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2025-05-09 18:38:28, GGRNA : RefSeq release 60 (20130726)
LOCUS XM_001717763 6351 bp mRNA linear PRI 30-OCT-2012
DEFINITION PREDICTED: Homo sapiens ankyrin repeat domain 36C, transcript
variant 1 (ANKRD36C), mRNA.
ACCESSION XM_001717763
VERSION XM_001717763.5 GI:410170436
KEYWORDS RefSeq.
SOURCE Homo sapiens (human)
ORGANISM Homo sapiens
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
Catarrhini; Hominidae; Homo.
COMMENT MODEL REFSEQ: This record is predicted by automated computational
analysis. This record is derived from a genomic sequence
(NT_022171) annotated using gene prediction method: GNOMON,
supported by EST evidence.
Also see:
Documentation of NCBI's Annotation Process
On Oct 30, 2012 this sequence version replaced gi:397138963.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Homo sapiens Annotation Release 104
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
FEATURES Location/Qualifiers
source 1..6351
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="2"
gene 1..6351
/gene="ANKRD36C"
/note="Derived by automated computational analysis using
gene prediction method: GNOMON. Supporting evidence
includes similarity to: 39 ESTs, 8 Proteins"
/db_xref="GeneID:400986"
/db_xref="HGNC:32946"
variation 281
/gene="ANKRD36C"
/replace="c"
/replace="t"
/db_xref="dbSNP:2260865"
variation 390
/gene="ANKRD36C"
/replace="g"
/replace="t"
/db_xref="dbSNP:2579521"
variation 417
/gene="ANKRD36C"
/replace="c"
/replace="t"
/db_xref="dbSNP:2579522"
variation 421
/gene="ANKRD36C"
/replace="a"
/replace="g"
/db_xref="dbSNP:2579523"
variation 431
/gene="ANKRD36C"
/replace="c"
/replace="g"
/db_xref="dbSNP:2579524"
misc_feature 487..489
/gene="ANKRD36C"
/note="upstream in-frame stop codon"
CDS 526..6351
/gene="ANKRD36C"
/codon_start=1
/product="ankyrin repeat domain-containing protein 36B
isoform 1"
/protein_id="XP_001717815.3"
/db_xref="GI:310118966"
/db_xref="GeneID:400986"
/db_xref="HGNC:32946"
/translation="
MDDKEPKRWPTLRDRLCSDGFLFPQYPIKPYHLKGIHRAVFYRDLEELKFVLLTRYDINKRDRKERTALHLACATGQPEMVHLLVSRRCELNLCDREDRTPLIKAVQLRQEACATLLLQNGADPNITDVFGRTALHYAVYNEDTSMIEKLLSYGANIEECSEDEYPPLFLAVSQRKVKMVEFLLKKKANINAVDYLGRSALIHAVTLGEKDIVILLLQHNIDVFSRDVYGKLAEDYASEAKNRVIFELIYEYERKKHEELSINSNPVSSQKQPALKATSGKEDSISNIATEIKDGQKSGTVSSQKQPALKDTSDKNDSVSNTATEIKDEQKSGTVLPAVEQCLNRSLYRPDAVAQPVTEDEFALESEIISKLYIPKRKIISPRSIEDVLPPVEEAVDRCLYLLDRFAQAVTKDKFALESENISEPYFTNRRTISQQSAEKLDAACGIDKTENGTLFEDQNVDKEGKALPATGQKANVSPEQPPLFTHTVKDSDHISTRFLGSMDSLTSSEESSERPPLSTLTLKEADPSSKAAMRRKDSPPPGKVSSQKQPAEKATSDDKDSVSNIATEIKEGPISGTVSSQKQPAEKATSDEKDSVSNIATEIKEGQQSGTVSPQKQSAWKVIFKKKVSLLNIATRITGGGKSGTVSSQKQPPSKATSDKTDSALNIATEIKDGLQCGTVSSQKQPALKATTDEEDSVSNIATEIKDGEKSGTVSSQKQPALKATTDEEDSVLNIATEIKDGEKSETVSSQKQPALKATTDEEDSVSIIATEIKDGEKSGTVSSRKKPALKATSDEEDSVLNIARGKEDGEKTRRVSSRKKPALKATSDEKDSFSNITREKKDGETSRTVSSQKPPALKATSDEEDSVLSIAREEKDGEKSRTVSSEQPPGLKATRDEKDSLLNIARGKKHGEKTRRVSSRKKAALKATSDEKDSFSNITRERKDGETSRTVSSQKPPALKATSDEEDSVLNIAREKKDGEKSRTVSSEQPPGLKATRDEKDSLLNIARGKKYGEKTRRVSSQKPPALKATSDEEDSVLNIAREKKDGEKSRTVSSEQPPGLKATRDEKDSLLNIARGKKHGEKTRRVSSRKKAALKATGDEEDSVLNIAREKKDGEKSRTVSSHKQPALKATSDKENSVPNMATETKDEQISGTVSSQKQPALKATSDKKDSVSNIPTEIKDGQQSGTVSSQKQLAWKATSVKKDSVSNIATEIKDGQIRGTGILEYTFNVMFDQIEEKFTSPNKSAGVSPQKQSAQKVIFKKKVSLLNIATRITGGWKSGTEYPENLPTLKATIENKNSVLNTATKMKDVQTSTPAEQDLEMASEGEQKRLEEYENNQPQVKNQIHSRDDLDDIIQSSQTVSEDGDSLCCNCKNVILLIDQHEMKCKDCVHLLKIKKTFCLCKRLTELKDNHCEQLRVKIRKLKNKASVLQKRLSEKEEIKSQLKHETLELEKELCSLRFAIQQEKKKRRNVEELHQKVREKLRITEEQYRIEADVTKPIKPALKSAEVELKTGGNNSNQVSETDEKEDLLHENRLMQDEIARLRLEKDTIKNQNLEKKYLKDFEIVKRKHEDLQKALKRNEETLAETIACYSGQLAALTDENTTLRSKLEKQRESGQRLETEMQSYRCRLNAALCDHDQSHSSKRDQELAFQGTVDKCCHLQENLNSHVLILSLQLSKAESKFRVLETELHYTGEALKEKALVFEHVQSELKQKQSQMKDIEKMYKSGYNTMEKCIEKQERFCQLKKQNMLLQQQLDDARNKADNQEKAILNIQARCDARVENLQAECRKHRLLLEEDNKMLVNELNHSKEKKCQYEKEKAEREVAVRQLQQKQDDVLNKRSATKALLDASSRHCIYLENGMQDSRKKLDQMRSQFQEIQDQLTATIRCTKEMEGDAQKLEVENVMMRKIIKKQDEQIERFEKILQHSSLMLQVFES
"
misc_feature 631..780
/gene="ANKRD36C"
/note="Ankyrin repeats (many copies); Region: Ank_4;
pfam13637"
/db_xref="CDD:205814"
misc_feature 700..1077
/gene="ANKRD36C"
/note="ankyrin repeats; ankyrin repeats mediate
protein-protein interactions in very diverse families of
proteins. The number of ANK repeats in a protein can range
from 2 to over 20 (ankyrins, for example). ANK repeats may
occur in combinations with other...; Region: ANK; cd00204"
/db_xref="CDD:29261"
misc_feature 730..996
/gene="ANKRD36C"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 898..1272
/gene="ANKRD36C"
/note="ankyrin repeats; ankyrin repeats mediate
protein-protein interactions in very diverse families of
proteins. The number of ANK repeats in a protein can range
from 2 to over 20 (ankyrins, for example). ANK repeats may
occur in combinations with other...; Region: ANK; cd00204"
/db_xref="CDD:29261"
misc_feature 928..1206
/gene="ANKRD36C"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
variation 1887
/gene="ANKRD36C"
/replace="c"
/replace="t"
/db_xref="dbSNP:200457791"
variation 2029
/gene="ANKRD36C"
/replace="a"
/replace="g"
/db_xref="dbSNP:2918903"
variation 3963
/gene="ANKRD36C"
/replace="a"
/replace="g"
/db_xref="dbSNP:17410885"
variation 4003
/gene="ANKRD36C"
/replace="c"
/replace="t"
