggacagccag agtgcccaca agctcggcag gaaggaggct cacatcgccg cggaagtctc 61 gtgatggttc tggtagaatc gtcctcttga aaccttctgc tgccattatt gggtgctgtc 121 caatatgcct tacgcaaaac actgacaata gcatacacct ttccagaatg ccggcacgcg 181 ctgtgcaatg cccaaactgt ccctgtgagt tgaatgcccc tggcaggatg cgtgtccact 241 cccgcagggc cgtgggtgcc tcccttgtct cactcctctg cttcaaccct tcccagaact 301 ctgaaggttt gagatgaaat gactgagcca cacctagtgc aggaatgagc accagggcct 361 ctctgcaacg gctgcttaag ggccacagga taagcatagt gtggcgcccc cagttattcc 421 ctgtttcact cattggacca ccctgatagg cttcagggag gcaggaacct cctctaaggc 481 agcaggagag gggtggatgg ggcagccaac aggtgcatct catgcctccg tgttctccat 541 agggagggag gtgggctaag aggcgagtgg ggcagaggcc tgggccagcg tgaagtgtca 601 ggagtaaggg gggagaagac tggagggggc aaatccagga ggcagctgag gctcgactgt 661 gcaaatacaa gcccggttac gtctgtgtag cttagcttcc // LOCUS HUMSATM29B 700 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human minisatellite MS29 locus 2 polymorphism. ACCESSION M28876 KEYWORDS minisatellite. SOURCE Human DNA. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 700) AUTHORS Wong,Z., Royle,N.J. and Jeffreys,A.J. TITLE A novel human DNA polymorphism resulting from transfer of DNA from chromosome 6 to chromosome 16 JOURNAL Genomics 7, 222-234 (1990) STANDARD full staff_entry COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by A.J.Jeffreys, 04-OCT-1989. BASE COUNT 182 a 189 c 146 g 183 t ORIGIN Chromosome 16p11. 1 ggacagccag agtgcccaca agctcggcag gaaggaggct cacatcgccg cggaagtctc 61 gtgatggttc tggtagaatc gtcctcttga aaccttctgc tgccattatt gggtgctgtc 121 caatatgcct tacgcaaaac actgacaata gcatacacct ttccagaatg ccggcacgcg 181 ctgtgcaatg cccaaactgt ccctgtgagt tgaatgcccc tggcaggatg cgtgtccact 241 cccgcagggc cgtgggtgcc tcccttgtct cactcctctg cttcaaccct tcccagaact 301 ctgaaggttt gagatgaaat gactgagcca gtgagtgaaa agaccagcca agaatgtgaa 361 aaacctcatc tggacacaag gcaaaataat tattttctcc cttggttacc ttttccattc 421 cctttcttca agggaaagaa ccatgtctta ttttacttgg catcagcagc tctcagaaca 481 gtggcttgac caataccaag cattcaataa atgtttattg aaggaatgaa tcaatggcca 541 cccacaacct atacctctta cagcccattt aatgtccttt agccccttcc ataggtattt 601 gcctggaatg tttgtaagat ttttgaaaat ctcagaaaca acaccagccc tccacccatg 661 ggaagatgtg tctcaggcta acacctgtgc tcttgttgat // LOCUS HUMSATOD 1900 bp ds-DNA PRI 30-JUN-1990 DEFINITION Human O family dispersed repeat element. ACCESSION M28877 KEYWORDS repetitive element. SOURCE Human DNA. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 1900) AUTHORS Wong,Z., Royle,N.J. and Jeffreys,A.J. TITLE A novel human DNA polymorphism resulting from transfer of DNA from chromosome 6 to chromosome 16 JOURNAL Genomics 7, 222-234 (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by A.J.Jeffreys, 04-OCT-1989. FEATURES from to/span description rpt 410 785 O family dispersed repeat BASE COUNT 484 a 501 c 344 g 567 t 4 others ORIGIN 1 gccacctctg tctaatgttc tcatatagct ccaactctaa cacctcctta cattctacca 61 tctgtgtctt agactgcagc aagccctgta actggctctc ggtctccagg cttctcccga 121 cctagacttg cttacattgc tgtacaagtg aggtttttaa cattctcagt cttgtcactc 181 actgcttaaa ctccttcaag aattttcact cccttcaggc caagggctat atgaagccct 241 tcagatgtgg cccttgcttg tgtctccagc cccatctctc agcagtgctc ttaacactcc 301 caaccatcat gagctaatta ctatccttcc aacatgccat gctccttcac acccctcttg 361 ctttgaacac gctgactctt ctgcctgaaa tgtctttccc agttcccttc tgatatggtt 421 tggctgtgtc cccacccaaa tctcatcttg aattgtagtt cccataatcc ccacatgttg 481 tgggagggac ctggtaggag gtaattgagt catgggggtg attaccctca tgctgccatt 541 ctcatggtag tgaacgtgag ttctcacaag atcttatggt tttataaggg gcttctctcc 601 ctttgctcag cacttcacct tgctgccacc atgtgaagga cacgttttct tccccttcca 661 ccatgattgt aagtttcctg aggcctcctc agccatgctg aactgtgagt caattaactt 721 ctttccttta taaattaccc agtctcgggt atgtatttat tagcagtgtg agaatggact 781 aatacacccc cttcactcac ttttcagtct tcaaagtaca cagccatcct ttactgcccc 841 atgcagcacc ttcaggtctt gagctctatg cagggaggta agccacggaa gtcacaagca 901 catcttttat actagtgcac acaactgaaa actcacagac tggtaaaagc acatctttta 961 tactagtgca cacggctgaa aactcacaga ctggtaccaa accagcttgg ttctgttctg 1021 cttccactgc ctgtcaagac tgtgtgctct gggcaaggta cttcaaccac tgggtcttgg 1081 cttcctcatc tggaaaatga aaataaaact gcaactttaa aaagcttttc tgaaatcaaa 1141 tgcagcaatg tacataaaag gcaaataagc tcaccctatg ttttacctaa ttttcttttt 1201 atcctgctct gtgtatttct taagccaacc atcttacttc ctttttagaa tgcatcagga 1261 tagacacaaa taaatggaaa cactgttaca aagcccctgc tcacacttca gaattcagat 1321 tgcattacct cctccaggaa gtcttcctta atcactctct gctcgagtct catttagatg 1381 atctcctgtg tgcttgcata tcgtctgtgc atacctctgt gttgggagga gtggtaagag 1441 atggggctgg agactcaaga aaaggccaca tcggaagggc ctcgatcctt tcccctgaag 1501 ggagtaaagg ctctccaaag agtttaagca gtgagtgaaa agaccagcca agaatgtgaa 1561 aaacctcatc tggacacaag gcaaaataat tattttctcc cttggttacc ttttccattc 1621 cctttcttca agggaaagaa ccatgtctta ttttacttgg catcagcagc tctcagaaca 1681 gtggcttgnn nnataccaag cattcaataa atgtttattg aaggaatgaa tcaatggcca 1741 cccacaacct atacctctta cagcccattt aatgtccttt agccccttcc ataggtattt 1801 gcctggaatg tttgtaagat ttttgaaaat ctcagaaaca acaccagccc tccacccatg 1861 ggaagatgtg tctcaggcta acacctgtgc tcttgttgat // LOCUS BSURFOLA 4880 bp ds-DNA BCT 30-JUN-1990 DEFINITION B.subtilis folic acid biosynthetic operon encoding para-aminobenzoic acid synthase, component I (pab), glutamine amidotransferase (trpG), pot. p-aminobenzoate synthesis enzyme (pabC), and pot. dihydropteroate synthase (sul) genes, complete cds. ACCESSION M34053 KEYWORDS H2-pteridine-CH2OH pyrophosphokinase; dihydropteroate synthase; glutamine amidotransferase; para-aminobenzoic acid synthase. SOURCE B.subtilis (strain VB157) vegetative cell DNA, clones pJS[1,2]. ORGANISM Bacillus subtilis Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1 to 4880) AUTHORS Slock,J., Stahly,D.P., Han,C.-y. and Crawford,I.P. TITLE An apparent folic acid biosynthetic operon of Bacillus subtilis containing pab, an amphibolic trpG, a third gene required for synthesis of para-aminobenzoic acid, and the dihydropteroate synthase gene JOURNAL Unpublished (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by D.P.Stahly, 07-MAY-1990. Author address: D.P.Stahly University of Iowa Dept. of Microbiology Iowa City, IA 52242 e-mail: cmdsix@vaxa.weeg.uiowa.edu FEATURES from to/span description pept 313 1725 para-aminobenzoic acid synthase, component I (pab) pept 1739 2323 