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Previous release (v1)
2024-11-01 10:26:37, GGRNA.v2 : RefSeq release 226 (Sep, 2024)
LOCUS XM_068214527 14984 bp mRNA linear VRT 08-SEP-2024
DEFINITION PREDICTED: Danio rerio CDC42 binding protein kinase alpha
(DMPK-like) a (cdc42bpaa), mRNA.
ACCESSION XM_068214527
VERSION XM_068214527.1
DBLINK BioProject: PRJNA13922
KEYWORDS RefSeq; corrected model.
SOURCE Danio rerio (zebrafish)
ORGANISM Danio rerio
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Actinopterygii; Neopterygii; Teleostei; Ostariophysi;
Cypriniformes; Danionidae; Danioninae; Danio.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NC_007128.7) and transcript sequence (GDQH01012544.1) annotated
using gene prediction method: Gnomon, supported by EST evidence.
Also see:
Documentation of NCBI's Annotation Process
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI RefSeq
Annotation Status :: Full annotation
Annotation Name :: GCF_000002035.6-RS_2024_08
Annotation Pipeline :: NCBI eukaryotic genome annotation
pipeline
Annotation Software Version :: 10.3
Annotation Method :: Best-placed RefSeq; Gnomon;
cmsearch; tRNAscan-SE
Features Annotated :: Gene; mRNA; CDS; ncRNA
Annotation Date :: 08/15/2024
##Genome-Annotation-Data-END##
##RefSeq-Attributes-START##
assembly gap :: added 118 transcript bases to patch genome assembly
gap
##RefSeq-Attributes-END##
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-1148 BX248131.6 89727-90874 c
1149-1240 BX248131.6 59869-59960 c
1241-1324 BX248131.6 47681-47764 c
1325-1420 BX248131.6 47182-47277 c
1421-1569 BX248131.6 37700-37848 c
1570-1663 BX248131.6 5017-5110 c
1664-1705 BX248131.6 539-580 c
1706-1906 FO818681.2 28480-28680
1907-2155 FO818681.2 29506-29754
2156-2235 FO818681.2 30127-30206
2236-2396 FO818681.2 31426-31586
2397-2519 FO818681.2 34182-34304
2520-2653 FO818681.2 36549-36682
2654-2896 FO818681.2 37758-38000
2897-3007 FO818681.2 38232-38342
3008-3255 FO818681.2 40733-40980
3256-3337 FO818681.2 41460-41541
3338-3441 FO818681.2 50559-50662
3442-3547 FO818681.2 53107-53212
3548-3696 FO818681.2 53673-53821
3697-3788 FO818681.2 55749-55840
3789-3865 FO818681.2 56289-56365
3866-3904 FO818681.2 56648-56686
3905-4024 FO818681.2 59827-59946
4025-4099 FO818681.2 60545-60619
4100-4205 FO818681.2 61736-61841
4206-4342 FO818681.2 61932-62068
4343-4482 FO818681.2 66158-66297
4483-4564 FO818681.2 66380-66461
4565-4784 FO818681.2 68946-69165
4785-4847 FO818681.2 71252-71314
4848-5447 FO818681.2 74184-74783
5448-5545 FO818681.2 77858-77955
5546-5630 FO818681.2 78104-78188
5631-5754 FO818681.2 82042-82165
5755-5872 FO818681.2 84535-84652
5873-5990 GDQH01012544.1 2971-3088 c
5991-6151 FO818681.2 89201-89361
6152-6226 FO818681.2 92259-92333
6227-14984 CU462878.9 93504-102261 c
