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Previous release (v1)
2024-11-01 10:25:41, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS NM_001128201 9660 bp mRNA linear VRT 27-JAN-2019
DEFINITION Danio rerio microtubule-associated protein 1B (map1b), mRNA.
ACCESSION NM_001128201
VERSION NM_001128201.2
KEYWORDS RefSeq.
SOURCE Danio rerio (zebrafish)
ORGANISM Danio rerio
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Actinopterygii; Neopterygii; Teleostei; Ostariophysi;
Cypriniformes; Danionidae; Danioninae; Danio.
REFERENCE 1 (bases 1 to 9660)
AUTHORS Bayes A, Collins MO, Reig-Viader R, Gou G, Goulding D, Izquierdo A,
Choudhary JS, Emes RD and Grant SG.
TITLE Evolution of complexity in the zebrafish synapse proteome
JOURNAL Nat Commun 8, 14613 (2017)
PUBMED 28252024
REMARK Publication Status: Online-Only
REFERENCE 2 (bases 1 to 9660)
AUTHORS Pasquier J, Cabau C, Nguyen T, Jouanno E, Severac D, Braasch I,
Journot L, Pontarotti P, Klopp C, Postlethwait JH, Guiguen Y and
Bobe J.
TITLE Gene evolution and gene expression after whole genome duplication
in fish: the PhyloFish database
JOURNAL BMC Genomics 17, 368 (2016)
PUBMED 27189481
REMARK Publication Status: Online-Only
REFERENCE 3 (bases 1 to 9660)
AUTHORS Jayachandran P, Olmo VN, Sanchez SP, McFarland RJ, Vital E, Werner
JM, Hong E, Sanchez-Alberola N, Molodstov A and Brewster RM.
TITLE Microtubule-associated protein 1b is required for shaping the
neural tube
JOURNAL Neural Dev 11, 1 (2016)
PUBMED 26782621
REMARK GeneRIF: These data highlight the importance of microtubules in the
early morphogenetic movements that shape the neural tube and reveal
a novel role for the MT regulator Map1b in mediating cell
elongation and polarized cell movement in neural progenitor cells.
Publication Status: Online-Only
REFERENCE 4 (bases 1 to 9660)
AUTHORS Elkon R, Milon B, Morrison L, Shah M, Vijayakumar S, Racherla M,
Leitch CC, Silipino L, Hadi S, Weiss-Gayet M, Barras E, Schmid CD,
Ait-Lounis A, Barnes A, Song Y, Eisenman DJ, Eliyahu E, Frolenkov
GI, Strome SE, Durand B, Zaghloul NA, Jones SM, Reith W and
Hertzano R.
TITLE RFX transcription factors are essential for hearing in mice
JOURNAL Nat Commun 6, 8549 (2015)
PUBMED 26469318
REMARK Publication Status: Online-Only
REFERENCE 5 (bases 1 to 9660)
AUTHORS Dow E, Siletti K and Hudspeth AJ.
TITLE Cellular projections from sensory hair cells form polarity-specific
scaffolds during synaptogenesis
JOURNAL Genes Dev. 29 (10), 1087-1094 (2015)
PUBMED 25995190
REFERENCE 6 (bases 1 to 9660)
AUTHORS Aoki M, Segawa H, Naito M and Okamoto H.
TITLE Identification of possible downstream genes required for the
extension of peripheral axons in primary sensory neurons
JOURNAL Biochem. Biophys. Res. Commun. 445 (2), 357-362 (2014)
PUBMED 24513284
COMMENT VALIDATED REFSEQ: This record has undergone validation or
preliminary review. The reference sequence was derived from
CR751565.6, EH445754.1, EH471633.1 and EB942800.1.
On Oct 24, 2015 this sequence version replaced NM_001128201.1.
Sequence Note: This RefSeq record was created from transcript and
genomic sequence data because no single transcript from the same
strain was available for the full length of the gene. The extent of
this transcript is supported by transcript alignments and
orthologous data.
