Path: utzoo!attcan!uunet!bionet!haploid!jeh From: jeh@haploid (Jamie Hayden) Newsgroups: bionet.molbio.genbank.updates Subject: (none) Message-ID: <9003162041.AA12151@haploid.LANL.GOV> Date: 16 Mar 90 20:41:41 GMT Sender: daemon@genbank.BIO.NET Lines: 525 LOCUS ASGGLUOA 2788 bp ss-mRNA PLN 03-JAN-1990 DEFINITION A.niger glucose oxidase mRNA, complete cds. ACCESSION J05242 KEYWORDS glucose oxidase. SOURCE A.niger (strain ATCC 9029), cDNA to mRNA, clones 1a, 2a, 4a and 12a. ORGANISM Aspergillus niger Eukaryota; Plantae; Thallobionta; Eumycota; Ascomycotina; Plectomycetes; Eurotiales; Trichocomaceae. REFERENCE 1 (bases 1 to 2788) AUTHORS Frederick,K.R., Tung,J., Emerick,R.S., Masiarz,F.R., Chamberlain,S.H., Vasavada,A., Rosenberg,S., Chakraborty,S., Schopter,L.M. and Massey,V. TITLE Glucose oxidase from Aspergillus niger: Cloning, gene sequence, secretion from Saccharomyces cerevisiae, and kinetic analysis of a yeast-derived enzyme JOURNAL J. Biol. Chem. 265, 3793-3802 (1990) STANDARD full staff_review COMMENT Draft entry and computer-readable sequence for [1] kindly submitted by S.Rosenberg, 27-DEC-1989. FEATURES from to/span description pept 486 2303 glucose oxidase precursor (EC 1.1.3.4) sigp 486 533 glucose oxidase signal peptide matp 552 2300 glucose oxidase BASE COUNT 635 a 797 c 699 g 657 t ORIGIN 1 gaattcggta ttctcggcat ggccaaagtc ggtatccctt ggcgccacga tgatttgcgt 61 ccaggattcg tatagttcct cgtccacgag ctgcctaccg tcagcgtgag gcagtgagct 121 aatatggggc caataagcca ctacgaggat gacatggcct ctacagaacg agagacgcag 181 aggatcagga cgccaatcct gcgctccacc tgtctaagga ttcgcttttg gactatccag 241 ggattatggc ttcggattat tgtattcggg ataccgacgg ctgagcacac ggaggatgag 301 gttcagctca cggcccctat cagtatgcat tatgaggatg gcttcttgga aagcagagga 361 attggattat cgaacaagtt ggttctggac cattgactcg agcgtataag taacctcgtt 421 cggtcctcct gtcaccttct gatcagcaac cagcctttcc tctctcattc cctcatctgc 481 ccatcatgca gactctcctt gtgagctcgc ttgtggtctc cctcgctgcg gccctgccac 541 actacatcag gagcaatggc attgaagcca gcctcctgac tgatcccaag gatgtctccg 601 gccgcacggt cgactacatc atcgctggtg gaggtctgac tggactcacc accgctgctc 661 gtctgacgga gaaccccaac atcagtgtgc tcgtcatcga aagtggctcc tacgagtcgg 721 acagaggtcc tatcattgag gacctgaacg cctacggcga catctttggc agcagtgtag 781 accacgccta cgagaccgtg gagctcgcta ccaacaatca aaccgcgctg atccgctccg 841 gaaatggtct cggtggctct actctagtga atggtggcac ctggactcgc ccccacaagg 901 cacaggttga ctcttgggag actgtctttg gaaatgaggg ctggaactgg gacaatgtgg 961 ccgcctactc cctccaggct gagcgtgctc gcgcaccaaa tgccaaacag atcgctgctg 1021 gccactactt caacgcatcc tgccatggtg ttaatggtac tgtccatgcc ggaccccgcg 1081 acaccggcga tgactattct cccatcgtca aggctctcat gagcgctgtc gaagaccggg 1141 gcgttcccac caagaaagac ttcggatgcg gtgaccccca tggtgtgtcc atgttcccca 1201 acaccttgca cgaagaccaa gtgcgctccg atgccgctcg cgaatggcta cttcccaact 1261 accaacgtcc caacctgcaa gtcctgaccg gacagtatgt tggtaaggtg ctccttagcc 1321 agaacggcac cacccctcgt gccgttggcg tggaattcgg cacccacaag ggcaacaccc 1381 acaacgttta cgctaagcac gaggtcctcc tggccgcggg ctccgctgtc tctcccacaa 1441 tcctcgaata ttccggtatc ggaatgaagt ccatcctgga gccccttggt atcgacaccg 1501 tcgttgacct gcccgtcggc ttgaacctgc aggaccagac caccgctacc gtccgctccc 1561 gcatcacctc tgctggtgca ggacagggac aggccgcttg gttcgccacc ttcaacgaga 1621 cctttggtga ctattccgaa aaggcacacg agctgctcaa caccaagctg gagcagtggg 1681 ccgaagaggc cgtcgcccgt ggcggattcc acaacaccac cgccttgctc atccagtacg 1741 agaactaccg cgactggatt gtcaaccaca acgtcgcgta ctcggaactc ttcctcgaca 1801 ctgccggagt agccagcttc gatgtgtggg accttctgcc cttcacccga ggatacgttc 1861 acatcctcga caaggacccc taccttcacc