FEATURES Location/Qualifiers
source 1..14984
/organism="Danio rerio"
/mol_type="mRNA"
/db_xref="taxon:7955"
/chromosome="17"
gene 1..14984
/gene="cdc42bpaa"
/note="CDC42 binding protein kinase alpha (DMPK-like) a;
The sequence of the model RefSeq transcript was modified
relative to its source genomic sequence to represent the
inferred CDS: added 118 bases not found in genome
assembly; Derived by automated computational analysis
using gene prediction method: Gnomon. Supporting evidence
includes similarity to: 10 ESTs, 1 long SRA read, 3
Proteins, and 99% coverage of the annotated genomic
feature by RNAseq alignments"
/db_xref="GeneID:567912"
/db_xref="ZFIN:ZDB-GENE-120727-12"
misc_feature 1
/gene="cdc42bpaa"
/experiment="COORDINATES: cap analysis [ECO:0007248]"
/note="transcription start site"
CDS 971..6358
/gene="cdc42bpaa"
/note="The sequence of the model RefSeq protein was
modified relative to its source genomic sequence to
represent the inferred CDS: added 118 bases not found in
genome assembly"
/codon_start=1
/product="serine/threonine-protein kinase MRCK alpha"
/protein_id="XP_068070628.1"
/db_xref="GeneID:567912"
/db_xref="ZFIN:ZDB-GENE-120727-12"
/translation="
MSGEVRLKKLEKLILDGPVQANGQCFSVESLLDVLICIYDECTNSPLRREKNVAEFLEWAKPFTSKVKQMRLHKEDFEILKVIGRGAFGEVAVVKVKSSDKVFAMKILNKWEMLKRAETACFREERDVLVNGDSQWITTLHYAFQDDNFLYLVMDYYVGGDLLTLLSKFEDRLPEDMARFYLAEMVLAIDSVHQLHYVHRDIKPDNILIDVNGHIRLADFGSCLKLTEDGTTARQDFPPTSDKSRVQSSVAVGTPDYISPEILQAMEDGKGKYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHKERFQFPAQMTDVSENAKDLIRRLICCREHRLGQNGIEDFKQHPFFSGIDWQNIRNCDAPYIPEVSSPSDTSNFDVDDDCLKNTETMPPPSHTAFSGHHLPFVGFTYTSNCTLSDRGCLRESAAPAQMDVCVQRGLEDSLATEAYERRIRRLEQEKLELGRKLQESTKAVQALQYSSSDGPVSSNREFEIRGLKEEIEMLKKQIADTGQVEQQLEQAISARSDMEDSSKQIRSLEKQLKSTKQERDDLQKRLQESSDKQKVQGKELKEADSQRKMAMQEFAEVSEKVTELRSLKQRLTRQLRDKEEELDSLNQKVEALRLDVRKAERAKKEMEVQAEEWSAEAQKEKKLRERSEQFSRQLEEELDSIKQKHVGRSPSTGSSEQNQELSKLRADLEKKTVHFKEELSRIEQQHANELKSLKKELKESEGQQLSLKKEIMMLKDKLDKSRRESHSERDELEFERVLLSEENKKLSSELDKLSCSNKQLEEKIRVLADEKESVAHWEAQITEIIQWVSDEKDARGYLQALATKMTEELEGLKNASLGARATDMPWKVRRLAKLDMSARLELQSALDAEIKAKQTIQDELNKVKASHMATECKLEESEKQNQDLQAEIQRLKQETDNLRMSKGVKHQDSQNSFLAFLNAPTSALDQFDRSTASGPAGKGRRIDSIDNFSLSNTPSREEDGRSQATSHSRSPSTTSDVESHEVDQPQRGAQTPVRSGYSSSAHSIPKPKAHQFVVKTFNTPTKCNQCTSLMVGIIRQGCTCEVCNFSCHVTCADKAPAVCPIPPDQTKGPLGIDPQKGIGTAYEGHVKVPKPLGVKKGWQRAIAVVCDFKLFLYDLPEGKAAQPGVVVNQVIDMRDEEFSVSPVLASDVIHANRKDIPCIFRVTASQLCASSNKKCSILILADSDQERTKWVGLLKELHRLLKKSKLKERFVYVPKEAYDCALPLIKTTQSAAIIDHERIALGNEEGLYVIHVTKDEIIKVGDNKKVHQIELIPSEQLIAVISGRNGHVRLYPMTALDDRDVESYKIAETKGCQTLLSGTIRHGSLTCLFVAMKKPDKVIVYELNKSKARHRKLREILVPGSVQWMGLQGEKLCVGFQSGFLRYSLQGDGGTSSLLHPDDHTLGFIEQLGLDSLCAVEISSKELLLCFSSIGIYVDYQGRRSRQQELMWPATPTACRYNAPYLSVYSENAVDVFDVNTMEWIQTIPLKKVHPLNSDGSLNLLGLETVRLIYFKNKTAEGDELVVPETSDNSRKQMVRSTASKRRFSFRIPEEERVLQRREMLRDPEIRNKLISNPTNFNHVVHMGPGDGIQILKELPMNMRSQESRGVLGASVSIPSISRTRPEPGRSMSASSGLGTRSSSQNGSALRQDFSVGNYGSTKRQMTSPSDGSLSSGGGMDCGGDAPLSQFDREWPGVSPTEKTPDLKRALRTLLSKLKDSESPRHSTASNSSNLSSPPSPSSPHKSKTQSLERGEHLGWGT"
