2024-09-28 11:18:38, GGRNA.v2 : RefSeq release 225 (Jul, 2024)
LOCUS NM_001395237 5786 bp mRNA linear ROD 12-JUN-2024 DEFINITION Mus musculus coiled-coil domain containing 7A (Ccdc7a), transcript variant 3, mRNA. ACCESSION NM_001395237 VERSION NM_001395237.1 KEYWORDS RefSeq; RefSeq Select. SOURCE Mus musculus (house mouse) ORGANISM Mus musculus Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi; Mammalia; Eutheria; Euarchontoglires; Glires; Rodentia; Myomorpha; Muroidea; Muridae; Murinae; Mus; Mus. REFERENCE 1 (bases 1 to 5786) AUTHORS Satoh,A., Brace,C.S., Rensing,N. and Imai,S. TITLE Deficiency of Prdm13, a dorsomedial hypothalamus-enriched gene, mimics age-associated changes in sleep quality and adiposity JOURNAL Aging Cell 14 (2), 209-218 (2015) PUBMED 25546159 REFERENCE 2 (bases 1 to 5786) AUTHORS Zhou,C., Zhang,P., Xu,G.C., Wu,D.M., Liu,R.Y., Zeng,Q. and Wang,C.T. TITLE RNA interference of Biot2 induces G1 phase arrest and apoptosis in mouse colorectal cancer cell line JOURNAL Oncol Res 22 (2), 93-103 (2015) PUBMED 25706396 REMARK GeneRIF: silencing Biot2 in CT26 cells by RNA interference can inhibit cell growth in vitro and in vivo. REFERENCE 3 (bases 1 to 5786) AUTHORS Satoh,A., Brace,C.S., Rensing,N., Cliften,P., Wozniak,D.F., Herzog,E.D., Yamada,K.A. and Imai,S. TITLE Sirt1 extends life span and delays aging in mice through the regulation of Nk2 homeobox 1 in the DMH and LH JOURNAL Cell Metab 18 (3), 416-430 (2013) PUBMED 24011076 REFERENCE 4 (bases 1 to 5786) AUTHORS Satoh,A., Brace,C.S., Ben-Josef,G., West,T., Wozniak,D.F., Holtzman,D.M., Herzog,E.D. and Imai,S. TITLE SIRT1 promotes the central adaptive response to diet restriction through activation of the dorsomedial and lateral nuclei of the hypothalamus JOURNAL J Neurosci 30 (30), 10220-10232 (2010) PUBMED 20668205 REFERENCE 5 (bases 1 to 5786) AUTHORS Wang,H., Zhang,P. and Wang,C.T. TITLE [Analysis of expression pattern of a novel testis-highly expressed gene Biot2-L and the primary study on its role in testis development] JOURNAL Sichuan Da Xue Xue Bao Yi Xue Ban 40 (5), 853-856 (2009) PUBMED 19950598 REMARK GeneRIF: Biot2-L was highly expressed in adult testis, and its expression increased regularly during testis development. REFERENCE 6 (bases 1 to 5786) AUTHORS Wang,C.T., Zhang,P., Wang,Y.S., Ruan,X.Z., Li,Z.Y., Peng,F., Yang,H.S. and Wei,Y.Q. TITLE RNA interference against Biot2, a novel mouse testis-specific gene, inhibits the growth of tumor cells JOURNAL Cell Mol Biol Lett 14 (3), 363-376 (2009) PUBMED 19277478 REMARK GeneRIF: The Biot2 transcript was detected only and strongly in the testis tissues and abundantly in five types of murine cancer cell line. COMMENT VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC148114.8, AC104928.8, AC159993.10 and AC156608.10. ##Evidence-Data-START## RNAseq introns :: partial sample support SAMN00849384 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology NMD candidate :: translation inferred from conservation RefSeq Select criteria :: based on expression, longest protein ##RefSeq-Attributes-END## PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP 1-225 AC148114.8 21725-21949 c 226-343 AC148114.8 19359-19476 c 344-667 AC148114.8 18031-18354 c 668-754 AC148114.8 15175-15261 c 755-838 AC104928.8 168976-169059 c 839-859 AC104928.8 149013-149033 c 860-892 AC104928.8 148716-148748 c 893-1044 AC104928.8 147966-148117 c 1045-1106 AC104928.8 122170-122231 c 1107-1163 AC104928.8 114390-114446 c 1164-1236 AC104928.8 110127-110199 c 1237-1267 AC104928.8 106747-106777 c 1268-1357 AC104928.8 106322-106411 c 1358-1437 AC104928.8 101471-101550 c 