acttcgccta cgaccctcag tacttcctca 1921 acgagctgga cctgctcggt caggctgccg ctactcaact ggcccgcaac atctccaact 1981 ccggtgccat gcagacctac ttcgctgggg agactatccc cggtgataac ctcgcgtatg 2041 atgccgattt gagcgcctgg actgagtaca tcccgtacca cttccgtcct aactaccatg 2101 gcgtgggtac ttgctccatg atgccgaagg agatgggcgg tgttgttgat aatgctgccc 2161 gtgtgtatgg tgtgcaggga ctgcgtgtca ttgatggttc tattcctcct acgcaaatgt 2221 cgtcccatgt catgacggtg ttctatgcca tggcgctaaa aatttcggat gctatcttgg 2281 aagattatgc ttccatgcag tgagtggtat gatggggata tgagtgagga tattagggga 2341 tggtacttag atgctgggga ggtataatca tagattggat agaattggta ggttacatag 2401 acaggttaca tgaatagacg ttcgttatat gtgagcagac attactacca aacaagggca 2461 ttgttcagtt agtcgaacga tagtcatatg ttttgtacgg gaagaaagtt tcactaatta 2521 ttaagcaaac ggatcagggg ttgccagcta aaatacaatc atccgatgtt ctattttctt 2581 caaattgatc gaccagtcag ttaatgaatg catgagagca actctgcgca tcctctagct 2641 atctagtcaa taataagcat gttgtttaag atgaaacacc gccatagaca tattctgttg 2701 ctggtgaagc aagccctcgc taaatatgct gataacttcc tatgccagta gaatattttc 2761 ccactctgct gcgcgctctc aaaagctt // LOCUS BOLSATAA 176 bp ds-DNA PLN 19-JAN-1990 DEFINITION B.oleracea satellite DNA inverted direct repeat. ACCESSION M31434 KEYWORDS satellite DNA. SOURCE B.oleracea DNA. ORGANISM Brassica oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Dilleniidae; Capparales; Brassicaceae. REFERENCE 1 (bases 1 to 176) AUTHORS Benslimane,A.A., Dron,M., Hartmann,C. and Rode,A. TITLE Small tandemly repeated DNA sequences of higher plants likely originate from a tRNA gene ancestor JOURNAL Nucleic Acids Res. 14, 8111-8119 (1986) STANDARD simple staff_review BASE COUNT 51 a 38 c 32 g 55 t ORIGIN 1 cttattgcaa agtgattcat cctggtttga ttggaacgac gaagaagctg tcctattccc 61 aaactgggaa actggaatca catgatttga atgtgggata acttcttcat cccaactcct 121 atgagattta ttcaactttc gggtgattct ccaccacttt atgtaaccaa atcaag // LOCUS BOLSATAB 174 bp ds-DNA PLN 19-JAN-1990 DEFINITION B.oleracea satellite DNA inverted direct repeat. ACCESSION M31435 KEYWORDS satellite DNA. SOURCE B.oleracea DNA. ORGANISM Brassica oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Dilleniidae; Capparales; Brassicaceae. REFERENCE 1 (bases 1 to 174) AUTHORS Benslimane,A.A., Dron,M., Hartmann,C. and Rode,A. TITLE Small tandemly repeated DNA sequences of higher plants likely originate from a tRNA gene ancestor JOURNAL Nucleic Acids Res. 14, 8111-8119 (1986) STANDARD simple staff_review BASE COUNT 52 a 34 c 33 g 55 t ORIGIN 1 cttattgcaa agagattcat cctggtttga ttggaacgac gaagaagctg tgctattacc 61 aaactgggaa actggaatca catgatttga aagtgggata acttcttcat cccaattgat 121 atgagattta ttccttcctg gtgattctcc accactttat gtatccaaat caag // LOCUS BOLSATAC 175 bp ds-DNA PLN 19-JAN-1990 DEFINITION B.oleracea satellite DNA inverted direct repeat. ACCESSION M31436 KEYWORDS satellite DNA. SOURCE B.oleracea DNA. ORGANISM Brassica oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Dilleniidae; Capparales; Brassicaceae. REFERENCE 1 (bases 1 to 175) AUTHORS Benslimane,A.A., Dron,M., Hartmann,C. and Rode,A. TITLE Small tandemly repeated DNA sequences of higher plants likely originate from a tRNA gene ancestor JOURNAL Nucleic Acids Res. 14, 8111-8119 (1986) STANDARD simple staff_review BASE COUNT 52 a 37 c 31 g 55 t ORIGIN 1 cttttcacaa agtgattcat cctagtttga ttggaacgat gaagaagctg tgctattcca 61 aactgggaaa ctggaaatca cctgatttga aagtgggata acttcttctt gccaactcct 121 atgagattta ttcaacttcc ggtgattctc caccacttta tgtaaccaaa tcaag // LOCUS BOLSATAD 175 bp ds-DNA PLN 19-JAN-1990 DEFINITION B.oleracea satellite DNA inverted