2024-05-06 12:12:50, GGRNA.v2 : RefSeq release 222 (Jan, 2024)
LOCUS NM_001400489 4322 bp mRNA linear VRT 24-SEP-2023 DEFINITION Gallus gallus matrin 3 (MATR3), transcript variant 12, mRNA. ACCESSION NM_001400489 VERSION NM_001400489.1 KEYWORDS RefSeq. SOURCE Gallus gallus (chicken) ORGANISM Gallus gallus Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Archelosauria; Archosauria; Dinosauria; Saurischia; Theropoda; Coelurosauria; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Phasianinae; Gallus. REFERENCE 1 (bases 1 to 4322) AUTHORS Tang H, Finn RD and Thomas PD. TITLE TreeGrafter: phylogenetic tree-based annotation of proteins with Gene Ontology terms and other annotations JOURNAL Bioinformatics 35 (3), 518-520 (2019) PUBMED 30032202 REFERENCE 2 (bases 1 to 4322) AUTHORS Burge S, Kelly E, Lonsdale D, Mutowo-Muellenet P, McAnulla C, Mitchell A, Sangrador-Vegas A, Yong SY, Mulder N and Hunter S. TITLE Manual GO annotation of predictive protein signatures: the InterPro approach to GO curation JOURNAL Database (Oxford) 2012, bar068 (2012) PUBMED 22301074 REMARK Publication Status: Online-Only REFERENCE 3 (bases 1 to 4322) AUTHORS Hisada-Ishii S, Ebihara M, Kobayashi N and Kitagawa Y. TITLE Bipartite nuclear localization signal of matrin 3 is essential for vertebrate cells JOURNAL Biochem Biophys Res Commun 354 (1), 72-76 (2007) PUBMED 17223080 REMARK GeneRIF: Exogenous cmatr3 rescued the HeLa cells where human matrin 3 was suppressed by RNA interference, but cmatr3 containing deletions at either of the basic amino acid clusters or the linker could not. COMMENT VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from JAENSK010000256.1. ##Evidence-Data-START## Transcript exon combination :: SRR13267659.17368.1 [ECO:0000332] RNAseq introns :: mixed sample support SAMEA103992290, SAMEA103992323 [ECO:0006172] ##Evidence-Data-END## PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP 1-30 JAENSK010000256.1 718729-718758 c 31-1109 JAENSK010000256.1 709460-710538 c 1110-1171 JAENSK010000256.1 704700-704761 c 1172-1213 JAENSK010000256.1 703999-704040 c 1214-1317 JAENSK010000256.1 703580-703683 c 1318-1370 JAENSK010000256.1 702510-702562 c 1371-1496 JAENSK010000256.1 701914-702039 c 1497-1622 JAENSK010000256.1 701185-701310 c 1623-1793 JAENSK010000256.1 700806-700976 c 1794-1925 JAENSK010000256.1 699534-699665 c 1926-1969 JAENSK010000256.1 698540-698583 c 1970-2360 JAENSK010000256.1 697688-698078 c 2361-2754 JAENSK010000256.1 695787-696180 c 2755-4322 JAENSK010000256.1 691941-693508 c FEATURES Location/Qualifiers source 1..4322 /organism="Gallus gallus" /mol_type="mRNA" /db_xref="taxon:9031" /chromosome="13" /map="13" gene 1..4322 /gene="MATR3" /gene_synonym="matrin-3" /note="matrin 3" /db_xref="CGNC:1772" /db_xref="GeneID:373948" exon 1..30 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 31..1109 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" misc_feature 198..200 /gene="MATR3" /gene_synonym="matrin-3" /note="upstream in-frame stop codon" CDS 219..2768 /gene="MATR3" /gene_synonym="matrin-3" /note="isoform 4 is encoded by transcript variant 12" /codon_start=1 /product="matrin-3 isoform 4" /protein_id="NP_001387418.1" /db_xref="CGNC:1772" /db_xref="GeneID:373948" /translation="