1438-1492 AC159993.10 2853-2907 1493-1558 AC159993.10 4860-4925 1559-1741 AC159993.10 12411-12593 1742-1779 AC159993.10 15796-15833 1780-1918 AC159993.10 32734-32872 1919-1958 AC159993.10 33648-33687 1959-2063 AC159993.10 41617-41721 2064-2165 AC159993.10 42260-42361 2166-2261 AC159993.10 53228-53323 2262-2333 AC159993.10 55553-55624 2334-2438 AC159993.10 56902-57006 2439-2543 AC159993.10 57202-57306 2544-2615 AC159993.10 60175-60246 2616-2720 AC159993.10 61604-61708 2721-2801 AC159993.10 64325-64405 2802-2912 AC159993.10 65655-65765 2913-3026 AC159993.10 81216-81329 3027-3122 AC159993.10 84943-85038 3123-3233 AC159993.10 87480-87590 3234-3338 AC159993.10 95789-95893 3339-3467 AC159993.10 96220-96348 3468-3575 AC159993.10 109818-109925 3576-3683 AC159993.10 121290-121397 3684-3743 AC159993.10 135297-135356 3744-3824 AC159993.10 137929-138009 3825-3884 AC159993.10 141199-141258 3885-3959 AC159993.10 142971-143045 3960-4061 AC159993.10 144700-144801 4062-4178 AC159993.10 148047-148163 4179-4286 AC159993.10 151921-152028 4287-4355 AC159993.10 153921-153989 4356-4451 AC159993.10 156256-156351 4452-4547 AC159993.10 157484-157579 4548-4643 AC159993.10 169424-169519 4644-4739 AC159993.10 178167-178262 4740-4850 AC159993.10 178601-178711 4851-4946 AC159993.10 179835-179930 4947-5042 AC159993.10 187250-187345 5043-5138 AC159993.10 190001-190096 5139-5234 AC156608.10 6056-6151 5235-5330 AC156608.10 7574-7669 5331-5426 AC156608.10 21418-21513 5427-5647 AC156608.10 30258-30478 5648-5786 AC156608.10 33082-33220 FEATURES Location/Qualifiers source 1..5786 /organism="Mus musculus" /mol_type="mRNA" /strain="C57BL/6" /db_xref="taxon:10090" /chromosome="8" /map="8 76.12 cM" gene 1..5786 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="coiled-coil domain containing 7A" /db_xref="GeneID:74703" /db_xref="MGI:MGI:1921953" exon 1..225 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 226..343 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" misc_feature 305..307 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="upstream in-frame stop codon" exon 344..667 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" CDS 395..5446 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="isoform 3 is encoded by transcript variant 3; testis-specific antigen; putative cancer/testis antigen; coiled-coil domain-containing protein 7; coiled-coil domain containing 7" /codon_start=1 /product="coiled-coil domain-containing protein 7 isoform 3" /protein_id="NP_001382166.1" /db_xref="GeneID:74703" /db_xref="MGI:MGI:1921953" /translation="
MKCAKHPSTISMKLTSVPELPYKKGLLNSSPKPKEKHNAKSKYGKNESMVLRSPPTGESIVRFALPIPLSKTKDKISADEMVRRITTNLKMVVSNLEDTYGACYDNGEKAAEKSEAEGLSIGDDVSSFLLCCSQFTSQLEEAVKEECGALESLYKWFQQQVNQMEEISKDQSNLEELQSDGKTASLNIVQIAKLARKFEDFKSRLKTRKEVMQTKNEDKEIMAETLKHYGLMEKQIEEFITSHSALESQTETESQSGTPSVTTRMARMIKIFENQSTMLEKALNDQQTIESKYKQLETDFQMLIMEKTLLEAEIRRLREIERVKSAAKEEQTKKSGKSEKKKFKEKEKNLSPNREFKSIEELLQIQKEAELLKTEKKTLQGQLKWALEEAERNKTQLEFVLHQKMEMFKEESKTKVGQSQNKSKVKIEDSKDSLPKKSDTQLGGQRKDQISSDQSKRSVGERPKKKQLADIDPSAVEDFPPETFKSFTVMPLIEEHRESISSQPKEEMAKASEQSEAEDIEGPLEIPSESSNEDDDLLPEDESPMMEQVTDVGRYKSIYISAEPIDTMSLISRTQSEMETLEAINYDNVLNEGEEQDKKIGKDSDTGRKSKRKRSSKIRKLSTHEEESDIVHYEEATKAKVPSKKRASDPYGDEAYESRGSVSKAQTYTKKQGTHQRGRGSASDAYGDEAYESRGSISKAQTYTRKQGTHQRGRGSVQEEESDTVHYEEVTRAKVPSKKQASDPYGDEAYESQGSVSKAHTHTKKQGTHQRGRGSVHEEESDTMNYEVPRKSKISSRRKGFALPITHQVEMHSSESQGSISKSNTETKKQGTHKRGRDSDADGARTPVSQGSDSKADTERKKHRSKEESTISKDSIPVLDEVQDKTFEHQESGLRLEVQAKKLTFSSQNIHNEESATDIKVEYQNVPSSSQVQLKKQKPLGGEIFTTHFVVPAESHAQLYQTHTPETQIERGTTSGTARLTTIPVEHPKKEASPDNLFPEKKLYITRAPTQTKKQYPPWDAKAESQNIELRSDENYMSVDPTSKDHPQFKKLKTTHIENTAQKKTVKEVQGISEPQTKLNPTMSGIILHLDMDRVVETDLENLEETIVPHVLRSELEIGTDAKNMPETPTSREAVRTEAKGNQDVTISIAKGMKLIGKLKDQHGLSSFASKDTISPGKSLIKSSRDNQDDSLLETKPQENTSDKYHPSKTFPTKVINMLPFSEKSLGSTSANVDVAPKPVYRASRGRSRISKALQQLLKTSEHLKPTSTKNQNADLEKHLYISVRSANKHTQKDKKHGQSNNQKLKKQGALSSTKKQKHKEQPKTETIVENNDKFDDNLMMTTSSPNIKIIKELSKTLNLDGGDIELSDFVFKTASAAKKLENKGPSKTKNLNKESSRDIHILHLTTSAIRTLLLDEEAKIRSLEKKLMKQSTILQKSVSSMKKFMFEEPSRETKMKRKKREKRKIVVKSPHILPITTTQKHTIKEKSEISNLEKPIVRGTDILKKSTSARKKRVLKGKSKSATLPKKCDNFPFDLVRSSSDSSKQEVEEQPKPGNVDKKVSDDSYSPDISTTPTKKHTLKGQSKSRTIYEKGVDLPNNLVLSKSASSIQEFEEQPQPGNVDKKVSDDSYSPDISTSPTKKHTLKGQPKSENSDEKGIKRPNNLHMSASVARKRLLKALSTIP"
misc_feature 395..892 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="Spermatogenesis family BioT2; Region: BioT2; pfam15368" /db_xref="CDD:464678" misc_feature 455..547 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="propagated from UniProtKB/Swiss-Prot (Q9D541.1); Region: Disordered. /evidence=ECO:0000256|SAM:MobiDB-lite" misc_feature <4301..5371 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="DNA topoisomerase 2-like protein; Provisional; Region: PTZ00108" /db_xref="CDD:240271" exon 668..754 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 755..838 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 839..859 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 860..892 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 893..1044 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1045..1106 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1107..1163 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1164..1236 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1237..1267 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1268..1357 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1358..1437 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1438..1492 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1493..1558 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1559..1741 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1742..1779 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1780..1918 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1919..1958 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 1959..2063 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2064..2165 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2166..2261 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2262..2333 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2334..2438 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2439..2543 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2544..2615 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2616..2720 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2721..2801 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2802..2912 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 2913..3026 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3027..3122 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3123..3233 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3234..3338 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3339..3467 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3468..3575 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3576..3683 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3684..3743 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3744..3824 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3825..3884 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3885..3959 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 3960..4061 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4062..4178 