direct repeat. ACCESSION M31437 KEYWORDS satellite DNA. SOURCE B.oleracea DNA. ORGANISM Brassica oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Dilleniidae; Capparales; Brassicaceae. REFERENCE 1 (bases 1 to 175) AUTHORS Benslimane,A.A., Dron,M., Hartmann,C. and Rode,A. TITLE Small tandemly repeated DNA sequences of higher plants likely originate from a tRNA gene ancestor JOURNAL Nucleic Acids Res. 14, 8111-8119 (1986) STANDARD simple staff_review BASE COUNT 50 a 39 c 30 g 56 t ORIGIN 1 cttcttacaa agtgattcat cctggtttga ttggaacgac gaagaagctg tgctattccc 61 aaactggaac tggaatcacc tgatttgaaa gtgggataac ttcttcatgt caactcctat 121 gagatttatt caacttcctg tgaacttctc caccacttta tgtatccaaa tcaag // LOCUS BOLSATAE 176 bp ds-DNA PLN 19-JAN-1990 DEFINITION B.oleracea satellite DNA inverted direct repeat. ACCESSION M31438 KEYWORDS satellite DNA. SOURCE B.oleracea DNA. ORGANISM Brassica oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Dilleniidae; Capparales; Brassicaceae. REFERENCE 1 (bases 1 to 176) AUTHORS Benslimane,A.A., Dron,M., Hartmann,C. and Rode,A. TITLE Small tandemly repeated DNA sequences of higher plants likely originate from a tRNA gene ancestor JOURNAL Nucleic Acids Res. 14, 8111-8119 (1986) STANDARD simple staff_review BASE COUNT 54 a 39 c 29 g 54 t ORIGIN 1 cttcttacaa agtgattcat cctggtttga ttggaacgac gaacaagctg tgctattccc 61 aaactaggaa actggaatca catgatttga aagtgggata acttcttcat cccaactcat 121 atgagattta ttcaacttcc tggtgattct ccaccacttt atgtaaccaa atcaag // LOCUS BOLSATAF 176 bp ds-DNA PLN 19-JAN-1990 DEFINITION B.oleracea satellite DNA inverted direct repeat. ACCESSION M31439 KEYWORDS satellite DNA. SOURCE B.oleracea DNA. ORGANISM Brassica oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Dilleniidae; Capparales; Brassicaceae. REFERENCE 1 (bases 1 to 176) AUTHORS Benslimane,A.A., Dron,M., Hartmann,C. and Rode,A. TITLE Small tandemly repeated DNA sequences of higher plants likely originate from a tRNA gene ancestor JOURNAL Nucleic Acids Res. 14, 8111-8119 (1986) STANDARD simple staff_review BASE COUNT 51 a 38 c 30 g 57 t ORIGIN 1 cttcttacaa agtgattcag ccttgtttga ttggaacgac gaagaagctg tcctattcca 61 aactgggaaa ctggaaatca cctgatttga atgtgggata acttcttcat cccaactcct 121 atgagattta atcaatttcc tggtgattct ccaccaattt ttgtaaccaa ttcaag // LOCUS CHKHSPA 11138 bp ds-DNA VRT 24-JAN-1990 DEFINITION Chicken 108K heat shock gene, complete cds. ACCESSION M31321 KEYWORDS heat shock protein. SOURCE Chicken oviduct DNA. ORGANISM Gallus gallus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Aves; Neornithes; Neognathae; Galliformes; Phasianidae. REFERENCE 1 (bases 1 to 11138) AUTHORS Kleinsek,D.A., Beattie,W.G., Tsai M,-J. and O'Malley,B.W. TITLE Molecular cloning of a steroid-regulated 108K heat shock protein gene from hen oviduct JOURNAL Nucleic Acids Res. 14, 10053-10069 (1986) STANDARD simple staff_review FEATURES from to/span description pept 1422 1470 108K heat shock protein, exon 1 1807 1906 108K heat shock protein, exon 2 2460 2601 108K heat shock protein, exon 3 2678 2794 108K heat shock protein, exon 4 3079 3410 108K heat shock protein, exon 5 4202 4313 108K heat shock protein, exon 6 5002 5121 108K heat shock protein, exon 7 5621 5737 108K heat shock protein, exon 8 6091 6228 108K heat shock protein, exon 9 6311 6388 108K heat shock protein, exon 10 6469 6534 108K heat shock protein, exon 11 6806 7075 108K heat shock protein, exon 12 7290 7535 108K heat shock protein, exon 13 7801 7918 108K heat shock protein, exon 14 8237 8325 108K heat shock protein, exon 15 8430 