glutamine amidotransferase (trpG) pept 2323 3204 pot. p-aminobenzoate synthesis enzyme (pabC) pept 3186 4043 pot. dihydropteroate synthase (sul) (EC 2.5.1.15) pept 4036 4398 ORF2 binding 300 303 ribosome binding site binding 1724 1730 ribosome binding site binding 2306 2313 ribosome binding site binding 3175 3179 ribosome binding site binding 4023 4027 ribosome binding site binding 4381 4385 ribosome binding site binding 1720 1728 methyltryptophan resistance protein binding site BASE COUNT 1512 a 939 c 1205 g 1224 t ORIGIN 1 gaattctcgg aggcatctca tcaggtgcgg caatttatgc tgctcttcaa gtagcaaaaa 61 aactcggaaa aggcaaaaaa gtattggcca tcattccaag taacggcgaa cgttatctaa 121 gcacgccgct gtaccaattc gattaaaaaa agccaaaact cccggttcgc cgggagtttt 181 tttatatttc gtgcatcaaa tatgccatgt ctgcgacgaa tgttattctt ggaagagaaa 241 ttcacttttt tcactaacaa cattgcttta caattaaaaa caagtaaaaa agaaaataga 301 ggaatgatac aaatggcaca acgcagaccg gcaggcaaaa aaataccttt tcaaaaagac 361 tcattcttac aacaatttga gaaacttgcg caatcccgga aacatcatgt acttctcgaa 421 agtgcaagag gcggcagata tagtatagcc ggtcttgatc caattgcgac tgtgaaagga 481 aaagacggaa taactacaat taagcatggt gatgagatgc tgtttaaaga aggtgatcca 541 ttacgggcct tccacagctg gtttaaaaca ctggaaacag aaacgaatca tgagttccct 601 gactttcaag gcggggcaat cgggtttctc agctatgatt acgcacggta cattgaaaat 661 tttaaaatgc tctcattaga tgatttagaa acaccagata tttattttct tgtttttgat 721 gatatagcag tttatgacca tcaagaagag tctctatggc tgattactca tgttaatggt 781 tctgatcagg aaacagcgga tgtgaagcta tctgagttag agcagatgtg gttgactgag 841 cttcccgctg tcacttcgcg agagatgaag cctgaaacag ctggttcttt cgcggcgcca 901 tttaccgagg atgggttctc acaagctgta gagaaaatca aacaatacat tgccagcgga 961 gatgtgtttc aagtcaatct atcaataagg cagtcacagt cactgtctgt ccacccatat 1021 caaatttaca aaaccttgag agaagtaaat ccttctcctt atatggcgta tttagaaaca 1081 cctgatttcc aaatcatttg cggatcgcct gaactgcttg tcagcaaaaa gggcaagcta 1141 ttagagacga gaccgattgc gggcacccgt tccagaggga aaacaaatga agaagacgag 1201 gcgcttgcaa acgaattgat acacaatgaa aaagaacgcg cggaacatgt catgctggtt 1261 gatcttgagc gaaatgatct gggaagagta tcacgttacg ggtctgtgcg cgtaaatgaa 1321 ttcatggcaa ttgaaaaata ctcgcatgtg atgcacattg tgtctaatgt ccaaggtgaa 1381 ctgcaggatg ggtatgatgc tgtagatatt attcatgctg tgtttcccgg aggaaccatt 1441 actggtgcac cgaaagtaag aacgatggaa attatagaag aacttgagcc gacacgccga 1501 gggctttata ctggatctat aggatggttt ggatataatc acgatctgca gtttaatatc 1561 gtcattcgaa ccatttatgc aaccggaggg caggcattta tgcagtccgg tgcaggagtt 1621 gtgattgatt ctgttccgaa gcacgaatac aaggaatcat tcaaaaaagc ttttgcgatg 1681 caaagagcat tagagctgag cgaagaagag acaaaaatta gatgaggtga gcggagaaat 1741 gattttaatg attgataact acgattcatt cacgtacaac ttggtacagt atttgggcga 1801 gcttggggaa gagctggttg tgaaacgcaa tgacagcatc acaatcgatg aaattgaaga 1861 actgtctccg gactttctga tgatatctcc cggaccgtgc agccctgatg aggcgggaat 1921 cagcctcgaa gcaattaaac atttcgcagg gaaaattcct attttcggtg tatgtctcgg 1981 acatcagtcc atcgcacaag tgttcggtgg tgatgttgtt agggcagaac ggcttatgca 2041 cgggaaaacc tcggatatcg agcatgacgg caaaaccatt tttgaagggt tgaaaaatcc 2101 ccttgttgcg acgcgatacc actcgctgat cgtaaaacct gagacgctgc caagctgttt 2161 tacagtaaca gcacaaacga aagaaggaga aatcatggct attcgccaca atgacctccc 2221 