Path: utzoo!attcan!uunet!decwrl!claris!ames!bionet!root From: GenBank-Updates@genbank.bio.net Newsgroups: bionet.molbio.genbank.updates Subject: Database Update Message-ID: Date: 8 Jun 90 12:00:09 GMT Sender: root@genbank.BIO.NET Distribution: bionet Lines: 1545 Approved: lear@genbank.bio.net Checksum: 00712 100 LOCUS BSUHEMAC 3795 bp ds-DNA BCT 08-JUN-1990 DEFINITION B.subtilis 5-aminolevulinate synthase (hemA) and porphobilinogen deaminase (hemC) genes, complete cds. ACCESSION M32130 KEYWORDS 5-aminolevulinate synthase; porphobilinogen deaminase. SOURCE B.subtilis (strain 168) DNA. ORGANISM Bacillus subtilis Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1 to 3795) AUTHORS Petricek,M., Rutberg,L., Schroeder,I. and Hederstedt,L. TITLE Cloning and characterization of the hemA region of the Bacillus subtilis chromosome JOURNAL J. Bacteriol. 172, 2250-2258 (1990) STANDARD full staff_entry COMMENT Draft entry and computer-readable sequence [1] kindly submitted by I.C.Schroeder, 16-FEB-1990. FEATURES from to/span description pept 232 1599 5-aminolevulinate synthase (hemA, EC 2.3.1.37) pept 1607 2437 unidentified protein (ORF2) pept 2470 3414 porphobilinogen deaminase (hemC, EC 4.3.1.8) pept 3404 > 3795 unidentified protein (ORF4) BASE COUNT 1068 a 689 c 953 g 1085 t ORIGIN Map position 245 degrees. 1 atgcatatca ccttcttgtt ttttagagct gatgtgtagt aaatttctgc tgtttttggt 61 attgtcaata ggaatgcttc ttttccctga agctttttct aatatagcat aagaatttta 121 aaatctgttc acattttgtg aaagaaacta tgttataatt attataaata atgagttcta 181 tgttagaatg attataaatt aagattgggt gttgggggtg taattagagc gatgcatata 241 cttgttgtgg gagtagatta taaatccgcc cctattgaga tacgtgaaaa agtaagtttt 301 cagccgaatg agctggcaga agcaatggtg cagctgaaag aagagaaaag cattcttgaa 361 aacatcattg tctcaacctg caaccgcact gaaatttatg cggtagtcga ccagcttcat 421 accggccgtt attatataaa aaagttttta gctgattggt ttcaattaag caaagaagag 481 ctgtcaccgt tcttaacgtt ttatgagagc gatgccgctg ttgagcattt attccgtgta 541 gcctgcggac ttgattctat ggtgattggc gaaacgcaga ttctcggaca ggtacgcgac 601 agctttaaaa cagctcagca agaaaaaacg atcgggacta tttttaatga gctgtttaag 661 caggcagtta cagtgggcaa acggactcac gccgaaacag acattggctc aaatgcggtg 721 tcagtaagct atgctgcagt tgaacttgcc aaaaaaatct tcggaaatct ttcaagcaag 781 cacatattga ttctcggtgc gggaaaaatg ggcgagcttg ctgcggaaaa cctgcacgga 841 cagggaatcg gcaaggtcac tgtcattaac cgaacatact tgaaagcgaa ggagcttgca 901 gaccgttttt caggtgaagc gagaagcttg aatcagcttg aaagcgcgct tgcggaggct 961 gatattttaa tcagttcaac cggtgcaagt gaatttgtcg tgtccaaaga gatgatggaa 1021 aacgcgaata agcttcgcaa gggacgtccg ctgtttatgg tcgacattgc cgtgcctaga 1081 gatcttgatc cggcgctgaa tgatcttgaa ggtgtttttc tttatgatat cgacgatctg 1141 gaaggcattg tagaagcgaa catgaaagag cggagagaaa cagctgaaaa agttgaactg 1201 ttaattgaag aaaccattgt ggaatttaaa caatggatga atacacttgg tgttgtgcct 1261 gttatttctg cattgcgcga aaaggcgctt gccatccagt cagaaacgat ggacagcatt 1321 gagcgtaagc tgcctcactt aagcacaaga gagaaaaaac tgttgaacaa acacaccaaa 1381 agtattatta accaaatgct tcgtgatccg attttaaagg tgaaagagct tgcggcagat 1441 gctgattctg aagaaaagct cgcgttgttt atgcagattt ttgatattga agaagctgcg 1501 ggccgtcaaa tgatgaaaac cgttgaaagc agccagaagg tccactcttt taagaaggct 1561 gaatcaaaag cgggctttag cccacttgta agtgagtgaa agctgaatga ttgatactgc 1621 aatggcaaga cttaatgagg ggacaatcgt catttacgcg ttaagtgtac tcttttattt 1681 tatagatttt cttcaacaca accggaaggc tggaaaaatg gccttctggt tgctttctat 1741 tgtctggact ctgcaaaccg tgtatttggc ctattttatg tgggtgacgg ggcggtttcc 1801 ggtattaaat gtgacagagg cactttattt ttatgcctgg gtgcttgtca cgctgtcact 1861 tgtactgaca aagcttttac gtgttgactt tatcgtgttt tttacaaatg ttataggatt 1921 ttctatgatc gccattcaca cattttcacc gacagagcag cagtcagctg ctttttccgg 1981 gcagcttgta tccgagcttt tggtgattca tattacaatg gcgattcttt catacggcgc 2041 tttttccctt tctttcgttt tttctgtgct atatatgttt caatatcatg tgctgaaaaa 2101 gaaaaagtgg ggaaaatggc tgttgagaat agaagattta tctaagcttg attatatggc 2161 gtatgtttta aatgtcattg gggttccgat gctgctgctg agtttgattc tcggcgtcat 2221 ttgggcgtat gtctcactag aaacgctgta ttggtttgac gccaaagtgc ttggttcgtt 2281 tgtcgtcctg ctgctgtaca gctattatct ttatatcagg ctgattaagg agctgcaagg 2341 aaaggtcgct gcactgtgga atacggcttg ttttctggtg ctgatgatca attatttcct 2401 gcttggaagc ctgtcgcaat tccattggtt cagttaaacg atgtcccaag cagattcggg 2461 aggaaagaaa tgatgagaac gattaaagta ggttccagac ggagcaaact cgctatgact 2521 caaacaaaat gggttattca aaaactgaag gaaatcaatc cttcgtttgc ttttgaaatt 2581 aaagagatcg tgacaaaggg cgaccggatt gtcgatgtta cactctcaaa agtgggtgga 2641 aaagggcttt ttgtcaaaga aattgaacag gcgcttttaa acgaagagat tgatatggca 2701 gtgcacagca tgaaggacat gcctgctgtt ttgcctgaag gccttgtgat cggctgtatt 2761 cctgaacggg aggacccgcg tgatgccctt atttcaaaga atcgcgtaaa gctttcagaa 2821 atgaagaaag gtgctgtcat tggcacaagc agtttaagaa gaagcgcgca gcttttgatt 2881 gagcgccctg accttacaat taaatggatt agaggtaata ttgatacaag acttcaaaag 2941 ctggaaacag aggattatga cgcaattatt ttagcggctg ccggcctttc cagaatgggt 3001 tggaagcaag atgtcgtaac cgaattcctt gagcctgagc gctgtttgcc tgctgtgggg 3061 cagggagccc tggcgattga gtgccgagaa tcggatgaag agctgttggc gttgttttct 3121 cagtttacag atgaatatac aaaacggact gtcttagcgg aacgtgcttt tttaaacgcg 3181 atggagggcg gctgccaggt tccgatcgcg ggctactccg tgttaaatgg acaggatgaa 3241 attgaaatga caggtcttgt cgcttcacct gacggcaaaa tcatttttaa agaaaccgtc 3301 accggaaacg atccggagga agtaggaaag cgctgtgccg ctcttatggc tgacaaagga 3361 gcaaaagatt taattgatcg tgtaaaacgg gagcttgacg aggatggaaa atgattttcc 3421 gttgaaagga aaaacagtgc ttgtcacccg gaataaggca caggcagcat catttcagca 3481 aaaagtggag gcgcttggcg gtaaagcggt tttaacctct ttgattacgt ttcgccgcgc 3541 tttgccgaat gatgttgcgg aacaggtaag agaggatctt gccgcgccag gctggcttgt 3601 ttttacaagt gtgaacgggg cagacttctt tttttcttat ctgaaggaaa atcagcttat 3661 tctccctgcg cataaaaaaa ttgcagccgt cggtgaaaaa accgcgcgcc gtttaaaaat 3721 gcataacgta tcggttgatg tgatgccaca ggagtatatt gctgaacaat tgcgtgacgc 3781 tcttaagcag catgc // LOCUS SHFIPAH 2900 bp ds-DNA BCT 08-JUN-1990 DEFINITION S.flexner invasion plasmid antigen H (ipaH) gene, complete cds. ACCESSION M32063 KEYWORDS invasion plasmid antigen. SOURCE S.flexner (strain M90T-W; serotype 5) DNA, clone pWR390. ORGANISM Shigella flexneri Prokaryota; Bacteria; Gracilicutes; Scotobacteria; Facultatively anaerobic rods; Enterobacteriaceae. REFERENCE 1 (bases 1 to 2900) AUTHORS Hartman,A.B., Venkatesan,M., Oaks,E.V. and Buysse,J.M. TITLE Sequence and molecular characterization of a multicopy invasion plasmid antigen gene, ipaH, of Shigella flexneri JOURNAL J. Bacteriol. 172, 1905-1915 (1990) STANDARD full staff_entry COMMENT Draft entry and computer-readable sequence [1] kindly submitted by A.B.Hartman, 12-FEB-1990. FEATURES from to/span description pept 251 1849 invasion plasmid antigen H pept 2277 > 2900 ORF3 signal 139 144 -35 region signal 162 167 -10 region signal 2111 2116 -35 region signal 2132 2137 -10 region BASE COUNT 868 a 657 c 578 g 797 t ORIGIN 1 catagaaaac ctccataaat aaattacaac taacttctgt tatgtgtaaa atggaaacta 61 ttaaaactta atatcggaaa tggtaagtga aatttgtata aatatacaat tttaaatatt 121 tattctcaca aatataaggt tgacctagca ttatgttctc tgtaaataat acacactcat 181 cagtttcttg ctccccctct attaactcaa actcaaccag taatgaacat tatctgagaa 241 tcctgactga atgggaaaag aactcttctc ccgggaagag cgaggcattg cttttaacag 301 actctcccag tgctttcaga atcaagaagc agtattaaat ttatcagacc taaatttgac 361 gtctcttccc gaattaccaa agcatatttc tgctttgatt gtagaaaata ataaattaac 421 atcattgcca aagctgcctg catttcttaa agaacttaat gctgataata acaggctttc 481 tgtgatacca gaacttcctg agtcattaac aactttaagt gttcgttcta atcaactgga 541 aaaccttcct gttttgccaa accatttaac atcattattt gttgaaaata acaggctata 601 taacttaccg gctcttcccg aaaaattgaa atttttacat gtttattata acaggctgac 661 aacattaccc gacttaccgg ataaactgga aattctctgt gctcagcgca ataatctggt 721 tacttttcct caattttctg atagaaacaa tatcagacaa aaggaatatt attttcattt 781 taatcagata accactcttc cggagagttt ttcacaatta gattcaagtt acaggattaa 841 tatttcaggg aatccattgt cgactcgcgt tctgcaatcc ctgcaaagat taacctcttc 901 gccggactac cacggcccgc agatttactt ctccatgagt gacggacaac agaatacact 961 ccatcgcccc ctggctgatg ccgtgacagc atggttcccg gaaaacaaac aatctgatgt 1021 atcacagata tggcatgctt ttgaacatga agagcatgcc aacacctttt ccgcgttcct 1081 tgaccgcctt tccgataccg tctctgcacg caatacctcc ggattccgtg aacaggtcgc 1141 tgcatggctg gaaaaactca gtgcctctgc ggagcttcga cagcagtctt tcgctgttgc 1201 tgctgatgcc actgagagct gtgaggaccg tgtcgcgctc acatggaaca atctccggaa 1261 aaccctcctg gtccatcagg catcagaagg ccttttcgat aatgataccg gcgctctgct 1321 ctccctgggc agggaaatgt tccgcctcga aattctggag gacattgccc gggataaagt 1381 cagaactctc cattttgtgg atgagataga agtctacctg gccttccaga ccatgctcgc 1441 agagaaactt cagctctcca ctgccgtgaa ggaaatgcgt ttctatggcg tgtcgggagt 1501 gacagcaaat gacctccgca ctgccgaagc tatggtcaga agccgtgaag agaatgaatt 1561 tacggactgg ttctccctct ggggaccatg gcatgctgta ctgaagcgta cggaagctga 1621 ccgctgggcg caggcagaag agcagaagta tgagatgctg gagaatgagt actctcagag 1681 ggtggctgac cggctgaaag catcaggtct gagcggtgat gcggatgcgc agagggaagc 1741 cggtgcacag gtgatgcgtg agactgaaca gcagatttac cgtcagctga ctgacgaggt 1801 actggccctg cgattgtctg aaaacggctc acgactgcac cattcataat cacgtcgcat 1861 aagcataaac cgcagaccgg attgactccg gaaaaactgt gacccgatta cggaccttaa 1921 caacaacccg taaatcctcg ctcaataccg gcagggattt acggcgtgca actgactttt 1981 ttgaggggat aaccaaccag atcgtttgct atgggaatat cgagacagta atgagttaaa 2041 tgataaaaat tgtttgaaaa tataggggat aaagatcaat ccaaactgga tgaaagtaga 2101 actggtcaca ttaacatggg tagactgata taacaatcga cggttactgg aaagacagga 2161 acatattcct ccagccggaa tgaaaacgcc gataaagctc taggattgtt tttttaaaga 2221 ctttctcgtt ttatttgcat taatagacca agatatgaat agtgaggggt taataaatga 2281 aaccgatcaa caatcattct ttttttcgtt ccctttgtgg cttatcatgt atatctcgtt 2341 tatcggtaga agaacagtgt accagagatt accaccgcat ctgggatgac tgggctaggg 2401 aaggaacaac aacagaaaat cgcatccagg cggttcgatt attgaaaata tgtctggata 2461 cccgggagcc tgttctcaat ttaagcttac tgaaactacg ttctttacca ccactccctt 2521 tgcatatacg tgaacttaat atttccaaca atgagttaat ctccctacct gaaaattctc 2581 cgcttttgac agaacttcat gtaaatggta acaacttgaa tatactcccg acacttccat 2641 ctcaactgat taagcttaat atttcattca atcgaaattt gtcatgtctg ccatcattac 2701 caccatattt acaatcactc tcggcacgtt ttaatagtct ggagacgtta ccagagcttc 2761 catcaacgct aacaatatta cgtattgaag gtaatcgcct tactgtcttg cctgaattgc 2821 ctcatagact acaagaactc tttgtttccg gcaacagact acaggaacta ccagaatttc 2881 ctcagagctt aaaatatttg // LOCUS BOVMTAK5 3852 bp ds-DNA MAM 08-JUN-1990 DEFINITION Bovine mitochondrial adenylate kinase gene, exon 6 and 7. ACCESSION D90069 KEYWORDS ATP:AMP phosphotransferase; adenylate kinase. SEGMENT 5 of 5 SOURCE Bovine mitochondria DNA. ORGANISM Bos taurus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Artiodactyla; Ruminantia; Pecora; Bovidae. REFERENCE 1 (bases 1 to 3852) AUTHORS Tanaka,H., Yamada,M., Kishi,F. and Nakazawa,A. TITLE Isolation and characterization of bovine mitochondrial adenylate kinase gene JOURNAL Gene (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Hiroshi Tanaka Department of Biochemistry Yamaguchi University School of medicine 1144 Kogushi Ube, Yamaguchi 755 Japan Phone: 0836(22)2215 Fax: 0836(22)2315 FEATURES from to/span description pept / 126 347 adenylate kinase 2A exon 6(a+b) (EC 2.7.4.3) pept / 126 + 321 adenylate kinase 2B exon 6a pept + 2572 2576 adenylate kinase 2B exon 7 pre-msg < 1 491 adenylate kinase 