8585 108K heat shock protein, exon 16 9113 9211 108K heat shock protein, exon 17 10615 10644 108K heat shock protein, exon 18 pre-msg 1321 10889 108K heat shock protein mRNA and introns IVS 1471 1806 108K heat shock protein intron A IVS 1907 2459 108K heat shock protein intron B IVS 2602 2677 108K heat shock protein intron C IVS 2795 3078 108K heat shock protein intron D IVS 3411 4201 108K heat shock protein intron E IVS 4314 5001 108K heat shock protein intron F IVS 5122 5620 108K heat shock protein intron G IVS 5738 6090 108K heat shock protein intron H IVS 6229 6310 108K heat shock protein intron I IVS 6389 6468 108K heat shock protein intron J IVS 6535 6805 108K heat shock protein intron K IVS 7076 7289 108K heat shock protein intron L IVS 7536 7800 108K heat shock protein intron M IVS 7919 8236 108K heat shock protein intron N (no splice consensus) IVS 8326 8429 108K heat shock protein intron O IVS 8586 9112 108K heat shock protein intron P IVS 9212 10614 108K heat shock protein intron Q signal 1286 1294 -35 region BASE COUNT 3081 a 2070 c 2669 g 3318 t ORIGIN 1 gaattccccg gatcttagtg gtcttttcca accttaatgg ttttctaact gaataaaaca 61 tagatagcag tactggacgc atgttcatag ctttaaaata gctaaacaat ttttattaag 121 tttagagttc agtggaatta gtcattttca atagccaacc tctctgcaaa gagatggaac 181 tctcataaga gcattaagct cacagctgcc tcagtcctat gtatcaccag tgtcctgggt 241 aatacaacct ggctttgaag aaagcaaact gtgtaatctg cataaagcaa acagtgccag 301 tctgacctct aaattcagag cacaaaacag agatttaaca gttccatgtc tccttcaaaa 361 ccaacgttat atattgtatg gtcataaagg taaggcaacc cagaagattt ggagtccacc 421 aaatttaatc taaaatattt cttcacggaa aaaagggggt taagcatggg aatgtgtgcc 481 cagggaagca gtggtgtcat tatctcttgg tgtatttagg agatggatgt ggcacttcag 541 gacatggctt agtggtggct ttgtagcgtt acgtgggtgg ttggacttgg caatctcgaa 601 ggccttttcc acatgaacag tgatggtctc caccgtaggc cgcgtcagac accacaccag 661 agggcagcag agccgaggcc aggacatggc acacacgtcc cagacctgag gcgggccatg 721 taatggcgcc cattttgtgc acagctcgcc ccagagcgcg ccgagtgagg actacagctc 781 ccagcagcca ctgcggcacc acacgcaagc ctgccacttg cgcttagccg ccgtacttta 841 tgtcagcccc gtccgtcact ggggcttgcg ggcgacgcga ccggaaacag ttccacggca 901 acagggtccc cggttaacat ccccagtgct cccggaagca gtcgagcctg gcgtgcccat 961 gtggagcttg tccttaaagc tgctgactgc agccacggta gctcgactag cctctccgca 1021 gccttcgagc tgacggtgcg ccctgaaaaa aacaacattc gccgtatcgt taaacccccc 1081 cgcggatacc cgattggacc gagccggtcc tcccggccaa tcgacgccgg ccacgctccg 1141 tccgcagaaa ccgcacatgg aaagccacga ttggtagtgt aggccccaag ccccaccctc 1201 ccgcgttctc tattggctgc atgtttggcg tggtgcgctc ccattggcca ggcgcggaga 1261 acccccccgc cctccatcgg ggcgcgttga taaggcggag ggggagggct gcggcgctcc 1321 agcgggttcg gcggcggtgc gggaggcgtt gcggtggggt tctacggctc ggggcagggc 1381 gttgggccgt ttttctctca gcatcagcag gccgcggcat catgaagtca gcgtgggcgc 1441 tggctctggc atgcacgctt ctcctggccg gtgagtgctg tagcctttct ggaaacgtcg 1501 ggtgggagga ggtgggggtt cttggggggc ggggggatct tctttaacgg tactcatgcc 1561 taccgctcgc tgaggggatg aaggccgcgg gaagagacgt tgggctgccg gggcccgagg 1621 gagccagcgt tgcctccatc ccggcgctgt aggcgcctca ggggagcggg ggaggggagt 1681 gccgcgacgc tcatgcgccg tgactggggg ggaggctggg ggtccggcgg ggctgcaggc 1741 catcagggat ggggtacaga tgctggcaga gctgggaccg gactcattat tgctcgttct 1801 atccagcatc ggtgaccgct gaggaggtgg atgtggatgc gaccgtggaa gaagatctgg 1861 gtaaaagtag agaagggtcc cgaactgatg atgaagttgt tcagaggtga gtagcagggg 1921 tgctgctaag ctacttgtgg cattaaggct ttctcctgat tttggggtat ctgttccacc 1981 atcagtaacg cttaaatcct cagagattgg agtggaggga gtgtaacacc tttccaaaac 2041 gaagcccggt ctgttctgag aaatacagta tttaaggaaa tatctgttgt