##Evidence-Data-START##
Transcript exon combination :: AB370231.1 [ECO:0000332]
RNAseq introns :: single sample supports all introns
SAMEA2168446, SAMEA2168447
[ECO:0000348]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-7 CR751565.6 1234-1240
8-841 EH445754.1 15-848
842-1010 CR751565.6 22758-22926
1011-1817 EH471633.1 1-807 c
1818-5795 CR751565.6 23734-27711
5796-6028 CR751565.6 27834-28066
6029-9152 CR751565.6 28561-31684
9153-9660 EB942800.1 1-508
FEATURES Location/Qualifiers
source 1..9660
/organism="Danio rerio"
/mol_type="mRNA"
/strain="Tuebingen"
/db_xref="taxon:7955"
/chromosome="5"
/map="5"
gene 1..9660
/gene="map1b"
/note="microtubule-associated protein 1B"
/db_xref="GeneID:559032"
/db_xref="ZFIN:ZDB-GENE-130530-690"
exon 1..269
/gene="map1b"
/inference="alignment:Splign:2.1.0"
misc_feature 74..76
/gene="map1b"
/note="upstream in-frame stop codon"
CDS 83..6184
/gene="map1b"
/note="zmp:0000000687"
/codon_start=1
/product="microtubule-associated protein 1B"
/protein_id="NP_001121673.1"
/db_xref="GeneID:559032"
/db_xref="ZFIN:ZDB-GENE-130530-690"
/translation="
MATLVDTAETPAPFGGVGSLRSTASPTASTQHFDEGKYYLLVVIGELVTDEHLKCAIADIEKGIRSWDTNLIDCNLDQELKLFVSRHSARFSADVRGQKILHHKSNVLETVVLINPSDEAVSTEVRLMVSDTAHHKLLVLAGQCFENTGELILQSGSFSLSSFIDIFTDQEIGELLSTVHPANKASLTLFCPEHGDWKNSNLDKHNLQDFIYMKLNSPTILPEMEGLSEFTEYLSESVEISSPFDMLEPPTSGGFLKLSKPCCYIFPGGRGDSALFAVNGFNMLINGGSDRKSCFWKLVRHLDRVDSVLLTHIGDDNLPGINSMLQRKIAELEEEQSQGSTANSDWTKNMISPDIGVMFANMPQNLENLEPNYRIRRNAEEAAFTLQYLNKLSLKPEPLHRSIGNTVEPIILFQKMGVGKLEMYVLNPAKNSKELQFFLKEWSGSDKDKATILLPNGKESELPVSYLSSISSLIVWHPANPSEKIVRVLFPGNSTQNHILEGLEKLKHLDFLKYPVITQNELNLNLAPTLKQAKMKHKTDSKESLKSTSKPSPTKNLHKESREETTEKLKTVSKTEPAEKQEPTQKIEKKEKTLVKKVKAGEKDIKSKVEQTHKTDTPEKKKVEIKPKTIKKESKKSVEKTETVKTEKNVPKKEDKVKKEDKVKKEEVKKEIKRRDVRKDSLLKESRKDEKKESLKDSKEPMKDLRKTGSLKKNAPSTPDVKKPAPKPKVAARGKSPGSPARSKDKAKSKPTKKDAGESVAAPSVSGATVEEPTVEDSATDVLEAERSLMSSPEDLTKDFEALKAEEMAEDDEVLSQTKIDDSNQEEVIRHEEITHCKESPEAAESLDEGIATTEAEEECGGTPGELEPNQKSNGTSEKFEDEGTGLEESSELGDYEEKGETEEVDEQDRAISTLKDEQAELETKEGANYGTDEPEYLDKETKLQCFDVTTPPKLTAPLSPADSVHDETLPAGSESEAASDDENRDEPPEEYTTSGHTQSTIEISSVPTPMDEMSTPRDVMSDETTNDESDSPSQDFVRYGITTEHERKKLSPLQDVPELDHSKSDATEGHDYHVSASTISPPSSLEEDKSVKDFSVKDTFSFDSSRLTTTTNLPFVRSPSVDQNVNIDLVHAGVSSPIELGTTLAGISKGLESYSPDEKTLEGPLSPQSSGHTPFYQSPVEEKAGTLPSEKTSEAQGPVIVDITSDKEYSPREASPIDEAVPVSQPGKKQSPIYEAHLSTNFEFDSKLPSQTDNSDKKIATDDNSSVISATSLPPSKIESLSETKHFTTFKEDSKMSISEGTTSDKSGTPVDEVVADDTFSHIASASTASLATSSLPEPTTDDVSPSLHAEVGSPHSTEVDDSFSVSVVQTPTTMQEAEVSPSKEDSPRPMSISPDVSPKTAKLRMPEQETKSPEKLSAGCEQESPEHSFALDFSKQSPDHPSVGGMQSTATENGPTEVDDSPLDEVGSMGEQHRPGEAGDKAMFFKDSDSTQAASASPSDASQSTPSVTTPCQIAEPREVSPDLDNLSESVTPKQSPSKQSPLSLDSSLVLGRPSISHEEVNKGKLSPNSFYEESAMDKSEDTQNLERTPPKASSPLSPTESLCFSQKTEELKLGSETTTFTGSKSPTSPKMSPPAQLSPSSTQTDTLDKFSTSSSSYSYSCQNVESTQICDGGSIGPETSKACHSQSRAEVDLCLVTSCEYRHPKTELSPSFINPSPLEYFMTEEPNLGEEKPLAKSGEGPPPPEEKQQTKQCEETPPTSVSESAPSQTDSDVPPGTEECPSITADANIDSEDDSETLPTDRTITYRHADPPPVTPRDPAPTPPHPDACMVDPEVLKAEEASGKPKKNISSKTKPSATKSLSKTSAIKESKVSSPKKSTEDKDAKNATNTSASRGVKNSTSGSTKSSGGTSVPNCPTMYMDLVYIPNHCNAKNVDAEFFKRIRSSYYVVSGNDPTAQEPSKAVLDALLEGKSQWGNNMQVTLIPTHDTEVMREWYQETHEKQQDLNIMVLASSSTVVMQDESFPACKIEL"
misc_feature <1637..>2917
/gene="map1b"
/note="MAEBL; Provisional; Region: PTZ00121"
/db_xref="CDD:173412"
misc_feature <3497..>3898
/gene="map1b"
/note="DNA polymerase III subunits gamma and tau;
Provisional; Region: PRK14954"
/db_xref="CDD:184918"
misc_feature <4055..5596
/gene="map1b"
/note="large tegument protein UL36; Provisional; Region:
PHA03247"
/db_xref="CDD:223021"
misc_feature 4808..>5569
/gene="map1b"
/note="Atrophin-1 family; Region: Atrophin-1; pfam03154"
/db_xref="CDD:460830"
exon 270..371
/gene="map1b"
/inference="alignment:Splign:2.1.0"
exon 372..454
/gene="map1b"
/inference="alignment:Splign:2.1.0"
exon 455..595
/gene="map1b"
/inference="alignment:Splign:2.1.0"
exon 596..5795
/gene="map1b"
/inference="alignment:Splign:2.1.0"
exon 5796..6028
/gene="map1b"
/inference="alignment:Splign:2.1.0"
exon 6029..9647
/gene="map1b"
/inference="alignment:Splign:2.1.0"
ORIGIN
acagagcagctcacttcagctcgccggacaccgagtgacagagtgtgtgtgagactgaaatatagagcgtgtctgagagagaatggcgacgctggttgatactgcggaaactccagcgcccttcggcggagtcggcagcctcaggagcacggcatcacccacagcctcgacacagcacttcgacgagggcaaatattacctgctggtggtcattggggagctggtcactgacgagcatctcaagtgtgccattgcggacattgagaaaggaatccgttcatgggacacaaatctcatcgattgtaacttggaccaggagctgaagctttttgtttctcgacactctgccaggttttcagccgatgtgagagggcaaaagattctgcaccacaaaagtaatgtgttggagacagtggtgctcattaacccttcagatgaagctgttagcactgaggtacggctaatggtctcagacacagcccatcataagctgcttgtcctggcaggacagtgctttgaaaatacaggcgagctgattcttcaatcaggctccttttctctctccagtttcattgacatttttacagatcaagagattggagagcttcttagcaccgtacatccagccaacaaagccagtttaacccttttttgtcctgagcatggtgactggaaaaattcaaacctggacaaacacaacttacaggatttcatctacatgaagctaaactccccaaccatccttccagaaatggaaggtctttctgaatttacagaatatctgtcagaatctgtagaaatctcatccccatttgacatgctggagcccccaacctcaggggggtttctaaaattatcaaaaccatgctgctatatattccctggtggacggggtgactctgcattgtttgcagttaatggtttcaacatgctaattaatggtggatctgatagaaagtcatgcttttggaagctggtacgacatttggacagagtagattctgttctccttacacacattggagatgataaccttccaggtatcaatagtatgctacagcgcaaaatagctgaactagaagaggagcagtcacaggggtctacagctaacagtgactggacaaagaatatgatctcacctgatattggtgttatgtttgccaacatgcctcagaacctggaaaatcttgaacccaactacagaattagaagaaatgcagaggaggcagccttcacactgcagtacttaaacaagttgtctctaaaacctgaacctctgcataggagtataggtaatacagtagaaccaattatactattccagaaaatgggggtcggaaagcttgaaatgtatgttcttaacccagctaagaacagtaaggagttgcagttttttctgaaagaatggtctggtagtgataaagacaaagcgaccatcttgttaccaaatggaaaagaatcagaactccccgtgtcatatttgtcctctatctcatcgctgattgtgtggcatcctgctaacccatcagaaaagattgtccgcgtcctttttccaggcaattctactcagaatcatattctagaaggcctagaaaaacttaaacacttagacttcctcaaatatcctgtgatcacacaaaatgagctcaatttaaacttagccccgacactgaaacaagcaaagatgaaacataagacagacagtaaagagagtctcaagtccacatcaaaaccatcccctaccaaaaatctccacaaagaatccagggaagaaaccactgaaaaactaaaaactgtaagtaaaactgaaccagcagaaaaacaggagccaacacaaaaaatagagaaaaaggaaaaaacacttgtgaaaaaagtgaaagcaggggaaaaggacattaaaagcaaggttgagcaaacacacaaaactgacactccagagaaaaagaaagttgaaattaaaccaaaaactataaagaaggaatccaaaaaatctgtggaaaagactgagactgttaaaactgaaaaaaacgtacccaagaaagaagacaaggttaaaaaagaagacaaggtaaagaaagaagaagtgaaaaaagaaattaaaagacgagacgtcaggaaagactccctattaaaggagagcagaaaggatgaaaagaaagaatccctaaaagattcaaaagagccaatgaaagatttaaggaaaactggtagcttgaaaaagaatgcccctagcacacctgatgtgaaaaaacctgcacctaaaccaaaggttgcagcacgtgggaagagccctggtagccctgccagatctaaagacaaggccaagtccaagcccaccaaaaaagatgcaggagaatcagtggcagcaccttccgtctcaggagccacggttgaagagcccaccgtggaagacagtgcaacagatgtacttgaggcagagagatcacttatgtcttctccagaggacctcactaaagattttgaggctttgaaagcagaagagatggctgaagatgatgaggtcctttctcagaccaaaatagacgattctaatcaagaagaagtgattagacatgaagaaataactcattgcaaagagtctccagaagcagcagagtccctggatgaaggaatagcaaccactgaagctgaggaggaatgtggaggtactccaggggaactagaacccaatcagaaaagcaacggtaccagtgaaaagtttgaagatgaagggacagggttggaagagtcctctgagttaggggactatgaagaaaagggagagacagaggaagtggatgagcaggacagagcaatatctacattaaaagatgaacaggcagagcttgaaaccaaggaaggggcaaattatggtaccgatgaaccagaatatcttgacaaagaaacaaagttgcaatgttttgatgtaaccacaccaccaaagctcactgcacctttgtctcctgctgattcagttcatgatgaaaccctacctgcaggttcagaaagtgaggctgcctctgatgatgaaaaccgagatgagcctccagaagaatacacaacatctggacacactcagtctacgattgagatctcaagtgtcccaacgcctatggatgaaatgtcaactccaagagatgtaatgagtgatgagacaactaatgatgaaagcgattctccttcccaagattttgtcaggtacggtataactacagaacatgaacgaaagaaactttcacctcttcaagatgttcctgaattagaccactccaagagtgatgccactgagggccatgattatcatgtgtcagcttccaccatttcaccaccatcttcattggaggaagataaatctgtcaaggatttttcagttaaagacacattctcttttgattcaagcaggctcactactactacaaatttgccttttgtcaggtcaccttctgttgaccaaaatgtaaacattgaccttgtgcatgcaggtgtatcttcacctattgaactgggaaccacactagcaggtatatcaaaaggtctggaatcatacagtccagatgagaagaccttagagggccctttatctcctcaatcctcaggacacacacctttctaccagtcgccggttgaggagaaagctggcactctaccatctgagaaaacatctgaggcccagggtcctgttattgttgacatcacaagtgacaaggaatactctcccagagaggctagtcctattgatgaagcagtgcctgtttcacaaccaggaaagaaacaatcaccaatttatgaagcacacttatcgaccaattttgaatttgacagcaaattgccaagtcaaactgacaatagtgataaaaaaatagcaactgatgacaattcatcagtaatatctgccacatcattgccaccatccaaaatagaaagtctgtctgaaacaaagcatttcacaacatttaaagaggacagtaaaatgtccatatctgaagggacaacatctgataagtctggcactccagttgatgaagttgttgcagacgacacattttctcacattgcctctgcatcaacagcctcacttgcaacaagttctttaccggaaccgacaacagatgatgtctctccatcacttcatgctgaagtgggctcccctcattccacagaagtggatgattctttttctgtctcagttgttcagactccaaccacgatgcaggaagcagaagtctctccatctaaggaggacagtccccgtcctatgtcaatctctcccgatgtttcaccaaagacagctaaactaagaatgccagaacaagaaacaaaatcccctgagaagttgtcagctgggtgtgaacaagaatccccagaacactcatttgcattggatttcagcaaacaatcacctgatcatccatcagtaggaggaatgcagtctacagccactgagaatggtcccacagaagttgatgatagtcccttggatgaagttggttccatgggagaacaacacagacctggggaagctggggataaggcaatgttttttaaagattctgatagtacccaggctgcttctgcctccccatcagatgcatctcagtctaccccatcagttacaacaccctgccaaattgcagagccaagagaagtttctccagatctagataatttatcagagtcagtcactccaaaacagtcacctagcaaacagtctcctttgtctcttgactcatcccttgttttaggcagaccaagtatctctcatgaagaagtaaacaaaggtaaacttagtcccaattcattttatgaagagagtgctatggataaatcagaggacacacaaaatctagagaggactcctccaaaggctagttcacccttatctcctactgaatcattgtgtttttctcaaaagacagaagagcttaaacttggctcagaaactactaccttcacaggttcaaaatcccccaccagccccaaaatgtcacctccagcccaactttccccttcttccactcagacagacactctagataaattttccaccagctcttcatcatattcatacagttgtcaaaatgtagaatctactcaaatctgtgatggtgggtccattggaccagaaacctcaaaagcatgccattctcagtcacgagcagaagtggacttgtgtttggtgacctcctgtgaatacagacatccaaaaacagagctttctccatcctttataaaccccagtcctcttgagtacttcatgactgaggaacctaatttgggggaggaaaagcctcttgctaagtcaggagaaggaccaccgccacctgaagagaaacagcagaccaaacagtgtgaggaaactccacccacctctgtaagtgaatcagcgccctctcaaacagactctgatgttcctcctggcacagaagagtgcccatcaataactgcagatgcaaatattgactctgaagatgactcagaaacacttccaacagataggacgatcacttatcgtcatgcagacccacctccagtcacacccagagaccctgctcctactcctccacatcctgatgcctgcatggtagatcctgaagtcctgaaggctgaggaggcatccgggaaaccgaaaaagaacatcagcagcaagactaagccatctgcaacaaagagcttgtcaaaaacaagtgccatcaaagagtcgaaagtgtcctctccaaaaaagtctacagaagataaagatgccaaaaatgcaactaatacctctgcatcaaggggagtgaaaaacagcacttcaggaagcaccaagtccagcggtggaacatctgtacccaactgtcctacaatgtatatggacctagtttacataccaaaccactgcaatgcaaagaatgtggatgcagagttctttaaacggatccgatcctcctactatgtagtcagtggtaatgatccaacagcacaggaacctagtaaagcagttctggatgctctgttggaaggaaagagccaatggggaaataatatgcaggtcacactgattccaacccatgatacagaagttatgagggagtggtaccaagagacccatgagaagcagcaagacctaaacatcatggttttggcaagcagcagcactgtagtcatgcaagatgagtctttccctgcatgtaagattgagctgtgattgtcatgaggtatgatgttggagagcacacaattggaaatcttgatacacgttcacaaaagcaaatgttttgtatcactttcaatagaggaactggtaaaatgcttctcagtagatttgtttagtactttttgaggtctcaggttgtgaaaatgtttggttagacattttatgccgagttcacactgcatgacgtttccggatcaacattattttcatatggcacgactctctgagggtagcattcagttgctgtggtgttcacactgcttgatggatcagtgaccggaggatacacactgcatgactacactagaaacaattgtccgcaactctgtctgacctgcaaaggcacacaagtagtgctaaaaaaaattcaagattatgcttgagactagagaatggtaaactgtaataagtattttaagataatttgccattcacctggtttgaaaaagagaaaaacaagattaagaaaattgtttgggagatgcagggaacaagggttgtgagttggagggcaataaataaggtgctggtcaagcaaattttttcgttctgttcaatcctagcaggcacacaatgttataagaaattattactaggttaaatttaggtcgtgacgtcaggtgaccaaaattaaatgtctagccagcgtctaaggacaacagtattttggcatccaataatgacgtcaaatgatgttaatatttggttgattttaggttgtgttggaaagtgaccaaaatccaacgtcgacccaacatctcatacgaacgtcatattgacatcaaatactgacatttatttgtcaggtatagcaaccaaaatctattgtctgatagatgtgtcatagtggtaacgtccacataacgtcaagctgtaacatcattagacattgatatttggttgattttatgttggacatcagacattgatgtcggctgacgttgggttctgatgtcaacccaattttcatttgcaaacaaaatgcaacatccccacaatgttgaggtacaatgtgaatctgatgttatgttgacatcctgtgcccgctgggatgttattgtaaagcttaattattcttggataatgatctataaattctccccaaactccccgctgccctgtatcttgctctgtcattggctgtaggtcatcgctgatatgtttttcagtcaaaactcatttcacacagcacgtctttgataattcacactgtgtcacacataaacaggcaccaatttgcctctgactttatccatttgtcagcgatttcacaaagcctgtcggcaagtgtaaactggggctaaaattattcagtgtgaactcggcattagacaacacagagcagttttgggtgtgtatcagacctcatcaaacacatacacacacacaaaagctacttttgagcaaactgtaacaaaatacacatattagtcagtggatgaactgtactgagcagctccagttaaacaaattcactaattttaaagcagatgataaatggatccatggatctctaaaaccagaactcaaataaaaatgtttacaccaaaggttgagggattgtttcaatgccttagaaagtaaaactgaatgtacaaaaaatatgatgcacttaatatgatgacaatgaaagggtatgtatgattcgctattacgcatatacagtatcataagatgcaaaagatattccatctgcactgacttgtttagaatatgaatgtgaagcttgctaccattgcaattaaatgatagaataaaggtctaccaatttaaaagtaaaaaaatgaaatgtttgagaaaacattgaacaccataaatcatatataacaaccttaatgttgtgttaaaaagaaacatcctgttcctcttcgtctccggctagcaaagaattaatttcattaattttattgccatgagggtaggagatatttctgactagccatcattagtttcaaatttcttgaatttcaccagcctttatgaatttgttaatataacttatcaaattttctacttactaatagtaagtagatagttaatagttaatagttaatagttactaatcaaattgtactgcatattgtttgcatatatttgctaatgtttttatcctattaactgagcaatacagttactatatttatttgccttatttaatgcttaatttataacttggaaaattgctttttggccattcatatgaatttaatgatgaaaggaaatctctatcatgtgaaacttgtgtgtcaacattcagctatttggtttttcttggacagctattgttttttcctcatacactaaatgcacataggcatttcactcagttttgagagctcttctaaagtatatgcactgttcattcaaatcttgtccatgtacatttttttattatgttagcatgtcaatgttgccagcaaaagccatcaagattgtggttcattgaaagttaagtaagcgaaagctttcctttcattaggaattgtttttttttataaaattgcactgtactgtaataattaattgcttagcgacagagtgagtggtcggatgatatgtgcatgagtaatgtattatccttgacatttctctgtgctttcttgttctaagaggggaaactcattgtttactgcaaggacatgactgaaatcatcacgagtttggatctagtttacagtatctaaatgttgaaaatcatgggcttatgggaatttcactttaacaaagcctattgattaggagtttgatcatcaattaaagatcatttctgtctattaagctgaacggattataccaatactaactgacagaaccactacaaggattttacagttcataacagtattatgccttaggttaaactattacagctgctcaactaacagctatactagggattttggtgtcattgtggcgcaaccctgttctgcagttcatgataacagtaactggaaatgacattaatatctcagaactggactctacttaaatgcatactaatgtcagcagcagtcaacagactcttctagccacatgcttcagcaaagtgcattgttgtttatccgcaagacatttaaacgactaaacacaacacacagatctagtctatcactcccctcttttcctctgatccactgtaacacttcaaggtaaattttctcaaaccctcacaaacaatccctctggttctcctcgctcaccttcgggtgctagtaagaatatgtctgcagttgtctatgaaatatataaagtatatatcttgtgaacttgcatctttccttttttttcattcctaatctcatatctagagaatagtctcaagtgaaagtattaccttgtgctttttctgatgtttgtgtgcgatatctcttcacaactacggcgtgtttgatgtaaagggaactacaattaaaaagaaggcaaatgagtccacaataaataacgttgtggaacaaaaaaaaaaaaaa
//
by
@meso_cacase at
DBCLS
This page is licensed under a
Creative Commons Attribution 4.0 International License (CC BY 4.0).
If you use GGRNA in your work, please cite:
Naito Y, Bono H. (2012)
GGRNA: an ultrafast, transcript-oriented search engine for genes and transcripts.
Nucleic Acids Res., 40, W592-W596.
[Full Text]