2A mRNA and introns pre-msg < 1 3448 adenylate kinase 2B mRNA and introns IVS 322 2571 adenylate kinase 2B intron BASE COUNT 942 a 915 c 933 g 1062 t ORIGIN 1 tctagattgt ctgtctctcc ctgtgatgga ctttgggatc agacagcatc tcagatctgc 61 atctggcctt ggattaggag accttgctga gtcccagcct ttcattgccc tcttcttctt 121 ctcagatcac tggggaaccg ttgatccgcc gatcagatga taataagaag gccttgaaaa 181 tccgcctgga agcctaccac actcaaacca ccccgctggt ggagtactac agtaaacggg 241 ggatccactc cgccatcgat gcgtcccaga cccctgacgt cgtgtttgca agcatcctag 301 cagcattctc caaagccaca tgtaaagact tggttatgtt tatttaatgt tgggtccaaa 361 aaggaacttc tttcttcttc ctttccctgt tgaacgagtg ggtgggaatg gcagagtagg 421 cagagggaag cttcctcagg ccagcaagaa tatcatttga tgtattgatt aaaaaagcac 481 ttgcttcatg tacctttggt gtgtgcgcaa gtctcatctc atctgtgtgt gtgtgtggtg 541 tgtatgtgcg tgcacgtgca cacacgtgtg taagtataag tatgtgtaca ctcttatact 601 tcttaaattg taggcgagac tgtttacttc tttagccgta ctctttattt tcgacttccc 661 tggtggcgca gacggtaaag catctgtcta caatgcagga gacccgggtt cgatccctgg 721 gttgggaaga tcccctggag aaggaaatgg caatccactc taggactgtt gcctggaaaa 781 tcccatggac agaggagcct ggtaggctac agtccatggg gttgcaaaga gtcagacaca 841 actgagcgac ttcacttcac ttcactttat tttcaaccaa aataaactaa ctcaagtatc 901 cgccaggcag acaagttcct ggtatttttc catctccagc agctaattag aagtcctggg 961 tcacatgcag tcaggcaggg ctacagttcc tgatggcagc ctgttggcca gaaattccac 1021 ttgttttctc acccataatg aaaagtcttt gagtcattgt ggaaagggat cattaatttt 1081 ttccccctaa acaggaatga aaaggcactt actttataga ttccagaaat tactgggaga 1141 gggtatcacc atagaaagag cctggccaag ttgaattatt tttgtgatct gccccatggt 1201 tctataaagt aggaatcatt cggcacctgt gttgaatact aaattgatgc caaagaatta 1261 aaccaggtga aaggtcctct tgaattcaga ctgtcttctg aacatccagg ctaggcatct 1321 gagagcagcc agtccacttc cccaaagaca gcaggataga tttgtcttta ttttcaatgt 1381 ttgctctgtt tgcaagtgtg aacaaaacgg tgatttgagg atcatttggg gatcatgttg 1441 attagcattt attcaagccc agtctctaca ggatatgaag tcacatatat cccttttgaa 1501 cgcagccctc tcccttccat atctagtcct tcacccctta tgtcatgacg gtggtggcca 1561 cagtctcccc aagaaaggac cacccccaaa ataagatcac ctatggccgt aaccagcttt 1621 tcttcctaac ctcggctccc ggctcttagg catctcttga gatccacact gtgccttttg 1681 gtctctggtt tgatctgtgg caaacggagg aattaataga ctgctatgag ggaccacaaa 1741 aacagcaggc tctggaaaaa ccattaaaaa gtcagtgaca ggtccagtaa ataatgccac 1801 ctgcccaggg tactctgctg actcagtgca gtggcctcgg aagtgcccag cccccacctg 1861 acctgagctc tcctgctgtc tgtgagacca ccagagggct tgtcctctgt ccgcctggaa 1921 actggctgcg gtacgtggcc acctgtgtcc ctctctgtct gcttcaagtg agtgtctgct 1981 ggctctgctc tgccttgttt ccctggttgg agactaactc cacccattct taacggaaac 2041 ccagcctggc atgggatgtt tctgggaagc acatgatttc tgagaatgga caaggaaagg 2101 gagtgaaacc aaaactgtct gctgtgtctg cagggatctg ggctgcttct ctgggtgagg 2161 tggcctcatg aatcttagag ttgactcccc tttgacgggg gacagttgca ggcacttggc 2221 ctcaaagttg aggtccttga atgattgctg atagcgtgtg catgatctgt gctcaaatat 2281 ttgtctgtgt gcattcacac gtgcacacat atacatgtga tatttgggct accaatggga 2341 aagggaaggt cgtcgggggt gcatatgtcc tcttgggggt gggtagaatt caatttttgc 2401 tttgcttaat tccagagcct taacctcagc aggcatgaga gctttcacct ggcagagaaa 2461 tgtccagtgt ttaatgcatt tggttactgg ggtgtgcatg ccaaccttct ctgatggtta 2521 cttggttttt aaaaatgcat tttgttttct cttgtctcct ctttatttca gcctagtaac 2581 agaaggccag gcgggactgc accactactc atcaccccac ggcatgatcc ctgctcttag 2641 gtgctgggca gagggagggg cggtcagggt aaggatgggg acagaggagc ggtgagggcc 2701 caagcggggg agaggagctg tgttgccatg aagcagtttc atttacgtgg agtagaactc 2761 ttaaaagcat aagcaaaggg gaaaattaat tttttaaaac acttgattgg agggtataaa 2821 tagaaacaag gagatgcaat attatttcta aggaatcatg ctttcattta ctttggactg 2881 gtgacaactg gacaggtctc agtgccctga gacctcagct ttgatcagaa cctcatgcca 2941 gcccaggaat gcgggaaatc acactgttgt cctgtctgac ccatagcttg gaacagggca 3001 ggagttgatt actaatcctg gttacccata ccatgaaatc agaacgtcat ctccccacgt 3061 gcaatagaca tggaatgtgt tcctgggggc ggcgtctcaa caaatccggc ttactggagt 3121 catggggcag gctggtgtcc ctcccttcca tactcaccac tgatttacca gcccacctgc 3181 cctcacgggt gagccctcgg cagccaccca gcatacgcca cagtcctgtg ctcttgcctt 3241 cctccatcca catcatgtga aaggactctt tttaatcaat gagcaagtgt cctaagcaac 3301 attatccaaa gactgtcctt tccatcctca aatcctatga ctgggatcag tctacaacac 3361 tgtgatgtat tattttcaat gaggtgcctt tcttaactgt ccaaatgctg ccttgtttgg 3421 cccttaaata aagtgtgtta aaagtttgta tcccctgttg tggcattttt taaggagctg 3481 tgggctagta aaatgacgct gaattctgga tctgacttag aagccctttt ctgggtcatt 3541 agaagtcata agaaggcaga aaggtccaag agtgtgttca taagaagagt ctgctccctc 3601 ttggccttca gctcatctgc aggattttct tgagcccaag gacaaggcag cttgggccaa 3661 tggagacagt gctgtgcttt gggttcaggg atgtacaaca aatcccagcc aatcatttgc 3721 tcctgcttcc ttgtgtgaga aagagactag tggtggtcca gtggttaaga ctcttacctg 3781 ccactgcaga ggacactggt tcgatcccgg gtctgggaag atcccacatg ccgtgggcac 3841 tggacccatg tc // LOCUS BBRHWP 4330 bp ds-DNA BCT 08-JUN-1990 DEFINITION B. brevis cell wall protein (HWP) gene. ACCESSION D90050 KEYWORDS HWP; cell wall protein. SOURCE Bacillus brevis (strains HPD31, HPD52 and HPO33) genomic DNA. ORGANISM Bacillus brevis Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1 to 4330) AUTHORS Ebisu,S., Tsuboi,A., Takagi,H., Naruse,Y., Yamagata,H., Tsukagoshi,N. and Udaka,S. TITLE Conserved structures of cell wall protein genes among protein-producing Bacillus brevis strains JOURNAL J. Bacteriol. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Norihiro Tsukagoshi Department of Food Science and Technology Faculty of Agriculture, Nagaya University Furo-cho, Chikusa-ku Nagoya 464 Japan Phone: 052-781-5111 x6869 Fax: 052-781-4447 FEATURES from to/span description pept 548 3898 HWP precursor (ttg start codon) sigp 548 706 HWP signal peptide sigp 638 706 HWP signal peptide matp 707 3895 HWP mature protein site 132 132 transcription initiation site site 255 255 transcription initiation site site 325 325 transcription initiation site site 373 373 transcription initiation site site 386 386 transcription initiation site BASE COUNT 1401 a 804 c 1000 g 1125 t ORIGIN 1 atcgattacc aaaaaaccgc gaaagattcc gcggctgaga gctatcgttt gaccaatttg 61 cgctttgaaa cggtctggca acgaccctcg aagtgattca gccgaggagg aattatccaa 121 ccgtgagaat cagtaccaaa aagcgatcct gcagtacaat ctggctgtgg taaactttga 181 aactgccctc ggaagctaag aagaatttgt aaggttttga atggaactgg aaaaaggttc 241 aatggtgaca gtccgtccgg cgtaccctat aatacgagtt gtggcggatg tcactgctta 301 catattacaa gtgaatacga cccatgaaaa tttctttaaa ctttttttct gaggcgccgc 361 aacttttgct cgactgaggc gtttaatagg gtgtcacacg aaaaacgggg aattgtgtaa 421 aaaagattca cggattctag catttgtgtt acactagtga ttgttacatt ttacacaata 481 gctgaatata ctagagattt ttaacacaaa aaagcgaagc tgtcctgcga aaggaggtga 541 cacgcgcttg caggattcgg gctttaaaaa gaaagataga tcaacaaata ttccccaaga 601 acaatttgtt tatactagag gaggagaaca caaggttatg aaaaaggtcg ttaacagtgt 661 attggctagt gcgctcgcca tcacagttgc tccaatggct ttcgcagcag aggacacaac 721 tacagctcct aaaatggatg ctgcaatgga gaaaaccgta aaacgtctgg aagctcttgg 781 cctggtagca ggttatggca acggcgattt cggtgcagac aaaaccatca ctcgtgcaga 841 gttcgctact ctaatcgttc gcgctcgcgg tctggagcaa ggtgcgaaac tggcacaatt 901 caacactact tacacagatg ttagatccac tgactggttc gctggttttg taaacgtagc 961 ttccggtgaa gaaatcgtaa aaggtttccc ggacaaatct tttaaaccac aaaaccaagt 1021 tacttatgct gaagcagtaa ccatgatcgt tcgtgctttg ggttatgagc catccgttcg 1081 aggtgtatgg ccgaacagca tgatctccaa aggttccgaa ctgaacattg caaaaggtat 1141 caacaaccct aacatgcagc agttcgcggc gacaatcttc aaaatgctgg acaacgctct 1201 tcgcgttaag ctgatggagc aaatcgaata cggtactgac atccgtttaa acgtaactga 1261 cgaaactctc ttgactaaat atttgaaagt taccgtacgt gatatggact gggctcacga 1321 aaagggtaac aattctgatg aattgccact tgtaacaaac gtacctgcta ttggtctggg 1381 tagtttgaaa gcaaatgaag ttactttgaa tggaaaagat gctgatctgg gtagcaacac 1441 tacttataaa gtagctgaag gcatcaatcc taacgcattt gatggtcaaa aagtacaagt 1501 gtggatcaaa gatgaccgag aaaatgtcat cgtttggatg gaaggttccg aagacgaaga 1561 tgtcgttatg gaccgtgtga gtgctctgta cctgaaaggt aaagccttca cagatgatat 1621 tgtaaaagat cttagcaagt ctgatttgga tgatgtaaaa atcgaaatgg atggtagcga 1681 gaaatcgtat cgcttgacgg aagatacgaa aatcacttat aacttcactc gtttcaacga 1741 tccagtagat gctctgagca aaatttacaa agacaacgac acgtttggtg ttaaagttgt 1801 tttgaatgat aacaatgaag ttgcatacct ccacatcatt gacgatcaaa caattgataa 1861 aagcgtaaaa ggcgttaaat acggttccaa agttattagc aaaatcgatg ctgataagaa 1921 gaaaatcacc aacttggata actccaaatt tagcgacttg gaagatcagg atgaaggaaa 1981 agacttcttg gtattccttg atggccaacc agctaaactg ggtgatctga aagaatccga 2041 tgtttactcg gtatactatg ctgatggtga taaagataag tacttggtgt ttgctaaccg 2101 taacgttgca gaaggaaaag tagaaaaagt ggtaagccgt aacaagacag acattcgtct 2161 gactgttggt ggtaaaactt acaaagtata tccagatgct tcttactccg aaaacgcaaa 2221 taaagatgtt aagaaggtta attccgactt ggatctgatt agcaaccttg atggagaaga 2281 agtaaaactt ctcttggatc catccggtcg agttcgtcac atcgaaacaa aagacgcgat 2341 cgatgatcgt aaaccattgg caatcatcac taagggtgct acctataact ccagcaaaga 2401 tacttatgac tttactgtta tgacccaaaa aggtaaaaca caaatcgtat ctttggatca 2461 aaaggacatc tacgatagat atggggttaa ctacgataaa tccaatgata agcgtcaagc 2521 tttcgaaaag gatttagttg agcttctgca acctaaggta gttaaagagg actcagctac 2581 tgatgccaat caaaccgttc ttttggaagt taattttgat tccaaaggcg aagttgataa 2641 agtcaaagtt cttgatagca agctgaaata ctccgagaaa agcacttggg ataaacttgc 2701 ggatgaagat gacgacgtcg ttggtgatta tgaagtaacc gataagactg ctgtcttcaa 2761 aatgactggt gaccttactc cagctactgg aactaaacgt ggtgaactga aaaacgctgg 2821 tactgctaaa tttaaggatg ttgctaagaa gagcgatctg aaggtttggt actcagtgga 2881 ggaagacaaa ggtgaagttc aagcgatctt cgtagtagat ggcagtggtt tgggtggcga 2941 ccatcagttt ggtatggtca aacaatatgg tactgctagt aaacaggaca ctatcactat 3001 agttacaaaa gatggtgatt ctgtcactga aaaagagtac aaattggatg gcgacgctga 3061 tgatttgaaa gttgatcaag acatcagacg tggagatgtc atttctttca cactgaattc 3121 tgatggagaa gttattgttg acgatgtagt cgaggttgta aataacaacc acattgataa 3181 cactgcttct aaatcagcta cgctcatgcc tgaagacgaa cgtcaaaaag caggaatcga 3241 caaattggtt gttgctcgcg ttgacgaagt tgatggtaac actatttcct tgaactatgc 3301 tgacggaaag acacaaaaat attacacaaa agcatccact gcgttcattg atgtgtatga 3361 cggtcttgaa ggaattgatg gagtagatga aggcgactac atcgtaatga tcgatagcgc 3421 cgatattgac ggaactcgct ttgactatgt actggtagtt tctagcgatg atgagatccg 3481 cacgcaacac atctccacta aagcagttac ggacttcctg aacaagccaa ccagactatg 3541 taccaaatcc tggcgatggg gaagaagtag tcacggcacc aaagttaata cagttaacga 3601 tgaagcagtt gtagatggta ttgtaactct tccagctgat gcatctgtta gaaacttcaa 3661 cattgcattt gatcaagaaa ttaacagcaa agatgcaacg gtaactgtta ctaatgaaga 3721 tacgcttggt aacgtaacgg tatctgaggt tgcgacagat gcaaaagtat tgagcttcaa 3781 gactgctaaa ctggacacta caaaaactta catcatcaca gttaaaggct tgaaagataa 3841 aaacggtaaa gcagtgaaag atgtaactct ttacgttgaa tttgttgctg gagtgtgact 3901 tgttgctcta taaacactaa tagtgtgaaa tgagtgaaga agggagaagg attaaaacct 3961 tctcccttct ttaactgttt tggcgaattg aagggtgtaa cccccttccg tggaaacaac 4021 cattaatcca cgtgactaat cctcctgcat gcgttgtaag ctaactctta cagggtgtga 4081 agccaggtga agacgtaacc cttagtggtg cgggtctccg taaaagctaa ctatggttag 4141 gaaacgaatc tacgtctgag gcgtgtcagg tttggtaatt agcccttcag ctgctaatta 4201 ccccacaggc tgagatgcct ggagggttct aacgaattaa ggttgttaac gttagttcat 4261 cttgatatgt atagtaggaa cctaaggttt agcaaaaaaa gggatagcca aaatggaaca 4321 agtgagatct // LOCUS BSPRSDA 2996 bp ds-DNA BCT 08-JUN-1990 DEFINITION Bacillus sp. raw-starch-digesting amylase gene. ACCESSION D90112 KEYWORDS alpha amylase; raw-starch-digesting amylase. SOURCE Bacillus sp.