ttcttctgta 2101 cagaggcgag cttgagagct tggatgcaga aatcccctgc ttgattttgt ctaattgcag 2161 taccacgtgt tgaggattgt ggtctttgtg acatacctgt ggtttttagc tgcgtttcta 2221 caaagtaaag tgatctttac acatgtgtgg gtttttgctg aagttgtaga tgatggctat 2281 gcaagtgagg ctagctagta ttgcgaatct catttaattt taccgtattt acactgtctc 2341 tgtcaggggc tgaggatctt gttgccttac ctagaccgtt attgctcctg ccaggtcata 2401 aaattaatga taactgtatg taggcaaggc tgcttgacag atttccatta ttcttacaga 2461 gaggaagaag ctatccagct ggatggccta aatgcatccc agatcaaaga aatcagagaa 2521 aaatctgaga agtttgcctt tcaagcagaa gttaacagaa tgatgaagct tattattaac 2581 tctttatata agaacaaaga ggttagtatc tttatcacat tagaactgtg agaactgttt 2641 gtgttcttga gttcctgacc acttgtttct atttcagatt ttcctgagag agcttatttc 2701 aaatgcttca gatgctttgg ataagatacg cttaatatcc ttgactgatg aaaatgctct 2761 tgctggtaat gaggagctca ctgttaaaat caaggtatga aatgttactt atgtaattcc 2821 ttattgatgc tcttcctgaa gagcagtgac agggacctga gaagttcata catggttact 2881 tcattcagtt cagtgcttaa cagtgttata tcaggaccct agcaataagc tttatcaaac 2941 accactcttg ttttcatctg gataatagta gtttttgctg gcagacgtgt ttgaataact 3001 agtttcactc ttttcctagg tagtgtactg tcttaagatt taaaatgaag tcacactgcc 3061 tctttttatt tttttcagtg tgataaagag aagaacatgc ttcatgttac agatacgggt 3121 attggcatga caaaagagga gttgattaaa aaccttggta ccattgcaaa gtctggtaca 3181 agtgaattct taaacaagat gactgaaatg caggatgata gccagtcgac atctgagtta 3241 attggccagt ttggtgttgg cttttattct gctttcttgg tagcagagag agttattgtc 3301 acatcaaagc acaacaatga tacccaacat atttgggagt cagattcaaa tgagttctct 3361 gtgattgatg atccaagagg aaacactctg ggacgtggca caaccataac gtaatattag 3421 gtttccttgg gtttcaagaa ttatttttaa ctgggagacg tggatgactt tagcattgtg 3481 actacatgta ctgttcagtt cttgaattgt agctttttcc agttgaatag aaacatccaa 3541 attactggtt gcaagcaaaa gatggagtgt caatgcacta atgtagttct tcattccatc 3601 taatagaatg aaggaaacaa tgagaacctt gacaactaat tgttggcaag cagttccaaa 3661 cagttgagtt gcctgcagag tcgacctgca gatttagttt ctcagcacag ttgtggctgt 3721 agagtttcat cttggaaaca ttgcagtata tatagtaatc agaccaatcc aatacaagtt 3781 tcaggttcag tgtagtttga aagccctgta tcttcctaca tttttgtgag catgtaaatg 3841 agtttgatct gggccttcta tgactccatc ctgaaatcat tttcacgact ttttaccagt 3901 gaaaggtagg acatcagcat gacagtgccc tttgtttgca ggaaaaagtt catcttgttg 3961 ctctggttcc agatgaagtc agtgagaaca catcatggat cgtatgagca tcaaaaaatt 4021 cctcttttag ttgcagtact aaggatagag actattttta agtgatagct gagcattgag 4081 tagtttagtt acagttgcat aaacttaaat cagtttagct gcagcagtgg gaagatgcat 4141 ctcctctaaa actaattgaa agtacttgtt cagctttcta acttctttta tttttcttca 4201 gccttgtctt gaaggaagaa gcctctgatt atcttgagtt ggacactgtt aaaaatctac 4261 tcaagaaata ttcacagttc ataaacttcc ccatatatgt gtggagcagc aaggtaagtg 4321 tattttacca agtgttgtat gctatgagct gtgtatcata gccttcaagg gcctgatctc 4381 tttaagagtg aaagcatgct atagaatgtt tactggtcta tttcctgact cttccttctt 4441 tgggtttttt aaaatcagtg ggaagaaaga actggctagt attttactag ctgtatgctg 4501 tccaaaagtt aatgcattac taaatggcat acttcaaaga aactttgtta tgcctcggtg 4561 ctaccaaaga agcaagagtg cacagtttac tacaaaagat gtttcttcca ttggctttgt 4621 ttagtagctg aagcttttaa gctgggcagt ttagctactt tgcttagtag ctaaaccttt 4681 taagtttagg tctccttctg aacatagggc agcctttcaa cttctaggct tattcttagg 4741 atgttttctt ggtgtactgc tagcctgaaa tcaagctgaa ggtcttgaaa gttgagacag 4801 tgaccttcca gtgtactgta ggtagcatgc atgcatgcac aaaaaatgca gcagaagaat 4861 ggtagctgtc tattgacaaa tgtttgtggg aggtcagaga cagcagaagt taaactagca 4921 ctgagagtaa gctatctcag agaatactag aagatccctg gtaggaaacc agacattcct 4981 cacttccagt tgtctctata gacagagact gttgaagagc cagttgaaga ggaggaagca 5041 aaggaggaga aagaacaaac agatgatgat gaagcagcgg