polyA_site 14984
/gene="cdc42bpaa"
/experiment="COORDINATES: polyA evidence [ECO:0006239]"
ORIGIN
atgtttctcctcgtcattcctgaaagctgaaacagactcagttgcggcgggcagatgagagggaatcaccccgtcacccctcatccacacctccatcctcctcttcatcttcaccccatcatcttcttcatcctctgacggacttcatcccgtgggcaggacatactttttgaggaattatacatggggaaaagactgtggaaaactaagccacactcaatcggtgcctttggagaacttcgctaaactcacttttcgaggatattaacgtattttatccacctcttccacacagatatcctacaaatatcacacttgggggcgtgtcatgttatttccgatggttttggtgtgaattctctttgaggacgagctaaaatcgttagcctgctagccgaacgtctttattagctggatcattagcaccagtaattttaaccagttaaagttgatcaaactgaaggcatttcaaagttgaaatacttgacatggtttggcactcgcgtgtgttattataaatacacgattttttgtgtttatatttgagaaaaacacttcagatgcattgtgtcgagagaatgttgttagcgcgttagctcgagtggctagataaaggcacttaaatatttgtaaatttatatttgcggaaggcaagatatcatttacattttcacccaaaagtgcgagaagtttttaggataaatgacttaatttgctattttccaatttattgcctggtatgttgatctttcactgagtacattagaaaatgtaacgttaatattagtgagaagttttatttgtgtatgaaattacaaatatttacttgactgcagtcttgagactgcattttactgtgatgatgggagggttatgtttatagccctctgcacaccccttcaaagagtattcacatctactttttttaaagaatagtacactacatttttggactgactagttttgaaccatgtctggggaagtgcgtttgaaaaagctggaaaaactgatcctggatggtcctgtccaggctaatggacagtgttttagtgtggaaagtcttctggatgttctcatctgcatttatgatgagtgcaccaactccccactgagaagagagaaaaatgttgctgagtttttggaatgggccaaaccgttcacctctaaagtgaaacagatgcgattgcacaaggaggacttcgagatactgaaggtcattggtcgaggagctttcggcgaggtagcagttgtaaaggtgaaaagttcagacaaggtgtttgccatgaagatcctcaacaagtgggagatgctgaaacgagcagagacagcatgttttcgggaggaacgggatgtgctggtgaacggggacagtcagtggatcaccacactacactacgcttttcaggatgacaacttcctgtacctggtgatggattactatgtgggcggtgacctcttgactctcctcagcaagtttgaggatcgtttaccagaggacatggcccgcttctacctggcggagatggttctggccatcgattctgtgcatcagctccattacgtccacagagacattaagccagataacatcctcatagatgtgaacggacatattcgactcgcagatttcggctcctgtctgaaactcacggaggatggaacgacagctcggcaggatttccccccgacttctgacaagagcagagtgcagtcgtctgttgctgtgggcacgccagactacatctctcctgagatcctgcaggccatggaggatgggaaagggaaatatggccctgaatgtgactggtggtcactgggtgtttgcatgtatgaaatgctctatggggaaactcctttctatgctgagtccctggtggaaacctatggcaagattatgaaccacaaggaacggttccagtttcctgctcaaatgacggacgtgtctgaaaatgccaaagatctgatccgcagactcatctgctgcagagagcacaggctagggcagaacggcatcgaggacttcaaacaacaccccttcttctctggcattgactggcagaacatccgcaactgtgacgccccctacatccctgaagtcagcagcccgtctgacacatcaaactttgacgtggacgacgactgcctcaagaacacggagacgatgccacctccttcccacaccgctttttcaggacaccatctcccatttgttggattcacctacaccagcaactgtacactctctgatcggggttgcctgcgtgagtctgcggctccagcacagatggatgtttgtgttcagcgcggcctggaggacagtctggccactgaggcgtacgagaggaggattcgccgtctggagcaggagaaactggagctcggtcgcaagctacaagagtccacaaaagcggtacaggctctgcagtattccagctcggatgggcctgtttcctccaacagagagtttgagatccgcggactgaaggaggagatagaaatgctaaaaaaacagattgcagatacaggacaggtggagcagcagctggaacaagccatttctgcacgcagtgatatggaggactcctccaaacagatccggtctctggaaaaacagctcaagagcacaaagcaggagagagatgacctgcagaagcgtctgcaggagtcctcagacaagcagaaagttcaggggaaggagctgaaggaggccgacagtcagaggaaaatggccatgcaggagtttgcggaggtgagcgagaaagtgacggagctgaggtcactcaaacagcgtctgacccgacagctacgggacaaagaggaggagctggattcactcaatcagaaggtggaggcgcttcggctggatgtgcgcaaagcagagagagccaagaaagagatggaggtccaggctgaagagtggtctgctgaggctcagaaagagaagaagttgagggagcgcagcgagcagttcagcagacagctggaagaagagctggacagcatcaagcagaagcatgtgggccgctctccaagcacggggtcgtctgagcagaaccaagagcttagtaaactacgagcagacctggaaaagaagacggtgcacttcaaagaagagctttcccgcatagaacagcaacatgccaatgaactgaagagcctgaagaaggaactgaaagagtcagagggacagcagctcagcttgaagaaagagatcatgatgcttaaagacaagctggacaagtcccgcagagagagtcatagcgaacgagacgagcttgagtttgagcgagtgctgctgtctgaagaaaacaagaaactgtccagtgaactcgacaagttgagctgcagtaacaaacagctggaggagaagattagagtactggctgatgagaaagagagcgtggctcactgggaggcccaaatcacagaaatcattcagtgggtcagtgatgagaaagatgctcgaggatatctgcaggctttggccactaagatgacagaggaactggaaggcctgaagaatgccagtttgggtgcacgtgccactgacatgccatggaaggtgagacgtctggccaaactggatatgtctgcccgtctggaactgcagtctgcactggatgctgagattaaagccaaacaaaccatccaggatgagctcaacaaagtcaaggcatcccatatggctactgagtgcaaactggaggagtcggaaaagcaaaaccaggacctgcaggcagagatccagaggctgaaacaagaaacggacaatctgcgcatgtctaaaggtgtcaagcaccaagactcccagaattccttcctggcattcctcaatgctccaacctcagctctggatcagtttgatcgctccactgccagtgggccggctggtaaaggcagacgtattgattccattgataacttcagcctctccaacacaccgtcacgggaggaagatggaagatcccaggcgacgtcccactctcgctcgccctctaccactagcgacgtggagtctcatgaggtagatcagccacagcgaggtgcacaaactcctgtacgatcaggatacagcagctccgctcacagcatacctaaaccaaaagcccatcagtttgtggtgaaaaccttcaacacacctactaaatgtaaccagtgtacgtctctgatggtggggatcatccgtcagggctgcacgtgtgaagtctgtaacttctcctgtcatgtgacgtgtgcggataaagctcccgctgtgtgcccgatcccaccagatcaaaccaaaggaccgctcggcatcgaccctcagaagggcatcggcacagcatatgagggccacgtaaaggtgcccaaacctttaggcgtgaaaaagggatggcagagggccattgctgtggtctgtgacttcaaactcttcttatatgatctcccggaaggcaaagctgctcagcctggtgtcgtggtgaaccaggtcattgacatgagggatgaggaattttctgttagccctgttttggcgtcagatgtcattcatgcaaacaggaaggatattccctgtatcttcagagtgacagcatcacagctctgcgcctccagcaataaaaaatgctccattttgatcctggccgacagcgatcaggaaagaacaaagtgggtcggccttttgaaggagctgcaccggctcttgaagaaaagcaaactgaaagaacgctttgtttacgtccctaaagaagcatatgactgcgcactgcctctcatcaaaaccacacagtctgctgctattatagatcatgagaggattgctctgggaaacgaggaggggttatacgttattcatgttaccaaagatgaaattatcaaagtaggggacaacaaaaaggttcatcaaatcgaactgatcccatcagagcagttgattgctgtgatatccggccgaaatggccacgtgcgcttatacccaatgacggcactggatgatcgcgatgtcgaatcctacaagatag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//
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@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.
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