(strain B1018) DNA. ORGANISM Bacillus sp. Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1 to 2996) AUTHORS Itokor,P., Tsukagoshi,N. and Udaka,S. TITLE Nucleotide sequence of the raw-starch-digesting amylase gene from Bacillus sp. B1018 and its strong homology to the cyclodextrin glucanotransferase genes JOURNAL Biochem. Biophys. Res. Commun. 166, 630-636 (1990) STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Shigezo Udaka Department of Food Science and Technology, Faculty of Agriculture Nagoya University Furo-cho, Chikusa-ku Nagoya 464 Japan Phone: 052-782-5111 x6356 Fax: 052-781-4447 FEATURES from to/span description pept 313 2454 raw-starch-digesting amylase precursor (EC 3.2.1.1) sigp 313 393 raw-starch-digesting amylase signal peptide matp 394 2454 raw-starch-digesting amylase mature peptide binding 302 306 ribosome binding site signal 101 106 -35 region signal 125 130 -10 region rpt 2567 2580 inverted repeat rpt 2585 2598 inverted repeat BASE COUNT 764 a 852 c 774 g 606 t ORIGIN 10 bp upstream of RsaI site. 1 ttatttgagt acattttatg tattcccaca ttgcgcccga tatctacgct tagaaaaaaa 61 tcgtcggaaa agcgccccaa aaaattttta ttgttattta ttgacagttg tattcgcttt 121 catctacaat gatggaggaa cgcaatactc gatataattt aagggccatg cattccgtga 181 ccgcacaccc ggtatggaac aaccccggta tctcgatgga gaagccgggg ttttttgtcg 241 ccctttttta ggaggtgatc cggcgacagc ggatcaagcc tggaattcaa ataattacat 301 aggaggtata acatgaagaa atttctgaaa atgacagccg cgttttccct gggattatcc 361 ctggcgttcg ggcttttcag ccccgcccag gccgcgccgg atacctcggt atccaacaag 421 caaaatttca gcaccgacgt catctatcaa attttcaccg acaggttttc ggacggcaat 481 cccgccaaca atccgaccgg cgcggcgttt gacggaacct gcacgaacct ccggctgtat 541 tgcggcggcg actggcaggg catcatcaac aaaatcaacg acggttacct gaccgggatg 601 ggcgttaccg ccatctggat ctcccagccg gtcgaaaaca tctacagcat catcaattat 661 tccggcgtca acaacacggc ctatcacggc tactgggccc gggacttcaa gaagacgaat 721 ccggcctacg gcacgattgc ggacttccag aacctgatcg ccgccgcgca tgccaaaaac 781 atcaaagtca ttatcgactt cgccccgaac catacgtcgc ccgcctcgtc cgaccagcct 841 tcctttgcgg aaaacggccg gctgtacgat aacggcacgc tgctcggggg atacacgaac 901 gatacgcaga acctgttcca ccataacggc ggcacggact tttccacgac cgaaaacggc 961 atctacaaaa acctgtacga tctcgccgac ctgaaccata acaacagcac gtcggacgtc 1021 tacttgaagg acgcgatcaa aatgtggctg gatctcggca tcgacggcat ccgcatggat 1081 gcggtgaagc atatgccgtt cggctggcag aagagcttta tggctgccgt caacaactat 1141 aagccggtct ttaccttcgg cgaatggttc ctgggcgtaa acgaagtagg cccggaaaac 1201 cataagtttg ccaacgaatc cggcatgagc ctgcttgatt tccgttttgc ccaaaaggtg 1261 cggcaggtgt tccgggacaa caccgacaat atgtacggcc tgaaggcgat gctggagggc 1321 tccgcagccg attacgccca ggtggatgac caggtgacgt tcatcgacaa ccatgacatg 1381 gagcgtttcc acgcaagcaa tgcaaaccgc cggaagctgg agcaagcgct ggcgttcacg 1441 ctgatcctcg cgcgcgtccc cgccatttat tacggcaccg agcagtacat gtcgggtggg 1501 accgatccgg acaaccgggc gcggatccct tccttctcca cgtcgacgac cgcctatcaa 1561 gtcattcaaa agctggcgcc gctgcgcaag tccaacccgg ccatcgccta cggatcgacg 1621 caggagcgct ggatcaacaa cgacgtgctc atttatgagc gcaaattcgg cagcaacgtt 1681 gccgtcgttg ccgtcaaccg caatttgaac gcgccggctt ccatttcggg acttgtcact 1741 tccctgccgc aaggcagcta caatgacgtc cttggcggcc ttctgaacgg caacacgtta 1801 acggtaggct ccggcggagc cgcctccaat ttcacgcttg cggccggcgg cacggcggtg 1861 tggcagtaca ccgcggcaac ggcgacgccg accatcgggc atgtcgggcc gatgatggcc 1921 aagccgggcg tgacgatcac gatcgacggc cgcggcttcg gctctagcaa aggcaccgtc 1981 tacttcggca cgacggcggt gagcggcgcc aacatcacgt cttgggaaga cacgcagatc 2041 aaagtgaaaa ttccggccgt cgcaggcggc atctacaaca ttaaagtcgc aaacgccgcc 2101 ggaacggcaa gcaacgtgta cgacaacttc gaggtattgt ccggagacca ggtcagcgtc 2161 cgcttcgtgg tcaacaacgc gacaacggcc cttgggcaaa atctctacct gacgggcaat 2221 gtcagcgagc tggggaactg ggacccggca aaagcgatcg ggccgatgta caaccaggtc 2281 gtttaccaat atccgaactg gtattatgac gtcagcgttc cggccggcaa aacgatcgag 2341 ttcaagtttt tgaaaaaaca aggctccacc gtcacgtggg aaggcggcag caaccacacc 2401 ttcaccgcgc cgtccagcgg caccgcgacc attaacgtga attggcagcc ataaggcgtg 2461 agggataggc ggctggcatt cattggaaaa ggcggactat atgacgtccg ttccgtgagc 2521 aacgctcatc gctccgttca aaccgccaca aggctgatct tcagccaaaa aaagagggga 2581 cctttcccct ctttttttat ttccgttgac taacggtatt cccaaaaatt acattggggg 2641 ataagctccc tcccctctaa tagcaataac aagagcgtaa acccaaccag gtgatccata 2701 gcgtgcggtc gcctttaatc ccggtatcaa aatgtatcct accttacaaa aatgatcgga 2761 tcatacaaaa tagtgcgtac tactcaacga aatagaacct acatacagaa cgatcgatcc 2821 agatttcaac gaacggcacg gtcgtttaaa aaaatggtgt gcggggtgcg agaatatgca 2881 agaatatcaa ctgactttga aagataagcg gatcgtatgg gggaaggcga tcgaccttga 2941 gcctctcatt ggcaaatatc ctggcgactc gattagacag ggcatgaacg aagctt // LOCUS HUMALPL 3101 bp ds-DNA PRI 08-JUN-1990 DEFINITION Human alkaline phosphatase (EC 3.1.3.1) gene. ACCESSION D90054 KEYWORDS alkaline phosphatase. SOURCE Human liver DNA. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 3101) AUTHORS Matsuura,S., Kishi,F. and Kajii,T. TITLE Characterization of a 5'-flanking region of the human liver/bone/ kidney alkaline phosphatase gene: Two kinds of mRNA from a single gene JOURNAL Biochem. Biophys. Res. Commun. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Fumio Kishi Department of Pediatrics Yamaguchi University School of Medicine Ube, Yamaguchi 755 Japan Phone: 0836-22-2258 Fax: 0836-22-2696 FEATURES from to/span description pre-msg 2130 3101 alkaline phosphatase mRNA and intron IVS 2341 3101 alkaline phosphatase intron rpt 375 664 Alu sequence rpt 2631 2926 Alu sequence BASE COUNT 775 a 752 c 692 g 882 t ORIGIN chromosome 1; map position p34-36.1. 1 aagctttctc cagcgagtat gatggtttct gcaggttctt ggcataaagc ctttatcaga 61 ttaaggaaat tcttttcaat acctggtttg ctgagggctt ctgtcacatc gttttctgtg 121 accccattcc ctctccctag gtgagcacgt caagtttgat cagggtgtta aactgccacc 181 cctgtgccta tgattcccaa atttatactc taacccagac ttctttttca aatgccagag 241 ccaaatattc agctgcctcc ttagtgtctc cacttctaaa agacatctcc aactcaacat 301 atccaaaaac aagttcctga ttgtctccac ctcatgcctc aaaagaccac cccaaacgcc 361 gaaaggctga atgctttttt ctttttcttt tttttttttt tctgagatgg agtctcactc 421 tgttgcccag gctggactgc agtgatgcga tctcagctca ctgcaaactc tgcttcctgg 481 gttcaagtga ttctcctacc tcagcctctc aggtagctgg gactacaggt gcacaccacc 541 atgcccagct aatttttgta gagagagttt caccatgttg gccaggctgg tctcaaacac 601 ctgaccttaa gggatccacc cgcctcagcc tctcaaagtg ctgggattac aggtgtgagc 661 catcgcactt ggctcggtag tatatggctc agaaacattg ccatttacaa tagttcccca 721 aaaagcaaaa ttcttaggta taaatctgga ttcagagtcc agaatgctaa ccattacacg 781 atggaacccg taggtataaa tctaagaaaa catatccaag atctacaggc tgaagactac 841 agagtgctga taaaaccgaa gaactctgac tgaatgagtg gagagacgtg gtgtcttcat 901 gactgggcaa ctccatgtgg tatagacgta aaccctccca cattgatctg tggatttaat 961 accataccta tcaaaaacac agtggtggag gacagatcag ggatcgccag gtttagggat 1021 ggggggattg tgtaactata aagaacgcaa gagagatttt tggggtggca gagctgttct 1081 gggtcctgac ggtggcggtg gtggttacat aaatctatcc atgtgtcaaa cgtcagaaca 1141 ctcattttac acttgggggc aacagaaatc cctccctctg gagggggtga ctgatggtaa 1201 cctgattgct aattctggaa tcaggagccc tgtggtcagg tttctgctct gcaacttcct 1261 gttggtaacc ttgggcaagt ctccgtccag agccttggtt ttctcatctg taaaaggaga 1321 tgataggtcc ttttctgtcc actgcatagc tgattagtga aacatcatgg tgaaattctt 1381 tatgaactat ggagtgcagc acatagactt gctttcattt tgtcagtatc ctttatagat 1441 tgttcatgta agctcccaaa gagtagtatt tattttattg aaataaaatg cacgtagaga 1501 aaaatgtgtg tatcatacat tgacagctga acccaccgtg taaccagcac ccacccaccc 1561 agatcaatca taaaccgaac cgcaccagca ccccagcagc ccgttcccgt ttccgtaccc 1621 tccacgtgga gcctccgttc tgtctcccaa cgccctgggt tagtttttat actttctgtc 1681 atcggaatca cactgtaagt gctcttgggt ttagcttcct ttgctcaagc ttaccttgtg 1741 cgattcattc atgttgttgt gaggagctgt ggatcatcca ttctccttgc tgtctgtggt 1801 ggtttctgtg ttgtgaacac acacaatgta ttatccagcc tgccgtagat ggaggcagtt 1861 ttgaagccat tataaacagg gctgatgtgc acattctgct ggagagaaac gggtcccagg 1921 gtacaggtag gatgatcagc ttcggtagat cctgccggtt ttcccatgcg ctgtgcctgt 1981 ctgcactcca ccaacggcga gcggaccttc cggtagttaa acatcttcac gaactcttgg 2041 actttcctgc acacacagag aagataattt tggatggctc ttcccttccc cccacaacct 2101 tccttagggc actggctttc aactgatgta aatatttact atgccaagca ctaggagggc 2161 agagacaaac aagacaaagt cctcacactt agaaactccc ggtgtggcag ctgagatggc 2221 ccaggaaaga actatattac cttcaaaaag agaggtacat gcgatgtttg aggtggcatg 2281 aagctcagtg gtgttatatt ggaatgagtg agtgaccatc ctggagcctt cctgaaagag 2341 gtgacttcat ttttaagtga ttttaaataa tagtttaatg aattagtatt tcgtattcag 2401 ttaataacat ttttctgatt ttaggatttg ctatagaaat atttggaaac cgtaaagtag 2461 aacaaaaaaa aaatgtagga atcatctgaa attccaaatt ctaccactca cagttaagtg 2521 ttgttagatg ttagatgtgg gatattgcct tttaatttcc actctgcgcc gctaccccca 2581 gcccctaccc cagagccgtc acttctggca ctggagcgca gcttgcgtgg tttttttttt 2641 tttttttttt tttttgagac agagtcctgc ctgtcgccca ggctggagtg cagtggcgcg 2701 atctcggctc actgcaactc cccctcccgg gttcacgcca ttctcctgcc tcagcctcct 2761 gagtagctgg gactacaggc gcccgctacc tctcccggct aattttttgt atttttagta 2821 gagacggggt ttcactgtgt tagccaggat ggtctcgatc tcctgacttc gtgatccgcc 2881 cgcctcggcc tcccaaagtg ggcagatcac ctgaggtaga gagttcgaga ccagacctga 2941 ccaacatgga ccccatctct actaaaaata caaaattggc cagggcatgg tggcgcaagc 3001 tgctaatccc agccactcag ggaggctgag gctggaaaat tgcttgaacc cgacctgcag 3061 gcatgcaagc ttggcgtaat catggtcata gctgttttcc t // LOCUS RATCNRAA 2337 bp ss-mRNA ROD 08-JUN-1990 DEFINITION Rat calcineurin A alpha mRNA, complete cds. ACCESSION D90035 KEYWORDS calcineurin; calcineurin A alpha; calmodulin binding protein; calmodulin-dependent protein phosphatase; isoform. SOURCE Rat brain, cDNA to mRNA. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 2337) AUTHORS Ito,A., Hashimoto,T., Hirai,M., Takeda,T., Shuntoh,H., Kuno,T. and Tanaka,C. TITLE The Complete Primary Structure of Calcineurin A, a Calmodulin Binding Protein Homologous with Protein Phosphatases 1 and 2A JOURNAL Biochem. Biophys. Res. Commun. 