ttgaagagga ggaggaacac 5101 aagaaaccaa aaactaagaa ggtaagcttt ctgagatgag gatttgtaac tgatggagat 5161 ttggggagtt ttcatgaagc tgacattgtg gggaagatgg tggtaaatca aacttgtgtc 5221 aaaataagat aaggcttgtc aggcagtagt cctggaatta attctaaatc tttgggagtt 5281 caagcattga actgctaaaa gtgagaggtg gatttcagtg aactgactga ttagtttgaa 5341 tatctggcta ctggaaagct tcctcacaat gcagtagaac agaaatggca acactggagt 5401 gcaaaatgta cgtatgggta cactgaagtg taggatgtga gtttctgtta ctttgcactc 5461 aaaactaatg catacatttg aatgggaata ctcagtccat tgtctagtta agtggattat 5521 gtactaatga actgctgtta tagtttcagc tttagtggag tttctttaac taacttaaaa 5581 gctggactca gaatgaatat ttattctgat gtttgattag gttgaaaaga ctgtctggga 5641 ttgggagctc atgaatgaca taaaaccaat ctggcagaga ccatctaaag aagttgaaga 5701 ggatgaatat aaagcttttt acaaaacctt ttccaaggta aacttaaagc cttgagattg 5761 ttctgaaggc gcggtttact gctggtgagg gtggggtgat aagctgacct aggtctgagg 5821 ggtaggtggt ggtattccaa tttgtatgga gcttactgtt atatttaagt actgacaaac 5881 taattattta tcttgtttga cggagtagtg atgtttgtgt tgtacacagt gaaagagagc 5941 tcacttctgc atgactaacc cagttgaatt gtgaatctgt tttcacaaag tccagtaagc 6001 tgtgcagcaa actgtgacat tgtgttatgc atggaagagt agttatttgc caatgcttgg 6061 ctttaaaaaa aaaaaaacct ctcttcacag gaacacgatg atccaatggc ttacattcat 6121 tttactgctg aagcggaagt aactttcaaa tcaatcttgt ttgttcctaa ttctgctcca 6181 cgtggcttgt ttgatgagta tggatccaaa aaaagtgatt tcattaaggt aaggcaagca 6241 tatacgtaca gctatgatct gtccttaaaa atgaagaaac taataatggc ttttttcttt 6301 tttaattcag ctgtatgtta gaagagtgtt catcactgat gacttccatg acatgatgcc 6361 caaatatctt aacttcgtta aaggtgttgt aagtattaaa ccttatttgc atttgtgtgg 6421 ttgttcatcc aaaggctgct acctgtactt aatatttctt tcaattaggt ggattctgat 6481 gatcttcctt tgaatgtatc tcgtgaaaca cttcagcagc ataagttact aaaggtaaga 6541 ttgatggtct taaatatctt tggtttttaa taagggactg atttaaaatg aataagtaga 6601 tgactagcaa gatttagcag agaaatagct tgattaattt tgttttaata ctttaatttc 6661 acattcctaa ctgtatagga agcccaagct tcattcagac tactttccac ttctaaattg 6721 ggattagtgt cttgaatcca ttcatagtag tgaggctgaa ttgagggttt ttactgctat 6781 aacttgacac ctgtgctttc cctaggtgat cagaaagaag cttgttcgta aaaccctcga 6841 tatgatcaag aaaattgcag aagaaaaata caatgacaca ttctggaaag agtttggtac 6901 taatgtaaag cttggagtta ttgaagatca ctccaatcgc acacgactgg ctaaactgct 6961 tcgcttccag tcttcccatc atgaaagtaa ccttacaagc cttgaccaat atgtggaaag 7021 aatgaaagag aaacaagaca aaatttattt catggcaggt gccagcagaa aggaggtatg 7081 tgaggaggga aggaagaaga gttacatctt ctagttttct aacttgaata atgaactttt 7141 tgtatttgct gtatatgtag ctattccatg cttatattac catatgttca gctctccttg 7201 tattaacgtt cactaaatag atgtatagtt cccagtagct gctggtatca acgctgttaa 7261 actgacatct taatctgttc ccattttagg ctgagtcttc accatttgtt gaacgccttc 7321 tgaaaaaggg ctatgaagtg atctacctga ctgaacctgt agatgaatac tgcattcagg 7381 ctctgccaga gtttgatggc aagaggtttc agaatgtagc aaaggaccga gttaagtttg 7441 aggaaagtga aaagtccaag gagagtcgtg aagccttgga gaaggaattt gaaccactct 7501 tgaactggat gaaagacaaa gctctaaagg acaaggtaca aatgtcatgt ggatttgtga 7561 ttaccatatg taacatttgt aagtttagaa gtaaagtaca tgtcttgtga attcttggga 7621 cgtagagctg acagtgaggt cttttctctg ggttaatagt catgtttatc ttcccaaagt 7681 aagtgcttag taagttagaa tttcatttta gggttctcag aaagtattga agtgagtatg 7741 gttgagtttt ttgctttaca atagtggtgc tgtgaactaa tacaaacata ctttccacag 7801 attgaaaagg ctgtgctgtc tcaacgtcta acacagtctc catgtgcact cgtggctagt 7861 cagtacggat gctctggtaa catggagaga atcatgaagg ctcaagcata ccaaactggg 7921 aaggacatat ctacaaagta agtttcagtt atgtagcagc agatgtgaaa tgtagttgat 7981 ggccttcctt gcttggtggg atcacaggag gcttccatct tgttcagatg atcctccatg 8041 attttaaggt ctcttaccag gttgtcagat