MSKSFQQSSLSRDSQGHGRELSAGIGLLAAATQSLNMPASLGRMNQGTARLASLMNLGMSSSLNQQGSHSALSSGSTSSHNLQSIFNIGSRGPLPLSSQHRGDADQATNILASFGLSARDLDELSRYPEDKITPENLPQILLQLKRRRAEEGYGRDGRSSTREPPYRVPRDDWEEKRHFRRDSFDDRGPSLNPVVDYDHGSRSQESGYYDRMDYEDDRLRDGERCRDESFYGETSHNYHKFDSEYDRMGRGPGPERSLFEKKRGAPPNSNIEDFHGFLPKGYPHLCSICDMPVHSNKEWNHHINGATHGRRCQLLLEIYPEWNPDSDSGHGMGDPFMLQQSTNPAPGILGPPPPPFHLGGPPVGPRGAGNGNMQGPRHMQKGRVETSRVVHIMDFQRGKNLRYQLLQLVEPFGIITNHLILNKINEAFIEMSTTEDAQAAVEYYSTTPALVFGKPVRVHLSQKYKRIKKPEGKPDQKTEAPKPELGRVIHLSNLPHSGYSDNAVLKLAEPYGKIKNYILMRMKSQAFIEMETREDALAMVEHCANKALWFQGRCVKVDLSEKYKKLVLRIPNKGVELLKKDKTRKRTYSPDSKDSPSDKKSKTDATQKPESGTVEDKAKEEKQDDTAEPSGTKSSEQADQDEPSLLLESEDELLVDEEEAAALLESGSSAGDDADVANLTDVTTEEKKDPADDVTVKTEGNVVANPATKKKLKKRYVGGFPRSMEGFVTLDEVGDEEDSDHQKLRKSGLAVKPAGKNDDSLAEIKVDKIEEPEQENETLENGTKTEDNLKAEAVEASDTTAAQDPEKNAHENIDTQDEQETKSVQEKALIPDEFRIGPYQPNVPVENSG"
misc_feature 1059..1163 /gene="MATR3" /gene_synonym="matrin-3" /note="U1-like zinc finger; Region: ZnF_U1; smart00451" /db_xref="CDD:197732" misc_feature 1380..1607 /gene="MATR3" /gene_synonym="matrin-3" /note="RNA recognition motif 1 (RRM1) found in vertebrate matrin-3; Region: RRM1_MATR3; cd12714" /db_xref="CDD:410113" misc_feature 1677..1916 /gene="MATR3" /gene_synonym="matrin-3" /note="RNA recognition motif 2 (RRM2) found in vertebrate matrin-3; Region: RRM2_MATR3; cd12715" /db_xref="CDD:410114" misc_feature <1953..2699 /gene="MATR3" /gene_synonym="matrin-3" /note="K+-dependent Na+/Ca+ exchanger; Region: 2A1904; TIGR00927" /db_xref="CDD:273344" exon 1110..1171 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1172..1213 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1214..1317 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1318..1370 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1371..1496 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1497..1622 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1623..1793 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1794..1925 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1926..1969 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 1970..2360 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 2361..2754 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" exon 2755..4322 /gene="MATR3" /gene_synonym="matrin-3" /inference="alignment:Splign:2.1.0" ORIGIN
agacagctgcgctgctttccgttccatcagaattgtctggtgtttctcagcttgaagaagatctgcagtcattattgatcctctttcttggcgttaccattttcgaagtgaagtttgcctagctttctagtgcgagctttcttttcagccatcttaaaccaaaccaaacaaacaaacaaagattttgatccgtaaagtagacaagctatagttctacaatgtccaagtcattccagcagtcatctctgagtagggattcacaaggtcatgggcgtgagctctctgcaggaataggccttcttgctgctgctacccagtctttaaatatgccagcatctcttggaaggatgaaccagggtactgcacgccttgctagcttaatgaatcttggaatgagttcttcattgaaccaacaaggatctcatagtgcactgtcttctggtagtacctcttcccataatttgcagtctatatttaacattggaagtagaggtccgctccctttgtcttctcagcaccgtggagatgcagaccaggccactaatattttggccagctttggtctgtctgctagagacttagatgaactgagtcgctatcccgaggacaagattactcctgaaaacttgcctcagatccttctacaacttaaaaggaggagagctgaagaaggttatggtagagatggcagatcatccacacgggaaccaccgtacagagtacctagggatgattgggaagaaaaaaggcattttagaagagatagctttgatgatcgtggtcctagtctcaacccggtagttgactatgaccatggaagtcgttctcaagaatctggttattatgacagaatggattatgaagatgacagattgagagatggagaaaggtgtagggatgaatctttctatggtgagacttcgcataactatcataaatttgacagtgagtatgacagaatgggtcgtggccctggtcccgagagatctctctttgagaaaaagagaggtgctcctccaaatagcaatattgaagacttccatggattcttaccgaagggttatccccatctgtgctctatatgtgatatgccagttcattctaataaggagtggaatcaccatatcaatggagcgactcatggccgacgctgtcagctgctgcttgaaatatatccagaatggaaccctgacagtgattcaggacatggaatgggcgatccctttatgttgcagcagtccacaaaccctgcaccaggaattctgggacccccaccacctccattccacctgggagggcctcctgttgggccaagaggagctggaaatggcaacatgcaaggaccgagacacatgcagaagggcagagtggaaacaagcagagttgttcacatcatggatttccagagagggaagaacttgagatatcaattgcttcagcttgttgaaccatttggaataattacaaatcacttgattctaaacaaaatcaatgaggcatttattgaaatgtcaaccactgaagacgctcaggctgcagtagagtactattcaacaacacctgcactggtatttggtaaaccagtcagagtccacctgtcgcagaaatacaaaaggataaagaaacctgaaggtaaacctgaccaaaaaacagaggcaccaaaaccagaacttggtcgtgtgattcacctcagcaatttacctcattcggggtactctgataacgccgtgctcaagctggctgaaccatatggaaaaattaagaactacatactcatgaggatgaagagccaggctttcattgaaatggagaccagagaagatgctctagccatggttgaacattgtgccaacaaagctctttggttccaaggcagatgtgtgaaagtggatctatctgaaaaatacaagaaattggtgttgaggattccaaacaaaggagttgaacttctgaaaaaggataaaactagaaagagaacatattctccagacagtaaagactctccaagtgataagaagtctaagactgatgctactcagaagcctgaaagtggcactgtagaagataaagcaaaagaggagaagcaagatgatactgctgagccatcgggcactaaaagcagcgagcaggcagaccaagatgagcctagtttactccttgaatctgaagatgagctcctagtggatgaggaggaagcagcagcactgctggaaagtggcagctcagcaggagatgatgcagatgttgccaatttaactgatgtgactactgaagaaaaaaaggacccagctgatgatgtgaccgtaaaaaccgagggaaatgttgtggccaatccagcaacaaagaaaaaacttaaaaagcgatacgtgggtggctttccacggagcatggaaggctttgtcactctagatgaggttggtgatgaagaagactcagatcatcagaaacttcggaagtcgggtttggcagtaaaacctgctggcaaaaatgatgatagtttggcagaaatcaaagtagacaagattgaggagccagagcaggaaaatgaaacgttagaaaatggtaccaagactgaagataatctgaaggctgaagctgttgaagcttccgacaccacagcagcacaagatcctgagaaaaatgcccatgaaaatatagacacccaggatgaacaggaaacaaagagtgtccaagagaaagctcttattccagatgaatttaggattgggccataccagccaaatgttcctgttgaaaattctggataaaatggcagaagactacaggcaaaagaaagaagcataaaaagaaggatggatgtaaggaaaacagtggctttgttcttattgttaatctttttttaaaagcagtacaagtagtagatggaaatactgtattctttttttttttgttttagtgagatacggtagatgttataggtctgttcatgtgttcagtgttgtagcaaaaagcataagcagttaagttaatgaaaaaaatttgttcttcatgtgggaatggcaacaagttttcgttttgacactgagctattaaagaaaaaatcttgcatccttgtggaacgctcgtctatggcaagaaaattttcttgaagtgaaatttactactttcaagcttcgaaaattcgcctatccattctcaataaaaaataaaaagtaacactgtatttttatttcatctagaacattccgtatttcagtctgagcctagcagatacctaatttggagtgtgaggctgtcattgcatttcacttttgaaaagtctttaaatgtaagttgcatttttaaatgttgaattgcagtttcttttaatgtcattgttgttatatagcaaataggaaaattagtgattagtcagctttacaactttgtgattttttttcctaagctcttgatagactttcctattcagctataccttgtatttttagtgagaagtaaatgcccattctcctctgaccagtattatttcctcgagctcttcctgcttttacttgaatcttgcagctgtcgtacacctctgctatattcaaaagcagcatttgagtctgaaatgtaaaaaacaaaaaacaaaaaaacaaaaaaagcagtatctttatattcttcacatgtaatttttcatacctgcattttaaaactgtttctgttgatctggttttgtcaagaatcttttagaactgtgctcttaatgtacctgcacatgtgatatgtgaacaggaatttgcatgtgtaacctgtgtttatccgtagtttttgttatttactgcttatttgtgaattcaggttactaaagtgatttaccaataaacaaagctaggcaacagtaacttgtacagatgtttggcatgttaaccattgtgtttactgagctcttgaatcccttgttcatgatagcacactgaaactgcagctgtcctgaaattgcatgttttaactcctgtgatttagaagcttactaaataacttctttctcttttctaaaacttcttccatttccaaacaaattaaaatattacttgttaaaacactggtaggtatattctgctgacagttttatttcttaactttaatgatattctcatcaaagctaaagttcaggccacaccatgttcatatgggcaaaatgactcggggtggttatttcaacccaaaactcctgaccagtggggattcttcagtgctgagaataaattttttcaaatgtaggaggcagaaccctgatgaagttggtttacttaagtaaatgcacctagcggatacgatggtgtactttgtgaaattaaaatctcgatagcttgtctcct
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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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