163, 1492-1497 (1989) STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Takayoshi Kuno Department of Pharmacology Kobe University School of Medicine 7-5-1 Kusunoki-cho, Chuo-ku Kobe 650 Japan Phone: 078-341-7451 x3273 Fax: 078-351-6531 Peptides, 78-329 and 391-414, seem to be putative catalytic domain and calmodulin binding domain, respectively. FEATURES from to/span description ORF 208 1773 calcineurin A alpha signal 1944 1950 polyadenylation signal BASE COUNT 649 a 523 c 596 g 569 t ORIGIN 1 cgggaggagg agtgaaggcg gcggcggcgg aggagggacg cgcggagccg gcagtaactt 61 tcgagccagc ccagagcccg gagctccagc cgagcggttt gcagcgcggc ggcgcggcgc 121 tgagtgtctg gcccgccggt gcggtcgggg tgtgcagtcg gacgggacca gcagcgcgtc 181 gctgtccccc cctcccggtg actggagatg tccgagccca aggcgattga tcccaagttg 241 tcgactacgg acagggtggt gaaagccgtt ccatttccgc caagtcaccg gctgacagca 301 aaggaagtgt ttgataacga tgggaagcct cgtgtggata tcttaaaagc acatctcatg 361 aaggaaggca ggctggaaga aagtgtcgcg ttgagaataa taacagaggg tgcttcgatt 421 ctccgacagg aaaaaaactt gctggatatt gatgccccag tcacagtttg cggggacatc 481 catggacaat tctttgactt gatgaagctc tttgaagtgg gaggatctcc tgccaacact 541 cgctacctct tcttagggga ctatgttgac agagggtact tcagtatcga atgtgtgctg 601 tatttgtggg ccttgaaaat tctttacccc aaaacactgt ttttacttcg tggaaaccat 661 gaatgtaggc acctaacaga gtatttcacg tttaaacaag aatgtaaaat aaagtattca 721 gaacgcgttt atgacgcctg tatggatgcc ttcgactgcc ttcccctggc tgcgctgatg 781 aaccaacaat tcctgtgtgt acacggtggt ttgtctccag agattaacac tctagatgac 841 atcagaaaat tagaccgatt caaagaacca cctgcttatg ggcctatgtg tgacatcttg 901 tggtcagacc ccctggagga ctttggaaat gagaagactc aggaacattt cactcacaac 961 acagtcaggg gttgttcgta cttctacagt tacccggctg tatgtgactt cctgcagcac 1021 aataatttgt tgtccatact ccgagcccac gaagcccagg acgcagggta ccgcatgtac 1081 aggaaaagcc aaacaactgg cttcccgtct ctaattacga tcttctcggc accaaattac 1141 ttagatgtgt acaataataa agctgcagtg ttgaagtacg agaacaacgt gatgaacatc 1201 aggcagttca actgctcccc ccatccgtac tggctcccaa atttcatgga tgttttcacc 1261 tggtcgctgc catttgttgg ggagaaagtg actgagatgc tggtaaacgt cctgaacatc 1321 tgctcagatg atgaactggg gtcagaagaa gatggatttg acggagccac ggctgcagcc 1381 cggaaggagg tcatcaggaa caagatccga gcaataggca aaatggccag agtattctca 1441 gttctcagag aagagagtga gagcgttcta actctgaagg gcctgacccc gactggcatg 1501 ctccccagcg gagtgctctc tggcgggaaa caaactctgc aaagcgctac tgttgaggcc 1561 attgaggctg atgaagccat caaaggattc tcaccacaac ataagattac cagcttcgag 1621 gaggccaagg gcttagaccg aattaacgag aggatgccgc ctcgcagaga cgccatgcct 1681 tccgacgcca accttaactc catcaacaag gctctcgcct cagagactaa cggcacagac 1741 agcaacggca gtaatagcag caatattcag tgaccacttc ctgttcactt tttttttttg 1801 agctgcaggg catgatgggt ttgctgcatc tcagcagttg gatgttcttg cctctgacgg 1861 tagcttgttt gctctggggg ggccaggaat tggattcagt ttacactatc atgaaaaaaa 1921 aaaagaggga gagagagaga gataataaaa ctatattttg gtgagggtgg tgattaaaca 1981 cctcttttgg gtatgccttt aaaaatgctt ctaggaaaaa aaaagtttta aaaagaaagc 2041 taatgctagt ctatacttca atgttagggg aatgaacacg ttttcctagc gcactgggga 2101 cttttagata ggttaatgaa aggcctttta ttctgttact ggacacgaaa actttgtcta 2161 atttcttata ctctattgta cgtttacagt cgcagcacta aaaatggatg acatcaaaca 2221 tttttaaaca gaaaaaaaag atgtacaaac taaataagga ctatttattg ataatgtttt 2281 gctactcttg tcagacaatg gctataaact gaattaggca gtcttaaaaa aaaaccg // LOCUS BOVPAS 3589 bp ss-mRNA MAM 08-JUN-1990 DEFINITION Bovine poly(ADP-ribose) synthetase mRNA. ACCESSION D90073 KEYWORDS DNA binding protein; helix-turn-helix; nuclear location signal; poly(ADP-ribose) synthetase. SOURCE Bovine thymus, cDNA to mRNA, clone pSO-7. ORGANISM Bos taurus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Artiodactyla; Ruminantia; Pecora; Bovidae. REFERENCE 1 (bases 1 to 3589) AUTHORS Saito,I., Hatakeyama,K., Kido,T., Ohkubo,H., Nakanishi,S. and Ueda,K. TITLE Cloning of a full-length cDNA encoding bovine thymus poly(ADP-ribose) synthetase: evolutionally conserved segments and their potential functions JOURNAL Gene (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Isao Saito Department of Clinical Science and Laboratory Medicine Faculty of Medicine, Kyoto University Shogoinkawahara-cho 54, Sakyo-ku Kyoto 606 Japan Phone: 075-751-3467 Fax: 075-771-4792 Zinc-binding finger motifs are observed in seq. 21-51 and 128-165. The sequences, 200-220 and 250-270, showed helix-turn-helix structure. Nucleotide-binding fold was found in seq. 890-903. FEATURES from to/span description pept 77 3127 poly(ADP-ribose) synthetase (EC 2.4.2.30) signal 224 231 nuclear location signal BASE COUNT 975 a 879 c 1010 g 725 t ORIGIN 1 tggatgagac ggcactagca gcagcgggtc tccaggtcgc ggcgtcgggc ttccggagct 61 gtgagcggtt agaaggatgg cggagtcttc agacaagctc taccgggtcg agtacgccaa 121 gagcgggcgc gcgtcttgca agaaatgcaa agagagcatc cccaaggact cgatccggat 181 ggccttcatg gtggagtcgc ccatgttcga tgggaaaatc ccgcactggt accacctctc 241 ctgcttctgg aaggtcggct tctccatctg gcaccctgat gtcgaggtgg aggggttctc 301 tgagctccgc tgggatgacc agcagacgat caagaagatg gccgagactg gcggacggac 361 agatgtttca ggcaaaggcc aagatggagt tggcagcaag accgagaaga cgttgattga 421 cttcggggca gggtacgcca agtccaacag aagcacgtgc aagagctgca tggagaagat 481 agacaagggc caggtgcgcc tgtctaagaa ggtggtgtac cccgataagc cccagctggg 541 catggttgac tgctggtacc acccaaagtg ttttgttcag aaacgggagg agctgggctt 601 ccgtcccgag ttcagcgcaa cgcacctcat gggcttcagc gtcctcaccg cagaggacca 661 agaaaccctc aagaagcaac tcccggccat caagggtgaa agaaagagaa aaggtgatga 721 ggtggatgga atagatgaag tgaccaagaa gaagtctaaa aaagaaaaag acaaggagat 781 taaacttgaa aaggccctta aggcccagaa cgacctgatc tggaatgtca aggacgagct 841 aaagaaagcg tgctctacga acgacctgaa agagttgctc atcttcaaca agcaggaagt 901 gccttccggg gagtcggcga tcttggaccg cgtggccgac ggtatggtgt ttggcgccct 961 ccttccctgc gaggaatgct cgggccagct ggtcttcaag ggcgacgcct attactgtac 1021 cggggatgtg actgcctgga ccaagtgtat ggtcaagaca cagacgccca accggaagga 1081 gtgggtgacc ccaaaggaat tccgagaaat ctcttacttc aagaaactga agatcaaaaa 1141 gcaggaccgt atattccccc cagagagcag caccccagtg ggggcagcag ccccaccctc 1201 cgcagcttca gcgcctgccg ctgtgcactc tggcccccca gacaagccat tatccaacat 1261 gaagatcctg actctcggga aactctccca gaacaaggat gaagtgaagg ccacgattga 1321 gaaactcggg gggaaattga cagggacggc caacaaggcc tccctgtgta tcagcaccaa 1381 aaaggaggtg gacaagttga ataaaaagat ggaggaagta aaagaagcca acatccgtgt 1441 cgtgtctgag gacttcctcc aagacatctc cgcctccacc aagagccttc aggagttgct 1501 ctccacccac ctcttgtccc cctggggagc cgaggtgaag gtggagcctg ttgaagcagt 1561 gggcccaaag gggaagtcgg gggccgcgcc ctccaagaag agcaagggtc ccgtcaagga 1621 ggaaggtacc aacaaatctg aaaagaggat gaaattaact cttaaaggag gagcagctgt 1681 cgaccctgat tcaggtctgg aacacaatgc acacgtcctc gagaaaggcg ggaaggtctt 1741 cagcgccacc ctcgggctcg tggacatcgt caaagggacc aactcctatt acaagctgca 1801 gctcctggag gatgacaaag agagcaggta ctggatattc aggtcctggg gccgtgtggg 1861 cacggtgatt ggtagtaaca aactggagca gatgccatcc aaggaggatg ccattgagca 1921 ttttatgaaa ttatatgaag agaaaaccgg aaacgcctgg cactctaaaa actttacgaa 1981 gcatcccaaa aagttctacc ctctggagat tgactacggc caggatgaag aggcggtgaa 2041 gaagttgaca gtaaaccctg gcaccaagtc caagctcccc aagccagtgc agaacctcat 2101 taagatgatc tttgatgtag agagtatgaa gaaagccatg gtggagtatg agattgacct 2161 tcagaagatg cccttgggga agctgagcaa aaggcagatc caggctgcat actccatcct 2221 cagtgaggtc cagcaggcac tgtcccaggg cagcagtgac tctcacatcc tggatctctc 2281 caaccgcttc tacaccctga tcccccacga cttcgggatg aagaagcccc cgctgctgaa 2341 caacgcaaac agcgtgcagg ccaaggtgga aatgctagac aacctgctgg atattgaggt 2401 ggcctacagt ctacttaggg gtggttctga tgacagcagc aaggacccca ttgatgtcaa 2461 ctatgagaag ctcaaaactg acattaaggt tgtggacaaa gattccgaag aagccgagat 2521 cattaggaag tatgtgaaga acactcacgc gaccacacac aacgcgtacg acttagaagt 2581 cgtcgacatc ttcaagatag agcgcgaagg ggaaagccag cgttacaagc cgtttaagca 2641 gctgcataac cggaggctgc tgtggcacgg gtccaggacc accaacttcg cgggcatcct 2701 gtcccagggt ctccggatag ccccacctga agcacctgtg acgggctaca tgtttggtaa 2761 gggaatctat ttcgcggaca tggtctccaa gagtgccaac tactgccaca cgtcccaggg 2821 agacccaata ggcttgatcc tgttgggaga agctgccctt ggaaacatgt atgaattgaa 2881 acatgctcga catatcagca agttacccaa gggcaagcac agtgtcaaag gtttaggcaa 2941 aactacccct gacccatcgg ctagtattac tgtggatggt gtggaggtgc ctctcgggac 3001 agggatttca tctggtgtta atgacacctg tctgttgtat aacgagtaca tcgtctacga 3061 cattgctcag gtccacctga agtacctgct gaagctgaag ttcaacttta agacatccct 3121 gtggtgagct gtgaggtgcg caggctggtg actggcgtgc tttgcatgac tggccaggca 3181 gaaacctcag ctgagttgtc gaggcatagc tagcttcact cagtctcctt agaagggatt 3241 ttatatgaac acttggtcac atgtttcaga gcgattttcc cagcttttca aatcccttga 3301 ttgtgttggg cgggggagcg ggcggggggt ggtttcgggg tttttctcct gccagccata 3361 accctggtag gtgcaactga caatagagga gaagctgggg agggtcttac ctgtgtctag 3421 attagtccaa tgaaagagcc tcgcaggcca cattagaaca tctgccttac tggtttcccc 3481 agggaaggaa aaaaataatc ttctaccctt gtttttaagt attcatcttt agttttggaa 3541 aaatgttaag tgtttatttt gaggtcaaaa taaaaactaa tttcatact // LOCUS CHKNMYC 6360 bp ds-DNA VRT 08-JUN-1990 DEFINITION Chicken N-myc protein gene. ACCESSION D90071 KEYWORDS N-myc gene; nuclear protein; oncogene. SOURCE Chicken (strain white leghorn) embryo DNA, clone CNG1. ORGANISM Gallus gallus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Aves; Neornithes; Neognathae; Galliformes; Phasianidae. REFERENCE 1 (bases 1 to 6360) AUTHORS Sawai,S., Kato,K., Wakamatsu,Y. and Kondoh,H. TITLE Organization and expression of the chicken N-myc gene JOURNAL Mol. Cell. Biol. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Hisato Kondoh Department of Molecular Biology School of Science, Nagoya University Furocho, Chikusaku Nagoya 464-01 Japan Phone: 052-781-5111 x6685 Fax: 052-782-8575 FEATURES from to/span description pept 2872 + 3598 N-myc protein exon 1 pept + 4682 5280 N-myc protein exon 2 pre-msg 2354 6208 N-myc mRNA and introns IVS 2496 2769 intron A IVS 3599 4681 intron B BASE COUNT 1318 a 1648 c 1735 g 1659 t ORIGIN 1 tgagagtaga cctaaaaagg agaacttgac gtagtattgg tggatgaaaa gctgttagtg 61 tgtgcctgaa acccagaagc caaccatatc ctggaccaca tgaaaagaag catggccagc 121 acggcaaggg tggtgattgt ccctctctac tccattctca aattcctgta cccaaagaga 181 aaacatagct atatacatat atgtatatgt gggggttttt ttgtttgttt ttttgctgtt 241 cccaggacta tgtttagcca atgcatcaaa acgcatacaa gcatttgcgg tcacttgagt 301 tggcactgca ctgtgcctcg tgctctggtt gccacccaga tgctgatcac acaccgtggg 361 tttggtggtt gctgtaccat ggatgcaccg ggtgtgaggc agggccttca cactgagatg 421 ggagccccac agctgccatc ttcctcctcc ggactctgtg ctgcagccag gtccaaccag 481 ctccatctgg ccagcccctc tgtatgcttt cagctctgca gcggacatcc aaacaacagt 541 gtgaacgctt aaggcgacct caccttcctg gaagggcctt gatacctcag tcttggccac 601 ccaagcacaa catggaggca agcgggcatc accccaggga acagcgtagc ccaggggctg 661 gagcgcaatg gggcaacgcg gtgaaggtgc acggtgagga actattaccg tctggctctg 721 ttctcagaaa caaactcctc ctcagcgact ctcacacaga ccctccctca gagctgccac 781 ttttgaagcc gccgggctca ccccgggcgg ctcgggagcg gcgccccgcc cggccgcaca 841 caaacggcgc cggcagcctt cctgcgagca acgcccacgt ccccgcctca acctgcagcc 901 tatgagcggg taggcgcctc cccaagcggg cgccggaccg ggatcgcaca gccgaggacg 961 gcgccgcgct gccgtaccgc ggtctccccg ccgctgtccg cgcccgcggg gaaggaggca 1021 gagcggtggg tgtccgccgc cggggggacg cccggccgcc gcctccggcc ctccgcaagg 1081 tgtcgccgcg cgcagcggaa cgccgggtcc ggccgggagc tgccgtgcgg tgcggcgggg 1141 ccggaggtgt gcgcggcgag cggggaggcg atcaccgcag gacgagcgct agttctttat 1201 aaagcccaga gcgagggcga ccccgcgttc cagacacttc cattattcct ctcctttatt 1261 agtatttttt tcacctctcc ctcggtcttc gcagataggg ccaccgctct cacgcagcgc 1321 cgcgtccccc cggggagggg cggccccgca cccccgggcg tgccgggcgc ctcgcaccgc 1381 gttggagaat aaagagcgaa tggggctttt ggctcgcaag cggaggcacc tccctcgtct 1441 atggaaatca gggggtgggg ttacgccgcg ctcccccccc cccttttttt ttttttttta 1501 atgctccccg ggtgtgtcag ctatctttat ttttttattt tttttttcct cccctccctt 1561 ccccccaccc cgccactcct ccccctcgca acacccaccg ccggcagcgg ggatttaaga 1621 ggaggaggaa gcggcagggt ctgggctgcc agcagcggga ggacaaaacc cccatgaaat 1681 aaatacaatc ccacatccag ctgggaggat gggacgggag cggcagcctc cgccggccct 1741 caatgggggt ttcattgagc ggatatttgg gctgtgctgc ggagcggtcg caccgagctc 1801 gccgcactct gtaggtgcct ctttgctctt cgcattttta acggtttcgt gtatttcggg 1861 agcagggaag cgcacaatgc tggaaaggag cagggggcgg cgcgggggcg agcagctgag 1921 ccgcgtttcg gtgcatttca tcagagcgct ttgcacgact gtgtgtgtgt gtgtgtgttt 1981 tttttttttt tttcctcccc cttttgctct ccgtcagctg ttcgcaaccc agcacacgtt 2041 ttcccttcgc tgggtcggga ctaagagctc atttcggttt caatgcccga tgcagaggag 2101 catggggctg cgggtgagcg gccgcgggta gcgcgggggc accgaggtaa gggcgctgct 2161 cccgggggcg aaccgtgtgg ctcttgtttt aacctgcaaa gagggagaaa aacttcctgt 2221 agcgagtcag gctttgttgg ggtgtgttca tcgtttggtg tgcgtcggtg tttgctgctg 2281 ctggattccc ctgatggagt tgcacggctc ggggagcccc ttctttgcat ccttctctcc 2341 ccactacact ggaaatgaca aaaggagtaa acttcctttg cttgcggtcg cgtataggag 2401 ggtttctgca gggaggcgtg catctgcccg cggctgtgct