gatagagggt gtgcaatttc acccagagtc tattatgacc tcctttggga aagaaatgct 2281 cagaaatttt attgagacat atcgcaagga agttattgcg tgatgatata tgtgaacggc 2341 cggtatatgg aggagaaaga tgcagttctt tctccttttg accatgggtt tttatatggg 2401 atcggtgttt tcgaaacctt caggctctac gaaggctgcc cgtttttgct tgattggcat 2461 atagagaggc ttgaacgcgc gcttaaggat ctgcaaatcg aatatactgt ttcaaagcat 2521 gagatccttg agatgctgga caagctgctt aagctaaatg atatcaagga tggcaatgcc 2581 cgcgtcagac tgaacatatc agcgggaatc agcgataaag gctttgtcgc ccagacgtac 2641 gataagccca ccgttttatg ctttgtgaat cagctgaaac cagaaagtct tcctttgcaa 2701 aaagaaggaa aggttttatc gatacggaga aacactccag agggatcgtt ccggttaaaa 2761 tctcatcatt atctaaataa tatgtatgcg aaacgggaaa ttggaaatga tccgcgtgtc 2821 gagggaattt tcttaacgga ggatggagct gttgcagagg gtatcatatc taatgtcttc 2881 tggagaaaag gtcgctgtat ctatacgcca tcgcttgata ccggtattct ggacggcgtc 2941 acgagacgtt ttatcataga aaatgcaaag gatatcggcc tggagctcaa aacgggccga 3001 tatgagctag aagctctctt gacagctgac gaagcgtgga tgacgaactc ggttcttgaa 3061 atcatcccgt ttactaaaat agaagaagta aactatggaa gccaaagcgg agaagcaacc 3121 tccgctcttc aattgttata caaaaaagaa ataaagaaca tgattcatga aaagggagga 3181 agagcatggc gcagcacaca atagatcaaa cacaagtaat ccacactaag cccagcgctt 3241 tatcatataa agagaagacg ctggtgatgg gaattttaaa cgtaacgcct gactctttct 3301 cggacggcgg aaaatatgac agcttggaca aggcgctgct gcacgcgaaa gagatgatcg 3361 atgatggtgc ccatatcatt gatattggag gggaatcgac aaggcctggc gctgagtgcg 3421 tatctgagga tgaggagatg tccagagtca ttccggtgat tgagcggatt acgaaagagc 3481 ttggtgttcc tatttctgta gacacgtaca aggcttctgt cgcagatgaa gcagtgaaag 3541 ccggtgcatc cattatcaat gatatttggg gagccaaaca tgatccgaag atggcttccg 3601 ttgcagctga acataatgtt ccaattgtac tcatgcataa ccgccctgaa agaaactaca 3661 atgacttatt gccggatatg ctgtcggact taatggagag tgtaaaaatt gctgttgagg 3721 ccggagtaga cgagaagaac attattcttg atcctggtat cggtttcccg aaaacctatc 3781 acgataactt ggcagtgatg aacaaactag agattttcag cggattggga tatccggttc 3841 ttctggcaac ctcccgaaaa agattcatcg gacgtgttct ggatcttccg cctgaggagc 3901 gggctgaggg cacaggcgcg actgtgtgtc tcggcattca aaaaggctgt gacattgtca 3961 gggtccatga tgtaaagcaa attgccagaa tggcgaaaat gatggacgcg atgctgaata 4021 agggaggggt gcaccatgga taaagtttat gtagaaggta tggagtttta cggatatcac 4081 ggtgtgttca cagaagaaaa caaacttggc cagcggttta aagtcgattt aaccgctgag 4141 ctggatttaa gcaaagctgg acagacagac gaccttgagc aaacgatcaa ctatgctgag 4201 ctctatcacg tatgtaaaga tatcgtggaa ggggagcctg tgaaattggt ggaaacgctg 4261 gcggaacgta ttgctggcac tgttctcgga aaatttcagc ctgttcagca atgtacggtg 4321 aaagtgatta agccagaccc gccaattccc ggacactata aatcagtagc aattgaaatt 4381 acgagaaaaa agtcatgaac aacatagctt atattgcact tggatctaat attggagata 4441 gagaaacgta tttaaggcaa gcagtggctt tactgcatca gcatgctgcg gtgacagtca 4501 ctaaagtgtc gtctatttac gaaactgacc cggtcggata cgaagatcaa gctcaatttt 4561 tgaatatggc tgttgaaatc aagacatcat tgaacccttt tgaactcctt gaactgacgc 4621 agcagataga aaatgaatta ggcagaacaa gggaagtaag atggggaccg cggacggcag 4681 accttgacat tttgttattt aatcgtgaaa atattgaaac agagcaacta attgttccgc 4741 atccgagaat gtatgagcgt ttgtttgtcc ttgcgccgct tgcggaaatt tgccagcagg 4801 ttgaaaaaga ggctacaagc gccgaaacag accaagaagg tgtaagagta tggaagcaga 4861 aatctggggt agacgaattc //