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4179..4286 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4287..4355 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4356..4451 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4452..4547 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4548..4643 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4644..4739 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4740..4850 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4851..4946 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 4947..5042 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 5043..5138 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 5139..5234 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 5235..5330 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 5331..5426 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 5427..5647 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" exon 5648..5786 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /inference="alignment:Splign:2.1.0" regulatory 5767..5772 /regulatory_class="polyA_signal_sequence" /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="hexamer: ATTAAA" polyA_site 5786 /gene="Ccdc7a" /gene_synonym="100042659; 4930517G15Rik; 4930540C21Rik; Biot2; Ccdc7; Gm3952" /note="major polyA site" ORIGIN
ggtcggttgttaccaccctgggcgcaaaggcccccctttccctttcagcacagatgtcagtttgtactggggcagagctgttgtctggagagtttgctggcatcttccaaagaggtgtaggaaacgcggaatttacaactttctcagacaaatagattctcaccttccagcctgccaccccaaagccaagccacccagtaagaccacttccaacagcctcagcagcattccgatcctccttgagagcaaatgatattcacatcaggtcatcatgtatacaattcaggacttaccttcagaatgatgaaagcacagagaggataacagatcctgcagcacaactggaggtactgaatttttcataagtaatttggaagctaaatcaatcacaaaaatgaaatgtgcaaagcatccatcaaccattagtatgaaattgacaagtgttccagaattaccttataagaaaggcttactgaattcatcacctaagccaaaagaaaaacataatgccaagtcaaagtatggtaaaaatgaatcaatggtcctgaggtcgccacccacaggagagtcaattgtacgctttgccttgccaataccattgagtaaaacgaaggacaaaatatcagctgatgaaatggtcaggaggattaccacaaatctgaagatggttgtttctaacttggaagacacctatggagcttgctatgataatggagaaaaagcagcagaaaaaagtgaagcagaaggcttgtctattggtgatgatgtgagttcgttcttgttgtgctgttcacaatttacatctcagctggaagaagcagttaaggaagaatgtggcgctttggagtctctttacaagtggtttcagcaacaagtcaaccaaatggaggagattagcaaggaccaaagtaatttagaagaacttcaatcagatggtaaaacggccagtttgaacattgtacaaattgcaaaactggcacgtaaattcgaagattttaaaagtcgcctaaaaacgcgcaaggaggtcatgcagactaaaaatgaggataaagagataatggcagaaacattgaaacattatggacttatggaaaagcagattgaagagttcataacatcccattcagctttagaatctcaaactgaaactgaaagtcagtcaggaactccttcagtgactactcggatggccaggatgataaaaatatttgaaaatcagtcaactatgttagagaaagctttaaatgatcagcaaacaattgagtctaaatataaacagttggaaactgattttcaaatgttaataatggagaaaaccctgctggaagcagaaatacgaaggctgagagaaatagagagagtaaagtctgcagccaaagaagagcaaaccaagaaatctggaaaatcagaaaagaaaaaatttaaagagaaggaaaagaatctatctccaaatagagaatttaaatcaattgaagaactgcttcaaatccaaaaagaagcagaactcctgaaaacagagaagaaaacccttcaaggacaactgaaatgggctttagaggaagctgaaagaaataagactcaactcgaatttgtcctacatcaaaagatggagatgtttaaagaagagagtaaaacaaaagtgggccagagtcagaataaatcaaaggttaagattgaagattcaaaggattccttaccaaagaagagtgacacacagttgggtggacaaaggaaggatcagatctcatctgatcaaagtaaaaggtcagttggtgaaagaccgaagaagaaacaactcgctgatatagatccttcagctgtagaggatttcccaccagagacctttaagtcatttacagtaatgcctttaatagaggagcaccgagaatcaatctcgtcccagccgaaagaagaaatggctaaagcatcagaacaatcagaagcagaagacattgaaggtcctttggagataccaagtgaaagttcaaatgaagatgatgatttgctgccagaagatgaatcgcctatgatggagcaagtcacagacgtaggaagatacaaatcaatttatatctctgcagaaccaattgataccatgagtttaatttcaagaacacaatctgaaatggagactcttgaggccatcaattatgataatgtgcttaatgaaggagaagagcaagataaaaaaattggcaaagactcagacacaggaagaaaatcaaagagaaaaagaagttctaagattaggaaactgtctactcatgaggaggaatcagatatagtgcactatgaagaagcaacaaaagccaaagttccatcaaagaagcgagcctctgatccatatggtgatgaagcatatgagagtcgaggctcagtttcaaaagcacaaacatatacaaagaaacaaggaactcaccaaagaggaagaggcagtgcctctgacgcatatggtgatgaagcatatgagagtcgaggctcaatttcaaaagcacaaacatatacaaggaaacaaggaactcaccaaagaggaagaggcagtgttcaagaggaggaatcagatacagtgcactatgaagaagtaacaagagccaaagttccatcaaaaaagcaagcctctgatccatatggtgatgaagcatatgagagtcaaggctcagtttcaaaagcacacacacatacaaagaaacaaggaactcaccaaagaggaagaggcagtgttcatgaggaggaatcagatacaatgaactatgaagtaccaagaaaatctaaaatttcttctagaagaaaaggatttgctcttcctattacacatcaggttgaaatgcacagttctgagagtcaaggatcaatctcaaaatcaaacacagaaacaaagaaacaaggaactcacaaaagaggaagagacagtgatgctgatggagcacgtacacctgtgagtcaagggtcagactcaaaagcagacacagaaagaaagaaacacagatctaaagaagaaagcaccatcagtaaggacagtattccagttttagatgaagtgcaagacaaaacctttgaacatcaagagtcaggattaagattagaagttcaggcaaagaaactaacgttcagctctcaaaatattcacaatgaagaatcagctacagatattaaagtggagtatcaaaatgtaccatcaagctcccaagtccagttaaagaagcaaaagcctttgggaggagaaatatttactactcattttgtagtaccagcggaaagtcatgcacaattatatcaaacgcatacaccagaaacacagatagaaagaggaacaacttctggcactgcaagactcactacaattcctgtagaacaccctaaaaaggaagcatcaccggacaatctatttcctgagaagaaactttatataactagagccccgactcagaccaagaaacagtaccctccttgggacgctaaggcagagagtcagaacatcgagctaaggtctgatgaaaattatatgtcagtagacccaacatcaaaagatcatcctcaatttaagaaactgaaaactacccacatagaaaacactgctcagaaaaaaacagtcaaagaagttcaggggatatcagaacctcagacaaaactgaacccaacgatgagtggcatcatattacacttggacatggacagagtggttgagactgacctagaaaacttggaagagaccattgtaccacatgtattaagaagtgaacttgagattggcacagatgcaaaaaatatgcctgaaacacccacatcaagggaagcagtgagaacagaggcaaagggtaatcaagatgtgactatttccatcgctaaaggcatgaaactaattggaaaactgaaagatcaacatggtttgagttcatttgcaagtaaagataccattagtccagggaagagcctgataaagtcatccagagacaatcaagatgacagtttattggaaaccaaacctcaagaaaatacaagtgacaagtaccacccatcaaagacatttccaacaaaagtgatcaacatgttacccttctctgaaaaatccttgggaagcacttcagcaaatgtggatgtagctccaaaaccagtttatagggcatcaaggggaaggtcaagaatctctaaagccttacagcagttattaaagacttcagagcatctgaaaccaaccagtacaaaaaaccaaaatgctgatcttgagaaacacctgtatatttcagtcagatctgcaaataaacatacacaaaaagataaaaaacatgggcagtctaacaatcaaaagttaaagaaacaaggtgctttgtcatctaccaaaaagcagaaacataaagaacagcctaaaactgaaacaatagttgaaaataatgataagtttgatgataatctgatgatgactacctcttctccaaatatcaaaatcattaaagagctatctaaaactttgaatttagatggtggagatattgaactttcagactttgtgttcaagacagcatctgctgcaaagaaacttgagaataaagggccatctaaaaccaaaaacttaaacaaggaaagttctcgagatattcatatcctgcacctgacaacctctgctataaggacacttttgttagacgaggaagctaaaattaggagcttagagaagaaattaatgaaacaatcaacaattctgcagaaatcagtctcttctatgaagaagtttatgtttgaagagccatctagagagactaaaatgaaaagaaagaaaagagagaaaagaaagatcgttgttaaaagtccacacattctgcccatcactactacacaaaagcacactattaaagagaaatctgaaattagtaacttagaaaagccaattgttagaggaacagatattctgaaaaagtcaacctctgctcggaagaaacgtgtgctcaaagggaagtctaaatctgcaacgttacccaagaaatgtgataactttccatttgatctggttcgttcatcatctgactccagcaaacaagaggttgaagagcaacctaagcctggaaatgtagacaagaaagtttctgatgattcttacagtccggacatttcaacaactcccacaaagaagcatacactaaaagggcagtctaaatctagaacaatatacgagaaaggggttgaccttccaaataatctggtcctttcaaaatctgcctccagtatacaagagtttgaagagcaacctcagcctggaaatgtagacaagaaagtttctgatgattcttacagtccggacatttcaacatctcccacaaagaagcatacactaaaaggtcagcctaagtctgaaaactctgacgaaaaaggtatcaaacgtccaaataatctgcacatgtctgcctctgttgcaaggaagcgcctccttaaagcattaagtactattccatgaaagcttactggacttctacacttgaaagaatcctagtggtaagcagcatgaagatattcatggacgcagtgaggcaaatcgcaataggaaccaatgtgtgggaagccatatgagtggatggtatttatagaacagagtggtgtggaaggtccctgatgaatagggtaggaccagatcatgaaagtccttcaaagacagcagaactcctcatcactttttggaacagcttgaaccttaagatcgctctgtggttgctgatgttccggcttgctttgactagataagatgcttccagtaccttctggtgtggtaaaaaggcaattaaacgacatctgtgcta
//
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.
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