gctctgagct ctggaggcgg 2461 tcgggcaggg cgcggagctc cgtgcaggac cggaggtgtg tgtgtgtgtg tgtgtgtgtg 2521 tgtgtgtgtg caccctggag cggctcacgg ccgctgcctg cggcgtccga gaaggtgcgg 2581 tgcgttcctc cttaacttgt aaaggctcct ggtttgtttg ggtttttttt tccctatcca 2641 taatggaatt gtgttttttt atttttcctt tttttttttt tttccccact acataatagg 2701 gaattacagg cgtctttttt tttcgtgttt taattgtgtt cgtttcttta tttccatttt 2761 ctgctttagt ttcaggtcct ggacacacct ctcctctcct tggtggaact accgtaaaac 2821 ccgcctctaa cacgagcccc cagcccggga atcgacacgg agagccccgc catgccggga 2881 atgatcagca agaacccgga cctcgagttc gattccttac agccttgttt ctacccggac 2941 gaagatgatt tctatttatg cgggccggac tcggcccccc ccggggaaga catctggaag 3001 aagttcgagc tgctgcccac ccctccgctg tcccccagcc gggccgggct gcaggagcca 3061 ccccccgggg ggggctccat tgccgtgggg aggggcggac ctggggagtg ccgccccgtt 3121 gatcccctgg actgggcgtc cgagttgctc ctcctgcccc ccgaggccga gctgtggggc 3181 agcacggacg gcgcggattt cttcgagacg ggcctcgggg cgagcaacaa cctcaactcc 3241 atcatcatcc aggactgcat gtggagtgcg ttctcggccc gcgagaagct ggagcgggcg 3301 gtcagcgaga agctgcagag caagcctccc gccgccgccc cgccgcctcc gcccccggtt 3361 gtacccaccg ccgcttgtcg ccgccgcgaa cagccccagc gcggtcccgg ccgcgcggag 3421 ctgggcggct ccgtgcccga gtgcgtggac ccggccgtgg tcttcccctt ccccgtcaac 3481 aagcgggagg cggcggtgcc aagcggcggc gagaccccgc ggggcgggcg ccggccgggt 3541 cccgcggggg agagccgggc cagcagcagc tccggggacg acacgctcag cgactcgggt 3601 caagcgcgcg gctgacgggt gggcggtgcg gggtcgggcc gccgcagcgc acactcaaca 3661 gccgcggggc ccgtgcgcgc cccacggggc tgggttctcc ggggctgtgg gccaacagca 3721 aggacggtgt gcccgggctc gggctgtgcc gtgcggctcc tcgggcttcc catgtcctca 3781 tgtccatcgg ggtgtgtgtg cgccattctg ggggccgttt tggggagcgt gtggtcagaa 3841 gcgaggggca gtgccatgct gaaccacgtt cggtggggga tgtttacggc gttgggaggc 3901 tggaacagag cggcagcccg cagagggtcc ttgtctgtac ggtgacagag cctaaaatgc 3961 cctcagatag ttcccatcgg agaaatccgg ttcggcagtg tagttctggc tgtgtaagtg 4021 agcggtccgt atgatcgtca ccataaactt ggcgatccgt ctcggctcgc ggagcctact 4081 gtccctttaa tgtctggttt gacagctttg ggtgaggaag cacttccaac agctgtcttc 4141 ttggcactgc accaagcgcc ggttaaaggg tccccggcgg gagcagcttc accttctgca 4201 ctagaacaaa cccagcgatt gtttcgtttc ccgtctgctt ttccaccaac ccagggctgt 4261 gttgtggctc tgtacgtgca gtttgtgccc caggtctgca gctgtagtaa aaatgaatgc 4321 attttgtatg aaaacttttc gccactggga ttagttgggt ggtagcccca ctttcattta 4381 aaatgagaag ttgttaaaga aaaggagttg gagacaatcc ctatgggtcc cttcaaactc 4441 ggggtattct atgaaaaaca aacctcataa agttccccca aacttgcaga gatctatttt 4501 gtttagtttt gtgtatgtta tatacgtctc tagaactata tttgattatg gacagtgagc 4561 acaccctatt ttttttacca tcagttattt tattggtatt tctaatgtgc atatcttgtc 4621 aataaatatt attgcttttg agagaatatc aatttctttt tccattttct ttaaccgaaa 4681 gatgatgaag acgaggagga agaggatgat gaagaagaaa tagatgttgt gacagtggag 4741 aaaagacgct cctcctccaa caaggctgtt accaccctca ctattacagt gcgtcctaaa 4801 aataccactt ttccatcggt caggacacag cagaatgaac tgattttaaa gcgttgtgcg 4861 ccaattcacc agcagcataa ttatgccgct ccttctccgt atatggagag tgaagatgtg 4921 ccaccacaga aaaagttaaa agccgaggtg ccccgtccag taaaacccat gatccaacca 4981 aagtctaaga gttcaagtcc tcgaaactct gattcggagg acagcgaacg tcgacgtaac 5041 cataatatct tggagcgtca gaggcgtaat gatctgcggt ccagtttcct cacgttaagg 5101 gaccacgttc cagaacttgt taaaaatgag aaagctgcaa aagttgtgat tttgaaaaaa 5161 gccactgaat atgtccattc ccttcaggca gaggagcaga agttattgct agaaaaggag 5221 aaattgcaag ccaggcaaca acagttgcta aagaaaatag agtacaagcg gacttgctaa 5281 acttcttttt ctcgtttttt ttcttttctt tttggttttt tttttttttt ttggctgacc 5341 aggacagtca ttgccacttt gcacattttt gattctttaa aaaaaaaaaa aaaattgtgt 5401 tttttgacgt taagaatgtt ggttttactt tcaattcagt ccctgaagta attgacaaac 5461 tttattatcc gggtacgagc aaatgggtgt tcttgcaaga agtttattgc gagactacca 5521 aacacaatgg actgcctttg tttttcattt taagaactgt agatggtgga tttttttaat 5581 tttttttaaa ttgttgtgag catttggagc tgctgatgac atctagttga gttgaaaaca 5641 tccattccta atttttatgg tgcttatgtt ctaacagatg ttactttagg gggttggcat 5701 ttgtacccct ctggaatttt ctgtaaatac catctacaca cttgcctttt gtacatgtct 5761 tgggttatga gaggtggctt ttgctgccag tattagactg gaagttcata cctaagtact 5821 gtaatacctc aatgtttgag gagcatgttt ttgtatacaa atatattgtt aatctctgtt 5881 atgtactgta ctaattctta cattgcctgt atactttagt acgtcgctga tacataacta 5941 aatttgatac ttatattttc gtatgaaaat gagttgtgaa agttttgagt agatattact 6001 ttatcacttt tttgaactaa gaaacttttg taaagaaatt tactatatat gccttttcct 6061 agcctgtttc ttccagttaa tgtatttgtt aatgtttggt gcatagaact gggtaactgc 6121 aaagttctgt gtttaatttc ttccaatggt gtacatttag tgctgcgtct tatagcactt 6181 tgaaatacct catgtttatg aaaataaata gcaattacat gatgtgccat ttactatttt 6241 ttcttttaaa tggagttcct tgaaataaag tttttaactt tgcaatgttt atgaaataaa 6301 aacctagtcc catatgtaag gatttgaact ctcaagtata ggtgatgttt acggacaagc // LOCUS BMEGDH1 2834 bp ds-DNA BCT 08-JUN-1990 DEFINITION B. megaterium glucose dehydrogenase gene and ORFs. ACCESSION D90043 KEYWORDS glucose dehydrogenase. SOURCE Bacillus megaterium (strain IAM1030) DNA. ORGANISM Bacillus megaterium Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1 to 2834) AUTHORS Mitamura,T., Ebora,R.V., Nakai,T., Makino,Y., Negoro,S., Urabe,I. and Okada,H. TITLE Active and silent isozyme genes of glucose dehydrogenase from Bacillus megaterium IAM1030 JOURNAL J. Bacteriol. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Toshihide Mitamura, Osaka University 2-1 Yamada-oka Suita, Osaka 565 Japan. FEATURES from to/span description pept 1964 2749 glucose dehydrogenase (EC 1.1.1.47) ORF 181 867 ORF1 ORF 1086 1946 ORF2 signal 89 94 put. -35 region for ORF1 signal 116 121 put. -10 region for ORF1 signal 167 172 ORF2 ribosome binding site signal 893 928 termination signal signal 972 977 put. -35 region for ORF2 signal 997 1003 put. -10 region for ORF2 signal 1070 1076 ORF2 ribosome binding site signal 1949 1954 glucose dehydrogenase ribosome binding site signal 2751 2783 termination signal for glucose dehydrogenase BASE COUNT 896 a 442 c 644 g 852 t ORIGIN 1 gatcaggtag cgagaatctt tgatgaaggt ttttcaacca aagcaaagga aaatagagga 61 attggtttgc atttagtaaa acaaattgtt gaaaaaggaa acggtcagat cgaagtagag 121 tcagaattag atgttggaac gacttttatc attacattct ttttataggg ggagtgggaa 181 atgaataaaa aagcatggac cgtgcttctc atagaagacg atcctatggt acaagaagtg 241 aaccgccaat ttattgaaca agttgaaggg ttcactgtta tcgctgcagc ttcgaatggt 301 ttagaggggg tacagctcat taaacagcat cagcctgatt taacgattat tgatatgtat 361 atgcctagtc aagatggctt aaccacctta cagcaaattc gagcaaatgg ctataaaaca 421 gacgtgatag cagttacggc tgcaagtgat attgaaaccg tacgcaaagt tcttcaatat 481 ggcgctgtgg attatattat gaaaccgttc aagtttgaac gaatgaagca agcgcttgag 541 cagtatcgtt cgtttcaagt taaaataagt caaaaagaac atattactca gtctgaatta 601 gattctatgc tgtttcagca attcgaagaa aaagccgatt tgcttcccaa ggggctaaat 661 gcggttacgt taaggaggat acaacaatat ctttccgaac aaaatcatcc aatttctgct 721 gaagaagtgg cggacggcgt aggaattgcg cgtgttacag caagaaggta tttagagttt 781 ttagaacagg aaaacgagct gaaattatca gttgaatacg gcagagtggg gagacctatt 841 aatcgctata tgttaaaaat aaattaaatc atacagaaca gcttttattt ggaaaagctg 901 tttttttgcg ttagaaagta tatctttttc tctcctagaa caaattaagg tatacagttt 961 tcgctaccca aagaatattt cgtgcggtca ttaatccata aaatgtccct gaaaaggatt 1021 aatggcggaa aaattgggga atatgcactt tgacatttaa ttttaacaca ggaaggtttt 1081 gaaacatgga catattttta gccgtcttac cagccatatt ttggggaagc attgtgcttt 1141 ttaatgtgaa actaggcgga ggaccttata gtcaaacgct tggaaccaca ttgggagctt 1201 taattttctc catcggtatt tatatttttg tacaccctac gtttacacct ttaatctttg 1261 gggttggagt tgtttcgggg ctattttggg cagttggaca aagtaatcag ctgaaaagta 1321 ttgatttaat tggagtttct aaaacgatgc ctatttcaac ggggcttcag ttagtttcca 1381 cttcattatt tggagtaatt gtgtttcacg agtggtctac aaaaacttca atcattcttg 1441 gtgtgctcgc tcttatcttt attattgtag ggattgtttt agcatcactt caaagcaaag 1501 aagagaaaga ggctgaagaa ggaaaaggaa acttcaaaaa aggaattgtt attttattaa 1561 tttcaaccgt tggttattta gtttatgttg tagtagcccg tctatttaat gtagacggat 1621 ggtcggcttt attacctcaa gcaattggta tggttattgg aggagtattg ctgacgttca 1681 agcataagcc atttaataaa tatgcaattc gcaacattat cccaggtctt atttgggccg 1741 ctggtaatat gtttttattc atctcacaac ctaaagtagg cgtagcgaca agcttttcgc 1801 tttctcaaat gggaatcgtc atttcaacat taggcgggat cattatttta ggtgagaaga 1861 aaacgaagcg tcagttagtt gggattatta ttgggattat actgatcatc atagcaggag 1921 tcatgttagg gctcgccaaa agctaactag gaggttatta acaatgtata aagatttaga 1981 agggaaagta gttgtcataa caggttcatc taccggttta ggaaaagcaa tggcgattcg 2041 ttttgcgaca gaaaaagcta aagtagttgt gaattatcgt tctaaagaag aagaagctaa 2101 cagcgtttta gaagaaatta aaaaagtcgg cggagaggca attgccgtta aaggtgacgt 2161 aacagttgag tctgacgtga tcaatttagt tcaatcttct attaaagaat ttggaaagtt 2221 agacgttatg attaataacg caggaatgga aaatccggtt tcatctcatg aaatgtcttt 2281 aagcgattgg aataaagtaa ttgatacgaa cttaacggga gcatttttag gcagccgtga 2341 agcgattaaa tattttgtgg aaaatgatat taagggaaca gttattaaca tgtcgagtgt 2401 tcacgagaaa attccttggc cattatttgt tcattacgca gcaagtaaag gcggaatgaa 2461 gctcatgacc gaaacacttg cattagaata cgctccaaaa ggtattcgtg taaataacat 2521 tggaccggga gcgattaata caccgattaa cgctgagaaa tttgctgatc ctgagcagcg 2581 tgcggatgta gaaagcatga ttccaatggg atacattgga gagccggaag aaattgcagc 2641 ggttgctgca tggctagctt cttcagaggc aagttatgta acagggatta cgctctttgc 2701 tgacggcggt atgacccagt acccatcatt ccaagcagga cgcggataag aaaaaacgca 2761 ctctataata gagtgcgttt tttagtttcc ctgagctttt ttttggttct taggagctga 2821 ctggtgttga attc // LOCUS BMEGDH2 1202 bp ds-DNA BCT 08-JUN-1990 DEFINITION B. megaterium glucose dehydrogenase (EC 1.1.1.47) gene. ACCESSION D90044 KEYWORDS glucose dehydrogenase; isozyme. SOURCE Bacillus megaterium (strain IAM1030) DNA. ORGANISM Bacillus megaterium Prokaryota; Bacteria; Firmicutes; Endospore-forming rods and cocci; Bacillaceae. REFERENCE 1 (bases 1 to 1202) AUTHORS Mitamura,T., Ebora,R.V., Nakai,T., Makino,Y., Negoro,S., Urabe,I. and Okada,H. TITLE Active and silent isozyme genes of glucose dehydrogenase from Bacillus megaterium IAM1030 JOURNAL J. Bacteriol. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Toshihide Mitamura Department of Fermentation Technology Osaka University 2-1 Yamada-oka Suita, Osaka 565 Japan Phone: 06-877-5111 x4373 Fax: 06-876-9036 FEATURES from to/span description pept 125 910 glucose dehydrogenase signal 27 32 put. -35 region signal 49 55 put. -10 region signal 111 116 SD sequence signal 928 959 termination signal BASE COUNT 427 a 190 c 268 g 317 t ORIGIN 1 tgaatgacag tttgagaaag aagagataga aaaatgttta ttcccttctt aaaacttaaa 61 ctgtatctgt aattagtaca gtataacaag acatatcagg cagaaaaagt aggaggactt 121 caagatgtat acagatttaa aagataaagt agtagttgta acaggtggat caaaagggtt 181 gggtcgcgcc atggccgttc gttttggtca agagcagtca aaagtagttg taaactaccg 241 cagcaatgaa gaggaagcgc tagaagtgaa aaaagaaatt gaagaagctg gcggtcaagc 301 tattattgtt cgaggcgacg ttacaaaaga agaagacgtt gtgaaccttg tagagacagc 361 tgttaaagaa tttggttcat tagacgttat gattaataat gcaggtgttg aaaacccggt 421 tccttctcat gaattatcat tagaaaactg gaaccaagtg attgatacaa acttaacagg 481 ggcattttta ggaagccgtg aagcaattaa atatttcgtc gaaaatgaca ttaaaggaaa 541 cgttattaac atgtccagcg ttcacgaaat gattccttgg ccattatttg ttcactatgc 601 agcaagtaaa ggcggtatga aattaatgac ggaaacattg gctcttgaat atgcgccaaa 661 aggtatccgc gtaaataaca ttggaccagg tgcaatcgat acgccaatca acgctgaaaa 721 attcgcagat ccggaacagc gtgcagacgt agaaagcatg attccaatgg gctatatcgg 781 caaaccggaa gaaatcgcat cagttgcagc attcttagca tcatcacaag caagctatgt 841 aacaggtatt acattatttg ctgatggcgg tatgacaaaa tatccttctt tccaagcggg 901 aagaggttaa taaataaagc taaaaggaaa aagacctcgg aatattccga ggtctttttt 961 gtattgtcat aaatgtacgg attatttacc gaatattgaa acttttattg aagtgttacg 1021 tatataagct aacgacgaat aaaggacgtg ttgatatgct acccgaaacg attcaacaaa 1081 aagtagatca gtatagaggt ttttatatca gcttaaaaaa tgaactcaaa tggaaagtgg 1141 cagatcccaa gcagtttatg gctatcgctt ctatgtatgc agtgaaaggt aaatcgctcg 1201 ag // LOCUS BMOPTTHP1 1023 bp ss-mRNA INV 08-JUN-1990 DEFINITION B.mori PTTH mRNA. ACCESSION D90082 KEYWORDS PTTH; preproPTTH. SOURCE B.mori (Kinshu X Showa strain) 5th-instar larva brain, cDNA to mRNA, clones P1, P2, C2, C9 and C19. ORGANISM Bombyx mori Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Ditrysia; Bombycoidea; Bombycidae. REFERENCE 1 (bases 1 to 1023) AUTHORS Kawakami,A., Kataoka,H., Oka,T., Mizoguchi,A., Kimura-Kawakami,M., Adachi,T., Iwami,M., Nagasawa,H., Suzuki,A. and Ishizaki,H. TITLE Molecular cloning of the Bombyx mori prothoracicotropic hormone JOURNAL Science 247, 1333-1335 (1990) STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Hironori Ishizaki Department of Biology, School of Science, Nagoya University Chikusa-ku Nagoya 464-01 Japan Phone: 052-781-5111 x2472 Fax: 052-783-0719 Telex: SCUNAG J: 447-7323 FEATURES from to/span description pept 34 708 preproPTTH matp 379 708 PTTH subunit signal 768 773 polyadenylation signal signal 826 831 polyadenylation signal signal 997 1002 polyadenylation signal signal 1004 1009 polyadenylation signal BASE COUNT 358 a 179 c 186 g 300 t ORIGIN 1 atcgttcagt tgagttatcc agcattccca atcatgatta ctcgaccgat tatattagtc 61 attttgtgtt acgctattct tatgatagtg cagtcattcg tgcctaaagc ggtagcgctg 121 aaaagaaaac cagacgtggg tggttttatg gtagaagacc aacgcacaca taaaagtcac 181 aactacatga tgaaaagagc aagaaatgac gttttgggag ataaagaaaa cgtcaggccg 241 aatccttact acacggagcc ttttgaccca gacacgagcc cagaagaatt gtccgcttta 301 atagttgatt acgccaatat gattaggaac gatgttattc tgttggataa ttccgttgaa 361 acgagaactc gaaaaagggg aaacattcaa gttgaaaacc aagctattcc ggatccacct 421 tgcacttgca aatacaagaa agaaatagaa gacttgggcg aaaactctgt tccacgcttc 481 attgaaacca gaaactgtaa taaaacacaa cagccgactt gtcgaccccc ctacatttgc 541 aaagaaagtt tatacagtat aactatttta aaaagaaggg aaactaaatc gcaggagtct 601 ctcgagatac cgaatgaatt gaaatatcga tgggtggcgg aatctcaccc cgtcagcgtg 661 gcgtgtttgt gtacaagaga ctaccaacta cgatataata ataattaatt gttttgactt 721 acgcctgatg atttgttccg aatcgaattt atttaattac tttatacaat aaagcttata 781 ttaaaaatta atgataatca attttaatta aaccaaattg aaaaaaataa aaatttcctc 841 cgattttttg tttttagtgg tggtacattc agcgaagcac tgttttgcta ggccagatgt 901 tagtagatca atacagtttt gatgcttacc ttgaaagctg tgctcttatt atactattca 961 aataagatta tatagttaaa tatattatgt atatctatta aatattaaaa gacacaattt 1021 aaa // LOCUS BMOPTTHP4 944 bp ss-mRNA INV 08-JUN-1990 DEFINITION B.mori preproPTTH mRNA. ACCESSION D90083 KEYWORDS PTTH; preproPTTH. SOURCE B.mori (Kinshu X Showa strain) 5th instar larva brain, cDNA to mRNA, clone P4 and C21. ORGANISM Bombyx mori Eukaryota; Animalia; Metazoa; Arthropoda; Uniramia; Insecta; Pterygota; Neoptera; Holometabola; Lepidoptera; Ditrysia; Bombycoidea; Bombycidae. REFERENCE 1 (bases 1 to 944) AUTHORS Kawakami,A., Kataoka,H., Oka,T., Mizoguchi,A., Kimura-Kawakami,M., Adachi,T., Iwami,M., Nagasawa,H., Suzuki,A. and Ishizaki,H. TITLE Molecular cloning of the Bombyx mori prothoracicotropic hormone JOURNAL Science 247, 1333-1335 (1990) STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Hironori Ishizaki Department of Biology, School of Science, Nagoya University Chikusa-ku Nagoya 464-01 Japan Phone: 052-781-5111 x2472 Fax: 052-783-0719 Telex: SCUNAG J: 447-7323 FEATURES from to/span description pept < 1 631 preproPTTH matp 302 631 PTTH subunit signal 691 696 polyadenylation signal signal 749 754 polyadenylation signal signal 918 923 polyadenylation signal signal 925 930 polyadenylation signal BASE COUNT 337 a 163 c 177 g 267 t ORIGIN 1 tcttatgata gtgcagtcat tcgtgcctaa agcggtagcg ctgaaaagaa aaccagacgt 61 gggtggtttt atggtagaag accaacgcac acataaaagt cacaactaca tgatgaaaag 121 agcaagaaat gacgttttgg gagataaaga aaacgtcagg ccgaatcctt actacacgga 181 gccttttgac ccagacacga gcccagaaga attgtccgct ttaatagttg attacgccaa 241 tatgattagg aatgatgtta ttctgttgga taattccgtt gaaacgagaa cgcgaaaaag 301 gggaaacatt caagttgaaa accaagctat tccggaccca ccttgcactt gcaaatacaa 361 gaaagaaata gaagacttgg gcgaaaactc tgttccacgc ttcattgaaa ccagaaactg 421 taataaaaca caacagccga cctgtcgacc cccctacatt tgcaaagaaa gtttatacag 481 tataactatt ttaaaaagaa gggaaactaa atcgcaggag tctctcgaga taccgaatga 541 attgaaatat cgatgggtgg cggaatctca ccccgtcagc gtggcgtgtt tgtgtaccag 601 agactaccaa ctacgatata ataataatta attgttttga ctcacgcctg atgatttgtt 661 ccgaatcgaa tttatttaat tactttatac aataaagctt atattaaaaa ttaatgataa 721 tcaattttaa ttaaaccaaa ttgaaaaaaa taaaaatttc ctcagatttt tggtttttag 781 tgctggtaca ttcagggaag tactgttttg ctaggccaga tgttagtaga tcaatagagt 841 ttttatgctt gccttgaaag ctgtgctctt attatattat gctattcaaa taagattata 901 tagttaaata tatatctatt aaatattaaa agacacaatt taaa // LOCUS HUMMTSDHB 958 bp ss-mRNA ORG 08-JUN-1990 DEFINITION Human mitochondrial succinate-ubiquinone oxidoreductase (EC 1.3.99.1) iron sulfur subunit (sdh B) mRNA. ACCESSION D90047 KEYWORDS Ip; complex II; iron sulfur subunit; sdh B; succinate-ubiquinone oxidoreductase. SOURCE Human liver mitochondrion, cDNA to mRNA. ORGANISM Mitochondrion Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae; Homo sapiens. REFERENCE 1 (bases 1 to 958) AUTHORS Kita,K., Oya,H., Gennis,R.B., Ackrell,B.A.C. and Kasahara,M. TITLE Human complex II(succinate-ubiquinone oxidoreductase): cDNA cloning of iron sulfur(Ip) subunit of liver mitochondria JOURNAL Biochem. Biophys. Res. Commun. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Kiyoshi Kita Department of Parasitology Juntendo University 2-1-1,Hongo Bunkyo-ku, Tokyo 113 Japan Phone: 03-813-3111 x3542 Fax: 03-814-9300 FEATURES from to/span description pept < 1 789 succinate-ubiquinone oxidoreductase (sdh B) (AA at 1) site 74 95 iron-sulfur binding site I site 167 179 iron-sulfur binding site II site 224 236 iron-sulfur binding site III BASE COUNT 319 a 212 c 204 g 223 t ORIGIN 1 tggcggacgt gcctgcaggc ctcccgagga gcccagacag ctgcagccac agctccccgt 61 atcaagaaat ttgccatcta tcgatgggac ccagacaagg ctggagacaa acctcatatg 121 cagacttata aggttgacct taataaatgt ggccccatgg tattggatgc tttaatcaag 181 attaagaatg aagttgactc tactttgacc ttccgaagat catgcagaga aggcatctgt 241 ggctcttgtg caatgaacat caatggaggc aacactctag cttgcacccg aaggattgac 301 accaacctca ataaggtctc aaaaatctac cctcttccac acatgtatgt gataaaggat 361 cttgttcccg atttgagcaa cttctatgca cagtacaaat ccattgagcc ttatttgaag 421 aagaaggatg aatctcagga aggcaagcag cagtatctgc agtccataga agagcgtgag 481 aaactggacg ggctctacga gtgcattctc tgtgcctgct gtagcaccag ctgccccagc 541 tactggtgga acggagacaa atatctgggg cctgcagttc ttatgcaggc ctatcgctgg 601 atgattgact ccagagatga cttcacagag gagcgcctgg ccaagctgca ggacccattc 661 tctctatacc gctgccacac catcatgaac tgcacaagga cctgtcctaa gggtctgaat 721 ccagggaaag ctattgcaga gatcaagaaa atgatggcaa cctataagga gaagaaagct 781 tcagtttaac tgtttccatg ctaaacatga tttataacca gctcagagct gaacataatt 841 tatatctaat ttgagttcct ttaaagatct tggttttcca tgaatacagc atgtataata 901 aaaattttaa gaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaaaa aaaaaaaa // LOCUS HUMNCAW 2287 bp ss-mRNA PRI 08-JUN-1990 DEFINITION Human nonspecific cross-reacting antigen (NCA-W272) mRNA. ACCESSION D90064 KEYWORDS CEA; CEA gene family; PI-anchored membrane protein. SOURCE Human white blood cells, cDNA to mRNA. ORGANISM Homo sapiens Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Primates; Haplorhini; Catarrhini; Hominidae. REFERENCE 1 (bases 1 to 2287) AUTHORS Arakawa,F., Kuroki,M., Misumi,Y., Oikawa,S., Nakazato,H. and Matsuoka,Y. TITLE Characterization of a cDNA clone encoding a new species of the nonspecific cross-reacting antigen (NCA), a member of the CEA gene family JOURNAL Biochem. Biophys. Res. Commun. 166, 1063-1071 (1990) STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Fumiko Arakawa First Department of Biochemistry School of Medicine Fukuoka University 7-45-1 Nanakuma Jonan-ku Fukuoka 814-01 Japan Phone: 092-801-1011 x2892 Fax: 092-801-3600 FEATURES from to/span description ORF 87 1136 nonspecific cross-reacting antigen ORF BASE COUNT 618 a 593 c 453 g 623 t ORIGIN 1 ggacagcaca gctgacagcc gtgctcagaa agtttctgga tcccaggctc atctccacag 61 aggagaacac gcaggcagca gagaccatgg ggcccatctc agccccttcc tgcagatggc 121 gcatcccctg gcaggggctc ctgctcacag cctcactttt caccttctgg aacccgccca 181 ccactgctca gctcactatt gaagctgtgc catccaatgc tgcagagggg aaggaggttc 241 ttctacttgt ccacaatctg ccccaggacc ctcgtggcta caactggtac aaaggggaaa 301 cagtggatgc caaccgtcga attataggat atgtaatatc aaatcaacag attaccccag 361 ggcctgcata cagcaatcga gagacaatat accccaatgc atccctgctg atgcggaacg 421 tcaccagaaa tgacacagga tcctacaccc tacaagtcat aaagctaaat cttatgagtg 481 aagaagtaac tggccagttc agcgtacatc cggagactcc caagccctcc atctccagca 541 acaactccaa ccccgtggag gacaaggatg ctgtggcctt cacctgtgaa cctgagactc 601 agaacacaac ctacctgtgg tgggtaaatg gtcagagtct cccggtcagt cccaggctgc 661 agctgtccaa tggcaacagg accctcactc tactcagtgt cacaaggaat gacgtaggac 721 cctatgaatg tgaaatacag aacccagcga gtgcaaactt cagtgaccca gtcaccctga 781 atgtcctcta tggcccagat gcccccacca tttccccttc agacacctat taccatgcag 841 gggtaaatct caacctctcc tgccatgcgg cctctaatcc accctcacag tattcttggt 901 ctgtcaatgg cacattccag caatacacac aaaagctctt tatccccaac atcactacaa 961 agaacagcgg atcctatgcc tgccacacca ctaactcagc cactggccgc aacaggacca 1021 cagtcaggat gatcacagtc tctgatgctg tagtacaagg aagttctcct ggcctctcag 1081 ctagagccac tgtcagcatc atgattggag tactggccag ggtggctctg atatagtagc 1141 tctggtgtag tttctgcatt tcaagaagac tggcagacag ttgtttttat tcttcctcaa 1201 agcatttgca atcagctacc attcaaaatt gcttcttctt caagatttat ggaaaatact 1261 ctgacgagta ctcttgaaca caagttcctg ataactttaa gatcacgcca ctggactgtc 1321 tatgaacttg caaacaggct gatacctttg tgaagttgcc caccaaaaca cagaaggaaa 1381 aaaacatgaa tttcattgaa ctaaataata atgaggataa tgtttttaag attttttttt 1441 tttttttttt tgagatggaa tctcgctctg tcgcccaggc tggagtgcag tggcacgatc 1501 tcaactcact gcaacgtccg cctcctgggt tcacaccatt ctcctgcctc agcctcctga 1561 gtagctggga ctacaggcgc ctgccacaac gcccggctaa ttttttgtat ttttagtaga 1621 gacggggttt cactgtggtc tcaatctcct gacttcatgg tccgcctgcc tcagcctccc 1681 aaagttctgg gattacaggt gtgagccacc gcgcccagcc cgtttttaag attttttatt 1741 tgaaaaattg ccaattcttt aagtgttttc tttttcagat ttatgaattt ctttatcttt 1801 taagctatct ataccttact gcaatttggt aaagcagact tttgtgaaca aaaattataa 1861 catttacttt tgctccctac ctgactgcca cagaactggg caactattca tgagtattca 1921 tatgtttatg gtaattcagt tatttgcaca agttcagtga gaatctgctg tctttataat 1981 gggatatagt ttaaaacatt ggttatatta ccaaggcttt gattgggatg ttatatttga 2041 gaaaatacag agaatgatag attaacggag tgtctaatct atcgtgtcaa ccccaaattt 2101 ttacgtatga gatcctttag tccacccaat ggctgacagt aacagcatct ttaacacaac 2161 tctttgttca aatgtactat ggtctctttt agagtcagac tcctagactc acttgttctc 2221 actgtctgtt ttaatttaac ccaggcatgc aatgctagat aataaaattg ctccctattg 2281 gctgatc // LOCUS PIGDESTN 1681 bp ss-mRNA MAM 08-JUN-1990 DEFINITION Porcine destrin mRNA. ACCESSION D90053 J05290 KEYWORDS actin-binding protein; cofilin; destrin. SOURCE Pig adult brain, cDNA to mRNA, clone PD2. ORGANISM Sus scrofa Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Artiodactyla; Suiformes; Suidae. REFERENCE 1 (bases 1 to 1681) AUTHORS Moriyama,K., Nishida,E., Yonezawa,N., Sakai,H., Matsumoto,S., Iida,K. and Yahara,I. TITLE Destrin, a mammalian Actin-Depolymerizing Protein, Is Closely Related to Cofilin --Cloning and Expression of Porcine Brain Destrin cDNA JOURNAL J. Biol. Chem. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Kenji Moriyama Department of Biophysics and Biochemistry Faculty of Science University of Tokyo 7-3-1 Hongo Bunkyoku Tokyo 113 Japan Phone: 03-821-2111 x4408 FEATURES from to/span description pept 54 551 destrin signal 1645 1660 polyadenylation signal BASE COUNT 507 a 322 c 372 g 480 t ORIGIN 1 actcggctcc ggccggctcg gtctcccgcg cttctgcgac cgccgaggcg aacatggctt 61 caggagtgca agttgctgat gaagtatgtc gcatttttta tgacatgaaa gttcggaagt 121 gctccacacc agaagaaatc aagaaaagaa agaaggctgt cattttttgt ctcagtgcag 181 acaaaaagtg catcattgta gaagaaggca aagagatctt agttggagat gttggtgtaa 241 ccataaccga tcctttcaag catttcgtgg ggatgcttcc tgagaaagat tgtcgctatg 301 ctttgtatga tgcaagcttt gaaaccaagg aatccagaaa agaggagttg atgttttttc 361 tgtgggcacc agaactagca cctctgaaaa gtaaaatgat ctatgccagc tccaaggacg 421 caatcaaaaa gaaatttcaa ggcataaaac atgaatgtca agcaaatggg ccagaagacc 481 tcaatcgggc ttgtattgct gaaaagctag gtggatcctt aattgtagcc tttgaaggat 541 gccctgtgta gatgatcatt cagtgccaca gatcgaaagc ttccgtgttc aatgttatcc 601 tcttgctata taagtaaagc aaacactgag gccagggact cactgagggg agctgtcttg 661 tcatttgtta gagtaaacta actattctat gaacatgtgc acatggccct aaatcaatct 721 aaactctact ttttttgggg gtgtgtgtga aagtcttatt ggccaaaata tctattttga 781 tgagtctgct tgtagagatt tttgttaagc tcatgatttt taatcgtttc aacgtgtggt 841 tcattaaaca atgcaaggcc agatgaagag aattattgca tctttgttaa cttcagcagt 901 tactttgttt cttttgctta gagaattggt cataatcagt tatattggtc atataatttt 961 ggcccaaatt cttgagtctc tgctgagcta acctgaataa tggaaaataa ttctactcac 1021 aacaggtaac agcactaata tgctaactac agtaagatta aatcaggcca gattctacca 1081 gacgtggata ctgcctccaa aactgtgtgc acttagaacc agcgctgagc ttgcaaagca 1141 ctatttcaag cacgtagttg aaacacagca aacagctcct gcacttgaag tgagctgctt 1201 gctcactagt cagaaggctg tacagagagt gaccttgcat cttggaaatc agaacatgta 1261 ctgtcttgta ccaactaatt agagtacaaa ttagggctcc gttgtaatat gctttattag 1321 tggaaatggt aagatggtat atcaacaagc tgggtaccta tgctatcttt aatttatctc 1381 ctttggaact gtgttgcttc tggtacagta aggtgtagaa gaacattctg tttactctgg 1441 ggcctgggag aacctcttta ccttcctaga gcagtttgcc gactgtatgt gatacgggga 1501 ccagctatga cggcagcatc cacaggaagc cactgcctga tgacacttgg aagtgattgt 1561 ctttaacatc acaggcataa cactctgaac agtatagaga tgcaccaaca gttgaattta 1621 gaagtagcag tactggcttt acgtaataaa ggaaccattt taacttaaaa aaaaaaaaaa 1681 a // LOCUS RATPMP70X 3324 bp ss-mRNA ROD 08-JUN-1990 DEFINITION Rat liver 70-kDa peroxisomal membrane protein (PMP70) mRNA. ACCESSION D90038 J05256 KEYWORDS PMP70; peroxisomal membrane protein. SOURCE Rat(Wistar) liver, cDNA to mRNA, clones lambda-cPM[36,102,156,181, 189,201]. ORGANISM Rattus norvegicus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 3324) AUTHORS Kamijo,K., Taketani,S., Yokota,S., Osumi,T. and Hashimoto,T. TITLE The 70-kDa Peroxisomal Membrane Protein Is a Member of the Mdr(P-Glycoprotein)-Related ATP-binding Protein Superfamily JOURNAL J. Biol. Chem. (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Keiju Kamijo Department of Biochemistry Shinshu University School of Medicine Matsumoto 390 Japan Phone: 263-35-4600 x5182 Fax: 263-33-6458 FEATURES from to/span description pept 36 2015 peroxisomal membrane protein (PMP70) signal 3271 3276 polyadenylation signal (put.) BASE COUNT 921 a 658 c 773 g 972 t ORIGIN 1 gaattccagt gcggctcgct cgccctgccg gtgccatggc ggccttcagc aagtacttga 61 cggcgcggaa ctcctcgctg gcgggggccg cgttcctgct gttctgcctg ctccacaagc 121 ggcgtcgcgc cctcggcctg cacggtaaga aaagtggaaa accgccatta cagaataatg 181 agaaagaagg aaagaaagag cgagctgtgg tggacaaagt gtttttatca aggctctcac 241 agatcctaaa aattatggtc cctagaacat tttgtaaaga gacagggtac ttgatactta 301 ttgctgttat gctggtatct cgaacatact gtgatgtttg gatgattcaa aatggcacac 361 tgattgaaag tggcatcatt ggtcgtagca gtaaagattt caagagatac ttattcaact 421 tcatcgctgc catgcctctt atctctctgg ttaataactt cttgaagtat gggttaaatg 481 agctcaaact gtgcttccgt gtgcggctca ctagatacct ctatgaggag tatctccaag 541 ccttcaccta ctataaaatg ggcaacctgg ataacagaat agcaaaccca gaccagctgc 601 ttacacaaga tgtagaaaag ttttgtaaca gtgtagttga tctttattcg aatcttagta 661 agccattttt agacatagtt ttgtatattt tcaagttaac aagtgcaatt ggagctcagg 721 gcccggcaag catgatggcc tacttgcttg tttctgggct attcctaact cgactcagaa 781 gacccatcgg taaaatgacg attatggagc agaagtatga aggagaatat agattcgtta 841 attcacggct tatcactaat agtgaagaaa ttgcctttta caatgggaat aaacgagaaa 901 agcagacaat ccactctgtc ttccgaaaac tggtggaaca cctacataat ttcattttct 961 tccggttttc tatgggtttc attgatagca tcattgccaa atatattgcc actgtagttg 1021 ggtacctggt tgtcagtcgc ccgttcctag acctggcgca tccgcgacac cttcacagca 1081 cccactcaga gctgctggag gattactacc aaagtggaag aatgcttttg agaatgtctc 1141 aagctttggg gcggatagtt ttggctgggc gtgaaatgac tagattggct ggttttacgg 1201 ctcggattac ggaattaatg caagtactaa aggatttaaa tcatggcaaa tatgaacgta 1261 caatggtgtc acaacaggat aagggtattg aaggagcaca agctagtccc ttgatacctg 1321 gtgctggaga aatcatcaat gcagacaaca ttataaagtt tgatcatgtt cctttagcaa 1381 caccaaatgg agatatcttg atccaagacc ttagttttga agttcgatct ggggccaacg 1441 ttctcatttg tggtccaaat ggctgtggaa agagctccct cttccgtgtt cttggtgaat 1501 tatggcctct ctttggagga catcttacta aacctgagag aggaaagtta ttttatgttc 1561 ctcagcgacc ctatatgacc ctgggaacac tgagagacca agtaatatat ccagatggaa 1621 aggaggatca gaagaagaag gggatatctg accaagtgct gaaggggtac ttggacaatg 1681 tacagttggg ccatatcctt gagcgggaag gaggctggga cagtgttcag gactggatgg 1741 atgtactcag cggaggagaa aaacaaagaa tggcgatggc aagattgttt tatcataaac 1801 cccagtttgc cattctggat gagtgcacaa gtgcagttag tgtggatgtg gaagactaca 1861 tttacagcca ctgtcggaag gttggcatca ccctcttcac tgtctcacac aggaaatccc 1921 tttggaaaca ccacgagtac tacctgcaca tggatggcag aggcaattat gaattcaaaa 1981 agatcacaga agacacagtt gagttcggat catagagacc atctggagaa cttcacactt 2041 cacaagagaa tgaatgaaca gaatgcattt gtaaacaacg tgcattgtaa aataaagtta 2101 agcttgtttt ttttaaaaaa acaaagctac aaattgacta gatataggat aattgaaaca 2161 tgttaaaaca tttaatattg tataggatat tgctaattgt gtatatgttg gtttaattat 2221 taattatgta ctaagaatgt ccttattctt gtggttaaaa aacctgcctg aattaaattg 2281 ggcttaaatc agtgtaacct gattcatggg atgtaaacca tttgaagtca gctaatttga 2341 cttttatagc tctgtctttt tctttaatga agaaccctat ttaaaactgg gtcattagct 2401 gtttattcta acaaagtagt cttgagttcc tttttgggtt tttttttttt tttttttttt 2461 tttttttttg tgccccatgg tagtgggaac caaaccaatc acaatgtttt attggaacat 2521 attccatcat cacaggatag catttattaa acagtggcgg atttctctag ctgctacatt 2581 tattctcatt cctcatacat accttgaggt gcatttgatt ccaggagagc catttgggtt 2641 ttctttagct aaataataaa tgtacccgtc tcagtctttt ggactgagtc gttctgaagg 2701 ctctcgtgtg gacagcagtg tgtgcagtct cttacagtcc gtgcctgctc cacatggtac 2761 cagtcttacc agtgcttgag agctcagaca caccctgctg catgaagttg gaggtctcgg 2821 gagggtttta gattttgtga cgggaaccgg aaaggctcgt cagagtgtgg ctgtgtcatg 2881 gtgagcacca cgtggctgta gaggcccgac atgaggtaat gcactgagca cacaacgcca 2941 ctgctgctgt ctgtggctgt gggttcttaa aagtgctgga ctttgtcatg ctcgtgggcc 3001 aatgacattt cctaggagcg gcctctgact cctgtgcagc tgcgtctgtg tcagctctgg 3061 ctccctggaa ccacgagtga ctttgcacaa aggagggctg agagcggact tgatcagtaa 3121 gtcgtcgtga atcagtttgc ttgagtgggc tcggaatggg ccttatcacg atggttttgt 3181 ttcttcgtaa ctcataatca ctggctacca ggataaccct gatgtattga ttccgtgaat 3241 acatcacatt caatcttacc atgtctcctt agcaaacgtg tgtacttatt ttctgttcag 3301 attaaaaaaa aaaaaaagga attc // LOCUS VACSANT 1525 bp ds-DNA VRL 08-JUN-1990 DEFINITION Vaccinia virus surface (S) antigen gene. ACCESSION D90076 KEYWORDS S gene; surface antigen. SOURCE Vaccinia virus DNA. ORGANISM Vaccinia virus Viridae; ds-DNA enveloped viruses; Poxviridae; Orthopoxvirus. REFERENCE 1 (bases 1 to 1525) AUTHORS Ueda,Y., Morikawa,S. and Matsuura,Y. TITLE Identification and nucleotide sequence of the gene encoding a surface antigen induced by vaccinia virus JOURNAL Virology (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Yoshiaki Ueda National Institute of Health Gakuen, Musashimurayama Tokyo 190-12 Japan Phone: 0425-61-0771 Fax: 0425-65-3315 FEATURES from to/span description pept 382 1437 surface antigen S BASE COUNT 568 a 229 c 258 g 470 t ORIGIN 1 tctagacact acactatatg cagttttaag atgccataat tcgaaaaagt taagaagata 61 cctcaacgag ttaaaaaaat ataataacga taagtccttt aaaatatatt ctaatattat 121 gaatgagaga taccttaatg tatattataa agatatgtac gtgtcaaagg tatatgataa 181 actatttcct gttttcacag ataaaaattg tctactaaca ttactacctt cagaaattat 241 atacgaaata ttatacatgc tgacaattaa cgatctttat aatatatcgt atccacctac 301 caaagtatag ttgtattttt ctcatgcgat gtgtgtaaaa aaactgatat tatataaata 361 ttttagtgcc gtataataaa gatgacgatg aaaatgatgg tacatatata tttcgtatca 421 ttattgttat tgctattcca cagttacgcc atagacatcg aaaatgaaat cacagaattc 481 ttcaataaaa tgagagatac tctaccagct aaagactcta aatggttgaa tccagcatgt 541 atgttcggag gcacaatgaa tgatatagcc gctctaggag agccattcag cgcaaagtgt 601 cctcctattg aagacagtct tttatcgcac agatataaag actatgtggt taaatgggaa 661 aggctagaaa aaaatagacg gcgacaggtt tctaataaac gtgttaaaca tggtgattta 721 tggatagcca actatacatc taaattcagt aaccgtaggt atttgtgtac cgtaactaca 781 aagaatggtg actgtgttca gggtatagtt agatctcata ttaaaaaacc tccttcatgc 841 attccaaaaa catatgaact aggtactcat gataagtatg gcatagactt atactgtgga 901 attctttacg caaaacatta taataatata acttggtata aagataataa ggaaattaat 961 atcgacgata ttaagtattc acaaacggga aagaaattaa ttattcataa tccagagtta 1021 gaagatagtg gaagatacaa ctgttacgtt cattacgacg acgttagaat caagaatgat 1081 atcgtagtat caagatgtaa aatacttacg gttataccgt cgcaagacca caggtttaaa 1141 ctaatactag atccaaaaat caacgtaacg ataggagaac ctgccaatat aacatgcact 1201 gctgtgtcaa cgtcattatt gattgacgat gtactgattg aatgggaaaa tccatccgga 1261 tggcttatag gattcgattt tgatgtatac tctgttttaa ctagtagagg cggtatcacc 1321 gaggcgacct tgtactttga aaatgttact gaagaatata taggtaatac atataaatgt 1381 cgtggacaca actattattt tgaaaaaacc cttacaacta cagtagtatt ggagtaaata 1441 cacaatgcat ttttatatac attactgaat aattattatt attatttata tcgtatttgt 1501 gctatagaat gaatgaggat acgcg // LOCUS YSCA1 881 bp ds-DNA PLN 08-JUN-1990 DEFINITION S. cerevisiae acidic ribosomal protein A1 (YSCA1). ACCESSION D90072 X13682 KEYWORDS acidic ribosomal protein; ribosomal protein. SOURCE S. cerevisiae (strain IFO-40028) DNA. ORGANISM Saccharomyces cerevisiae Eukaryota; Plantae; Thallobionta; Eumycota; Hemiascomycetes; Endomycetales; Saccharomycetaceae. REFERENCE 1 (bases 1 to 881) AUTHORS Mitsui,K. and Tsurugi,K. TITLE Identification of A1 protein as the fourth member of 13 kDa-type acidic ribosomal protein family in yeast Saccharomyces cerevisiae JOURNAL Unpublished (1990) STANDARD full staff_entry REFERENCE 2 (bases 1 to 315; 631 to 881) AUTHORS Mitsui,K. and Tsurugi,K. TITLE Identification of A1 protein as the fourth member of 13 kDa-type acidic ribosomal protein family in yeast Saccharomyces cerevisiae JOURNAL Biochem. Biophys. Res. Commun. 