gttgcagcct atctgtatgt agaactgctt 8101 tcggagcaaa cacaactcca atgctttcag tgtttagcca gtaacggggg atgaacttgt 8161 tactgtggtt attagcaata tgggtttaag ggtctagctg ggcctgatat ttcagaactt 8221 aatgatgtga cttctgtttt ttccagttac tatgctagcc agaagaagac atttgaaata 8281 aatcccagac atccactgat caaagacatg ctgaggcgag ttaaggtaaa caaataacag 8341 cagtgtgaaa catttggccc ttgcgtagct gtgtatggct taattaacaa ctctgtgctt 8401 gtggtttctt tttgatgctt ccacattagg aaaatgaaga tgacaaaaca gtttcagatc 8461 ttgcagtggt gttgtttgaa actgcgactt tgagatcagg atatatgtta ccagacacaa 8521 aggaatatgg agacagaata gaaaggatgc ttcgtttgag tttaaacatt gacctggatg 8581 caaaggttag tggggttgct tacaagttgc aggtgataat gggctttaaa tagctgcttt 8641 ctaagacgag cacttaccta gtttcctgtg ctgatgtggg ctcaggagcc agttaagttc 8701 ctgactgggg aagcaatgag tctgcttcaa gtttgtgtcc tccttgtagt tctggattct 8761 gcttttccat tacccttttc aagtattgcc atgtctttac atgatggttt tatgggagta 8821 aattagagac caaactcgta tgtacttaag catttttcta tcagtaaaat aagttggtat 8881 aggacttcct gtgatgctgt gcaggaacat atatgctggg catcctgcca gggagaatgt 8941 gatagtgtgt cagtgctgaa gagaacctgg tttatcctcc aagtagcctg ggggcatgta 9001 ttataaactg gcagtggtta atagcctgta tttagctagt cagcaactgg taaacattgt 9061 atgcagatac ggttctgaat accaagtaaa acgtttgtga ccccttctcc aggtggagga 9121 ggaacctgaa gagcctgaag atgcagctga ggaggcagag caagatgaag aagaggtgga 9181 tgctgatgct gaagacagtg aaacacagaa ggtaagatct aaagtctgac tcttttaata 9241 ttcatgtgca attttatcca gtgacagatt cttcatttgg tcttttgtaa ccatagctgt 9301 tagtgttggg tcctccaaat ttttcttgca aaaccgtggc acaaattact tctcattcct 9361 taataaattt tgttttagaa aaaccagtag gtatgttcag tatttggagc aaattaaaga 9421 aaacagcaga tccccttcct tatacatgtt ggtttctata tcttgtgggc aaaataccat 9481 caataaacgg gacggtgcat ggcttgaaat ccttcaaaac agcactacag acttagaacc 9541 caaagtcagg cagcgctgtt gtatctgtag ttctaataat tacttgttca gcctgagctc 9601 tccagtatca gttcctcagt gacgtgaatt ttaaagtcac tgtgaagtcc cacctctgtg 9661 tgctggctga agttgctttt cgaagagtcc tgtaactttg tcttatggcc agcacaaaca 9721 caaagtagct gaacatctct aacagctatt agctgtcaga ttgcccaaga atacatttga 9781 agaactatac ttactgtact gttgcattgg ttttgatgct attaaactgt gctttcacag 9841 ctatataaca tgaaatgaca gtaacaaggg gattatatag gattaggact acattgttcc 9901 cttagtactg tgattgcttg gtgattctat gattctctgt gttctactta ctagatgaga 9961 ttacttgtgt gttacacaaa ggtttctgac tgctgactgg aagtacttga acttctcagt 10021 gctgtagtca agtagagtta ggactagagg gagtggcttc aaactgcacc agggaaggtt 10081 caggctggac gttaggaaat actgcttctc tgaaagggtg gtcaggcact ggaatgggct 10141 gtccagagag gtggtggagt cactgtccct ggaggtgttc aaggaacgtt tggatgttgt 10201 gttgagggat atggtttagt gagagctatt ggtgatgggt ggatggtgga ctgggtgatc 10261 ctgtgggtct ttccagcctt agtgattcta tgaatggggg gctattaaca gtagtaattg 10321 aacctgaaag gcactaaaga aattagtgaa gataaatagt cagttgtagg tctgcaaaca 10381 cctgagcaaa ctggaatgaa agtagctttt ttccccactt tgaatagcca agtcttgatg 10441 ttcagtcatt tgaacaagaa tatgctttca ccttcaaaag ttgcattatt tgctagtgat 10501 aatttgctag tgctttgaaa agtgtcagca gtagtgaaga taatctgagg cagctcttgt 10561 aactgttggc acttagaaaa agtgaggttc tgattctttg ttttgtctcc acaggaatcc 10621 acagatgtaa aagacgaact gtaaactgca ctcacctact gtcctgcact gggaggtgaa 10681 gagaaggatg tgaattcaat tttggtttgt tttccactgg aaaaggttga gggatggtgt 10741 ggggtttaag ggcaaaggga gatttttttt ttaagttgac ttttctaaaa aacagaaaac 10801 attcctcacg aatgtaaatt tgtattattt aactgacttg gtgtaaaatc ttgtcatgta 10861 caaaataaaa tgttcccaaa caccagtacc tctaaatttt acctaacttc atcttccaca 10921 gtaccacaaa gaactaaatg gacggtctga gtgttcaggt ccttcgtcta ctgccacttt 10981 gctctcctag tttgctgtcc tcgtgccttt ccacgctcgg ctacaccacg ctcctgattg 11041 