161, 1001-1006 (1989) STANDARD full staff_entry REFERENCE 3 (bases 277 to 742) AUTHORS Tsurugi,K. and Mitsui,K. TITLE cDNA and deduced amino acid sequence of acidic ribosomal protein A1 from Saccharomyces cerevisiae JOURNAL Nucleic Acids Res. 16, 3574-3574 (1988) STANDARD simple automatic COMMENT These data kindly submitted in computer readable form by: Kazuhiro Mitsui Department of Biochemistry Yamanashi Medical college Tamaho, Nakakoma-gun Yamanashi 409-38 Japan Phone: 0552-73-1111 x2257 FEATURES from to/span description pept 313 633 acidic ribosomal protein A1 signal 125 135 UASrpg box1 signal 182 192 UASrpg box2 signal 716 721 poly(A) signal variant 303 303 a in [1]; g in [3] variant 684 685 tt in [1]; t in [3] variant 719 719 a in [1]; t in [3] BASE COUNT 270 a 165 c 157 g 289 t ORIGIN 1 gatcttatta aactctagta tcttgtctaa tacttcattt aaaagaagcc ttaaccctgt 61 agcctcatct atgtctgcta catatcgtga ggtacgaata tcgtaagatg ataccacgca 121 actttgtaat gatttttttt ttttcatttt ttaaagaatg cctttacatg gtattgaaaa 181 aaatatctat aactttgcga tcctccttct gttctgaata atttttagta aaagaaatca 241 aaagaataag aaatagtccg ctttgtccaa tacaacagct taaaccgatt atctctaaaa 301 taacaagaag aaatgtctac tgaatccgct ttgtcttacg ccgccttgat tttggctgac 361 tctgaaatcg aaatctcttc tgaaaagttg ttgactttga ctaacgctgc caatgtccca 421 gatgaaaata tctgggctga tatttttgct aaggctttgg acggccaaaa cttgaaggac 481 ttattggtca acttcagcgc tggtgctgct gccccagctg gtgtcgctgg tggtgtcgct 541 ggtggtgaag ccggtgaagc cgaagctgaa aaggaagaag aagaagctaa agaagaatcc 601 gatgacgaca tgggtttcgg tttatttgat tagaagtgcc gcactgttta gaagaaattg 661 catattctaa catttaaaat tttttataat ttttctatat agtcgctttt aatacaataa 721 gacagtactt tctttttgtt caataccatc tttcgcatct cttctatgct atatataatg 781 ccacgttgtg ctcgaaggaa aagcctgcaa acctgactac tactaataca ataatgttcc 841 atcatatcaa gaaaactgcg ctaacttgta aaaatactgt c // LOCUS YSCCDC23X 3107 bp ds-DNA PLN 08-JUN-1990 DEFINITION S. cerevisiae CDC23 protein gene. ACCESSION D90081 KEYWORDS CDC23 protein. SOURCE Saccharomyces cerevisiae (strain X2180-1A or X2180-1B; cell line D22) DNA, clone YX34. ORGANISM Saccharomyces cerevisiae Eukaryota; Plantae; Thallobionta; Eumycota; Hemiascomycetes; Endomycetales; Saccharomycetaceae. REFERENCE 1 (bases 1 to 3107) AUTHORS Doi,A. and Doi,K. TITLE Cloning and nucleotide sequence of the CDC23 gene of Saccharomyces cerevisiae JOURNAL Gene (1990) In press STANDARD full staff_entry COMMENT These data kindly submitted in computer readable form by: Kenji Doi The Institute of Scientific and Industrial Research Osaka University 8-1 Mihogaoka Ibaraki Osaka 567 Japan Phone: 06-877-5111 Fax: 06-877-4977 FEATURES from to/span description ORF 765 2645 ORF for CDC23 site 153 161 calcium-binding site BASE COUNT 1010 a 595 c 629 g 873 t ORIGIN 1 tcgagaatac cctgaagttt ctcagatgga acccatttat ccatttcata cactgtcact 61 gatggatcag acacttccac ctgctttgct aaatcaacag aaagtcgctt cagtaaattt 121 atgtacctta aagtatccct attcaaatgt tcgaaagtag aatagtactc gctaatactc 181 ttaggattct gtactcccgc tgcaacgtcc cttccagttt ttgtatcctc caaaagctgt 241 gcttctcttg tttgatattt atcgtatcgc aggcggatgg aactatttat cagctccctg 301 tgtaaatcag gcaacttctt gagggattca gtaagcagat catcagatga tctagggtct 361 gccaatactg ataatatatc taaaatattt aataagtggg tttggctttc ctgcaaactt 421 tgttcctcct cgcagagaga ttcaaaatac gtacgacctt cttcctttgt catgctatga 481 acttgataac ttgagcagtg taaacctgat aaactagtcg ctgttgtttc ttactgtaag 541 atactgcact tctgcagctt cttaagtatt ctacttacca agtttctatt atttttcaat 601 gcgcgtacat aaaaagcact tcgggtaaaa caaacacttc ataatagcag accaagtact 661 gcggtactca catcaaatta agaggaagaa gggagtatta gcgagcggaa aactgaaatc 721 tggatatata ctgatcagaa tcagattgtg aagcatttag aaccatgaat gacgacagcc 781 aggataaaat aatacatgat atacgtattc agctacgaaa ggctgccaca gaattatcac 841 gatggaagct atacggctcc tcaaagtggg cagcagaggc gctagcaggt cttgcagaag 901 ctattgatgt tgatcaaaca cactctttag ccgatgaatc gccactaaga aataaacaag 961 gtgtaccgaa acagatgttt gaaataccac aaaacgggtt tggcctatca gagactgagt 1021 atgacctgta cctccttggt tctacgttgt ttgatgctaa agagtttgat cgatgcgttt 1081 tttttctaaa agatgtcact aatccatacc ttaagttctt aaaattatac agtaaatttc 1141 tatcgtggga taagaaaagc caggaaagta tggaaaatat cttaactaca gggaagttta 1201 cggacgaaat gtacagagct aacaaagatg gggatggtag tgggaatgag gatataaatc 1261 aaagtgggca ccaacgcgcc aatttaaaaa tggtcagcaa tgagcatgag tcacaatcga 1321 acatatcatc tattttgaag gaaattaaca catttctgga gtcttatgaa ataaagatag 1381 acgatgatga ggccgattta gggttagcac tgttgtatta tttacgaggg gtcatcttaa 1441 agcaagagaa gaatatttct aaggcaatgt cgtcattctt gaaatctctg agttgctact 1501 cctttaactg gtcctgctgg ctggagttaa tggactgttt acaaaaggtt gacgatgcat 1561 tgcttttaaa taattatcta tatcaaaatt tccaattcaa attttctgaa aatcttggta 1621 gtcaacgaac gatagaattt aatataatga tcaaattttt caagctaaaa gtgtttgagg 1681 agcttaatgg ccagttagag gactactttg aagatttaga gtttttgtta caagttttcc 1741 ccaatttcac ttttttaaag gcttacaatg ctactattag ttacaacaat ttggattatg 1801 ttaccgcaga aagccgattt gatgacatcg ttaaacaaga tccgtaccgt ctcaacgatt 1861 tggaaaccta ctccaatatt ctatacgtca tgcagaagaa ttcaaaatta gcctatttgg 1921 cgcaattcgt ctcccaaata gatagattta gaccggaaac atgttgtatc atagcgaact 1981 attacagtgc ccgacaggaa catgaaaaat ctatcatgta tttccgtcga gcactaactt 2041 tggataaaaa aacaacaaac gcatggactt tgatgggtca cgaatttgtt gaactaagca 2101 attcacatgc cgcaatagaa tgctatcgtc gggccgtaga tatatgccct cgagacttca 2161 aagcatggtt tggtttgggc caggcttatg ctctcctgga catgcattta tattctcttt 2221 actacttcca gaaagcttgc actttgaaac cttgggatcg tcggatttgg caagtattgg 2281 gagaatgtta tagtaagacg ggaaataagg tagaagctat aaaatgctac aaaagatcca 2341 taaaagcttc acaaacggtc gatcaaaata cttcaatata ttaccggtta gcgcaactat 2401 atgaagaact tgaagacttg caagaatgta agaagttcat gatgaaatgt gtagatgtgg 2461 aagaacttct ggaaggtata gtaacagatg aaaccgtgaa ggctaggctt tggctggcaa 2521 tatttgagat taaggcagga aactaccaat tggcttatga ttatgccatg ggggtatcta 2581 gtggaacgtc tcaagagatt gaagaggctc gtatgctggc tcgggagtgc agaaggcata 2641 tgtagtgaag tgaacataca catagctatt cgtactaaat gatatgaaat ttttataaat 2701 gccaggctat atagctattt aaagtgacca tggcagaagg atgaaccgag gtaatacggc 2761 tagtacaaaa gcaacaaagt taggaataca atttgagaaa cgaagaccat agaaaatact 2821 tgtgcgattg aacttccttc caaaaaaaaa atagcgtcaa agaaagatga gtggactacc 2881 gcccccacct cctggttttg aagaggacag cgacttagca cttccaccac caccaccacc 2941 accgcctgga tacgaaatcg aagaactgga taatccgatg gtgccatcat cggtaaatga 3001 ggatacattc cttccgcctc caccacctcc tccaagcaac ttcgaaataa acgctgaaga 3061 aattgtggac ttcacattac caccgccacc accccctcca ggtctag // LOCUS RATLIPAA 3225 bp ss-mRNA ROD 08-JUN-1990 DEFINITION Rat mRNA for hormone sensitive lipase. ACCESSION X51415 J03087 KEYWORDS hormone sensitive lipase; lipase. SOURCE Rat adipose tissue cDNA to mRNA. ORGANISM Rattus sp. Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Muridae; Murinae. REFERENCE 1 (bases 1 to 3225) AUTHORS Holm,C., Kirchgessner,T.G., Svenson,K.L., Lusis,A.J., Belfrage,P. and Schotz,M.C. TITLE Nucleotide sequence of rat adipose hormone sensitive lipase cDNA JOURNAL Nucleic Acids Res. 16, 9879-9879 (1988) STANDARD full staff_entry REFERENCE 2 (sites; for [1]) AUTHORS Holm,C., Kirchgessner,T.G., Svenson,K.L., Fredrikson,G., Nilsson,S., Miller,C.G., Shively,J.E., Heinzmann,C., Sparkes,R.S., Mohandas,T., Lusis,A.J., Belfrage,P. and Schotz,M.C. TITLE Hormone-sensitive libase: Sequence, expression, and chromosomal localization to 19 cent-q13.3 JOURNAL Science 241, 1503-1506 (1988) STANDARD full staff_entry FEATURES from to/span description pept 616 2889 hormone sensitive lipase signal 3209 3214 polyA signal (put.) signal 3225 3225 polyA signal BASE COUNT 701 a 952 c 916 g 656 t ORIGIN 1 gaagaaactc gtaatggggc ttgagtgtgt gggtaaggaa gggaactgct gagcgtccag 61 atttcccaga acaagaagga caagtccaaa gacaataaac aaagatagga gttcatcgtt 121 gaatacctgg aaggaagaag gaagagggtg ggcagcttct gggatagaga agcagattct 181 ttggagttca ggagattgga ctcctagatc caggaaagag ggcaaaagcc atggacagtg 241 ggtttctgat tctgaagagg agagataggc aggggctgct tagcctgggg cttcgactcc 301 cagccgatag gcagaaagag gatgaggccc cagacttcta gaagacaagg agataaattc 361 cgaggtgtga gagagaagat aatggaaagc tcctgcatct ccaggaggct tggaacagac 421 cggtgaacct gaggaaggag agggctacgg ctttggactc ctgaatctcc tgtatcttgg 481 cagggatggt cctcggtttg aatactgggt tgggcctagg gagagagagg taggagctgt 541 acccctgggc ctgacagagc aaagagtaat cccagacctt cccatcttcc cgcagcctcg 601 gcattctcac acagcatgga tttacgcaca atgacacagt cgctggtggc gctcgcagaa 661 gacaacatgg ccttcttctc aagccagggc ccaggagaga cagcacggcg gctgtccaac 721 gtctttgcag gtgttcggga acaggcactg gggctagaac caactctagg tcagctcttg 781 ggtgtggcac accatttcga cctggacact gagacaccag ccaacggata ccgtagcttg 841 gtgcacacag ctcgttgctg cctggcacac ctactacaca aatcccgcta tgtggcctct 901 aaccgcagaa gtatcttctt ccgtgccagc cacaacctag cagaactgga ggcctacctg 961 gctgccctca cccagctccg tgctctagcc tactacgccc agcgcctgct gaccatcaac 1021 cgaccaggag tgctcttctt tgagggcgat gagggactca gcgctgactt cctacaggac 1081 tatgtcacgc tacataaagg ctgcttttac ggtcgctgcc tgggcttcca gttcacacct 1141 gccatccggc cgttcctgca gactctctcc atcgggctgg tgtccttcgg ggaacactac 1201 aaacgcaacg agacgggcct cagtgtgact gcaagttccc tctttacggg tggccgattc 1261 gccatagacc cagagttgcg tggggctgaa tttgagcgca tcatacagaa cctggacgtg 1321 cacttctgga aagccttctg gaatatcacg gagatcgagg tgctatcgtc tctggccaac 1381 atggcatcaa ccaccgtgag ggtaagccgc ctgcttagct tgccgcctga ggcctttgag 1441 atgccactaa cctctgaccc caagctcaca gttaccatct cacctccctt ggcacacacg 1501 ggaccaggcc ctgtgctagc caggctcatc tcctatgacc tgcgggaagg gcaggacagc 1561 aagatgctca acagcctggc aaaatctgag ggcccacgcc tggagctgcg cccacggcct 1621 caacaagccc cccgctcacg agccctggtt gtccacattc acggtggtgg ctttgtggca 1681 cagacctcca aatcccatga gccctacctc aagaactggg cccaggagct aggcgtcccc 1741 atcatctcca tcgactactc cctggcccct gaggccccct tcccccgagc actggaggag 1801 tgtttttttg cctactgctg ggctgtcaag cactgtgaac tgcttggttc aaccggagag 1861 cggatatgcc ttgcggggga cagcgcaggt gggaacctct gcatcaccgt gtcccttcgg 1921 gcagcagcct atggggtgag ggtgccagat ggcatcatgg cagcctaccc agttaccacc 1981 ctgcagtcct ctgcttctcc ctctcgtctg ctgagcctca tggatcctct tctaccactg 2041 agcgtactct ccaagtgtgt gagcgcctat tcagggacag agacggagga ccattttgac 2101 tcagaccaga aggcattggg cgtgatgggg ctggtgcaga gagacacgtc cctgttcctc 2161 agagacctcc gcctgggcgc ctcctcatgg ctcaactcct tcctggagtt aagtgggcgc 2221 aagccccata agaccccagt tgcctgcaac agagacactg cgccccacgg attctgggcg 2281 cttacggagt ctatgcgcag gagtgtgtct gaggcagccc tggcccagcc tgagggcttg 2341 ctgggcacag attccttgaa gaagctaaca ataaaggact tgagctttaa gggcaactca 2401 gagccatcag acagccccga gatgtcacag tcaatggaga cacttggccc ctccacaccc 2461 tcggatgtca acttttttct gcgatccggg aattcccagg aagaggctga aaccagagat 2521 gatataagcc ccatggacgg aatcccccgc gtgcgcgctg ccttccctga tggtttccac 2581 ccacggcgct caagccaagg tgtcctccac atgcccctct actcgtcacc catagtcaag 2641 aaccccttca tgtctcctct gctggcccct gacgtcatgc tgaagaccct gccgcccgtg 2701 caccttgtgg cgtgcgctct ggaccccatg ctggatgact cggtcatgtt cgcgcggcga 2761 ctgaaggacc tgggccagcc cgtgacgctg aaagtggtag aggacctgcc gcatggtttc 2821 ctgagcttag cagccctgtg tcgtgagacc ggcaggccgc ggagttgtgc gtgcagcgca 2881 tccggctgat cctcaccccc cctgctgcac cgctgacctg agctgggaac ggcggggggc 2941 ggcactaaaa gacctcttgc acccttctgc gcgggcttcc gtgatgagtg cgctccgagt 3001 cgggctctag gccccctcgg tcgggctggg cgggaggggg cgggccgtgc cttaaccata 3061 agtggggcgg ggcaggggcc aaaagctgaa cctgggggag ggggacgcac acacacacac 3121 ctgtcaccga gacagctgga cctgcactct accactgcct tctactgctg ctgtgaccga 3181 ccaccgctag tcggttttgc tttttgtaaa taaaagttat ttaat //