catgatgatg ttccacaagg gtctgctgaa ggcagggttt tgcattcgat cgagcctgtt 11101 gtactgttct gtccgaagta tgcttggtat cggtatct // LOCUS HAMAPRTA 70 bp ds-DNA ROD 22-JAN-1990 DEFINITION C.griseus novel joint region. ACCESSION M31500 KEYWORDS adenine phosphoribosyl transferase. SOURCE C.griseus (strain D422) S70 mutant ovary DNA. ORGANISM Cricetulus griseus Eukaryota; Animalia; Metazoa; Chordata; Vertebrata; Mammalia; Theria; Eutheria; Rodentia; Myomorpha; Cricetidae; Cricetinae; Cricetini. REFERENCE 1 (bases 1 to 70) AUTHORS Nalbantoglu,J. and Meuth,M. TITLE DNA amplification-deletion in a spontaneous mutation of the hamster aprt locus: Structure and sequence of the novel joint JOURNAL Nucleic Acids Res. 14, 8361-8371 (1986) STANDARD simple staff_review BASE COUNT 13 a 14 c 14 g 29 t ORIGIN 1 tatttaacct tctgtacctt ggatgtgact gttaacctgg gtccttgcat tttatatatg 61 tgctgagtcc // LOCUS SPICPCPRA 183 bp ds-DNA ORG 19-JAN-1990 DEFINITION Spinach chloroplast trnR1 gene, partial cds. ACCESSION M31489 KEYWORDS transfer RNA-Arg. SOURCE Chloroplast spinach DNA. ORGANISM Chloroplast Spinacia oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Caryophyllidae; Caryophyllales; Chenopodiaceae; Spinacia oleracea. REFERENCE 1 (bases 1 to 183) AUTHORS Gruissem,W., Elsner-Menzel,C., Latshaw,S., Narita,J.O., Schaffer,M.A. and Zurawski,G. TITLE A subpopulation of spinach chloroplast tRNA genes does not require upstream promoter elements for transcription JOURNAL Nucleic Acids Res. 14, 7541-7556 (1986) STANDARD simple staff_review FEATURES from to/span description tRNA 112 > 183 Arg-tRNA BASE COUNT 69 a 30 c 28 g 56 t ORIGIN 1 cgctctattg agtttaatac gcaattctaa aaaattgtct catctcacat acaatacgtt 61 gttttttcaa aacaaaaaat aagtaaaaat gataataaat cggaatgaaa agcgtccata 121 gtctaatgga taggacatag gtcttctaaa cctttggtat aggttcaaat cctattggac 181 gca // LOCUS SPICPCPSA 209 bp ds-DNA ORG 19-JAN-1990 DEFINITION Spinach chloroplast trnS1 gene, partial cds. ACCESSION M31490 KEYWORDS transfer RNA-Ser. SOURCE Chloroplast Spinacia oleracea DNA. ORGANISM Chloroplast Spinacia oleracea Eukaryota; Plantae; Embryobionta; Magnoliophyta; Magnoliopsida; Caryophyllidae; Caryophyllales; Chenopodiaceae; Spinacia oleracea. REFERENCE 1 (bases 1 to 209) AUTHORS Gruissem,W., Elsner-Menzel,C., Latshaw,S., Narita,J.O., Schaffer,M.A. and Zurawski,G. TITLE A subpopulation of spinach chloroplast tRNA genes does not require upstream promoter elements for transcription JOURNAL Nucleic Acids Res. 14, 7541-7556 (1986) STANDARD simple staff_review FEATURES from to/span description tRNA 102 > 203 Ser-tRNA BASE COUNT 56 a 41 c 42 g 70 t ORIGIN 1 tcaccctatc aacttacacc taatattttt ctacaacttg tgatggtatc agcttatata 61 accatgttct gttcggggga ataagaataa aatagaaatt gacttatggt ggagagatgg 121 ctgagtggtt gatagctccg gtcttgaaaa ccggcatagt tctttattca gaactatcga 181 gggttcgaat ccctctctct ccttttgct // LOCUS TRSSTOBA 71 bp ss-RNA VRL 22-JAN-1990 DEFINITION Tobacco ringspot virus (STobRV) autolytic junction. ACCESSION M31515 KEYWORDS . SOURCE Tobacco ringspot virus viral RNA. ORGANISM Tobacco ringspot virus Viridae; ss-RNA nonenveloped viruses; Isometric ss-RNA viruses; Nepovirus. REFERENCE 1 (bases 1 to 71) AUTHORS Buzayan,J.M., Hampel,A. and Bruening,G. TITLE Nucleotide sequence and newly formed phosphodiester bond of spontaneously ligated satellite tobacco ringspot virus RNA JOURNAL Nucleic Acids Res. 14, 9729-9743 (1986) STANDARD simple staff_review BASE COUNT 12 a 21 c 17 g 21 t ORIGIN 1 ttcactagtt tacgtggtgg ctttcggcca catgacagtc ctgtttcgtc ctcacggact 61 catcagaccg g //