/db_xref="dbSNP:3210372"
variation 4877
/gene="ANKRD36C"
/replace="c"
/replace="t"
/db_xref="dbSNP:1047679"
variation 4957
/gene="ANKRD36C"
/replace="g"
/replace="t"
/db_xref="dbSNP:35461149"
variation 5963
/gene="ANKRD36C"
/replace="c"
/replace="t"
/db_xref="dbSNP:201490056"
STS 6073..6197
/gene="ANKRD36C"
/standard_name="STS-M78662"
/db_xref="UniSTS:62681"
ORIGIN
agatcccgtcctcccgcctcgcacccatcagcgcggaccccgggggcgacgcagtggcgatgtcgggctgtgggcccagcggtggcactaggcggagaagcaccactcaaccccatccctgggctgcagagggcccagcgcggggggctccgagcgtcgggagcctgtggaagagaagagcgcgcgggcgacagttaaacaggccctggggcagggcgcgcctcgcgctccagggagccccgccctcccgcggcacctccgcagcaaccgccgcctgcactgggcgcgcgagagctgctagggcggtttctctgcctcgggcctgttgggcagggccggctaaggtgcgcgtgctcgctggttctaacccttctgttgggcgtttctgctgagaggcgggaggcgctgagagtctgtgcgaaggtccgtggacagactgctttgcctgttgttgctcttcggaggcggcgatccccgaaggcgagctgaaatacggctgcaggctacaatttgcagccgaccattatggatgacaaggagccgaagaggtggcccaccctcagggaccgcttgtgctcggatggcttcttatttccccaataccccattaaaccgtatcatctgaaggggatccacagagctgtcttctatcgtgatctggaggaactgaagttcgttctgctcacgcgttatgacatcaataagagagacaggaaggaaaggaccgccctacatttggcctgtgccactggccaaccggaaatggtacatctcctggtgtccagaagatgtgagcttaacctctgcgaccgtgaagacaggacacctctgatcaaggctgtacaactgaggcaggaggcttgtgcaactcttctgctgcaaaatggcgccgatccaaatattacggatgtctttggaaggactgctctgcactacgctgtgtataatgaagatacatccatgatagaaaaacttctttcatatggtgcaaatattgaagaatgcagcgaggatgaatatccgccactgttccttgctgtgagtcaaagaaaagtgaaaatggtggaatttttattaaagaaaaaagcaaatataaatgccgttgattatcttggcagatcagccctcatacatgctgttactcttggagaaaaagatatagtcattcttcttctgcagcacaatattgatgtgttttctcgagatgtgtatggaaagcttgcagaagattatgccagcgaggctaagaacagagtcatttttgaactaatttatgaatatgaaagaaagaaacatgaagagctttctataaatagcaatccagtgtcttctcagaaacaaccagccttgaaggctacaagtggcaaggaagattctatctcgaatatagccacagaaataaaggatggacaaaaatctgggacagtgtcttctcagaaacaaccggccttgaaggatacaagtgacaagaacgattctgtttcgaacacagccacagaaataaaagatgaacaaaaatctgggacagtgcttcctgctgttgaacagtgtttaaacaggagtctctacagaccggatgctgttgcacagcctgtgacagaggatgagtttgctttggaatctgagattatttcaaaactatacatcccaaagagaaagattatttctccacgatctatagaagatgtgcttcctcctgttgaagaggctgttgacaggtgtctctacctactggaccgttttgcacaggctgtgacaaaggataagtttgctttggaatctgagaatatttcagaaccatactttacaaacagaaggactatttctcaacaatctgcagaaaagttagatgctgcatgtggcattgacaaaacagaaaatggaaccttgtttgaagaccaaaatgttgataaggaaggaaaagcactaccagcaactggacaaaaagcaaatgtgtctcctgagcaaccgcctttattcacgcatacggtgaaagacagtgatcacatttcaactagattcttaggaagtatggattcactaacttccagtgaagaatcttctgagcgacctcctttatccacgcttactctgaaagaggcagatcccagttcaaaagcagccatgagaaggaaggattcaccacctccaggaaaagtgtcttctcagaaacaaccagctgagaaggctacaagtgacgacaaagattctgtttcaaatatagccacagaaataaaggagggaccaatatctgggacagtgtcttctcagaaacaaccagctgagaaggctacaagtgatgagaaagattctgtttcaaatatagccacagaaataaaggagggacaacaatctgggacagtgtctcctcagaaacaatcagcctggaaggttatatttaaaaagaaagtttctcttttgaatattgccacaagaataacgggcggtgggaaatctggaacagtgtcttctcagaaacaaccaccctcaaaggctacaagtgacaagacagattctgctttgaatatagctacagaaataaaggatggactacaatgtgggacagtgtcttctcagaaacaaccagccttgaaggctacaactgacgaggaagattctgtttcgaatatagccacagaaataaaggatggagaaaaatctgggacagtgtcttctcagaaacaaccagccttgaaggctacaactgacgaggaagattctgttttgaatatagccacagaaataaaggatggagaaaaatctgagacagtgtcttctcagaaacaaccagccttgaaggctacaactgacgaggaagattctgtttcgattatagccacagaaataaaggacggagaaaaatctgggacagtgtcttctcggaaaaaaccagccttgaaggctacaagtgacgaggaagattctgttttgaatatagccagaggaaaagaggatggagaaaaaactaggagagtgtcttctcggaaaaaaccagccttgaaggctacaagtgatgagaaagattctttttcgaatataaccagagaaaaaaaggatggagaaacatctaggacagtgtcttctcagaaaccaccagccttgaaggctacaagtgacgaggaagattctgttttgagtatagccagagaagaaaaggatggagaaaaatctaggacagtgtcttctgagcaaccaccaggcttgaaggctacaagagatgagaaagattctcttttgaatatagccagaggaaaaaagcatggagaaaaaactaggagagtgtcttctcggaaaaaagcagccttgaaggctacaagtgatgagaaagattctttttcaaatataaccagagaaagaaaggatggagaaacatctaggacagtgtcttctcagaaaccaccagccttgaaggctacaagtgacgaggaagattctgttttgaatatagccagagaaaaaaaggatggagaaaaatctagaacagtgtcttcagagcaaccaccaggcttgaaggctacaagagacgagaaagattctcttttgaatatagccagaggaaaaaagtatggagaaaaaactaggagagtgtcttctcagaaaccaccagccttgaaggctacaagtgacgaggaagattctgttttgaatatagccagagaaaaaaaggatggagaaaaatctagaacagtgtcttctgagcaaccaccaggcttgaaggctacaagagatgagaaagattctcttttgaatatagccagaggaaaaaagcatggagaaaaaactaggagagtgtcttctcggaaaaaagcagccttgaaggctacaggtgacgaggaagattctgttttgaatatagccagagaaaaaaaggatggagaaaaatctagaacagtgtcttctcataaacaaccagccttgaaggctacaagtgacaaggaaaattctgttccgaatatggccacagaaacaaaggatgaacaaatatctgggacagtgtcttctcagaaacaaccagccttgaaggctacaagtgacaagaaagattctgtttcgaatatacccacagaaataaaggatggacaacaatctggaacagtgtcttctcagaaacaactggcctggaaggctacaagtgtcaagaaagattctgtttcgaatatagccacagagataaaggatggacaaatacgtgggacaggtattttggaatacacctttaatgtaatgttcgatcaaatagaagagaaattcacttccccaaataaatcagcgggggtgtctcctcagaaacaatcggcccagaaggttatatttaaaaagaaagtttctcttttgaatattgccacaagaataacgggcggttggaaatctggaacagagtatcctgagaatctgcccaccttgaaggctacaattgaaaataaaaattctgttctgaatacagccaccaaaatgaaagatgtacaaacatccacaccagcagaacaagacttagaaatggcatcagagggagagcaaaagaggcttgaagaatatgaaaataaccagccacaggtgaaaaaccaaatacattctagggatgaccttgatgacataattcagtcatctcaaacagtctcagaggacggtgactcgctttgctgtaattgtaagaatgtcatattactcattgatcaacatgaaatgaagtgtaaagattgtgttcacctattgaaaattaaaaagacattttgtttatgtaaaagattaacagaacttaaagataatcactgtgagcaacttagagtaaaaattcgaaaactgaaaaataaggctagtgtactacaaaagagactatctgaaaaagaagaaataaaatcgcagttaaagcatgaaacacttgaattggaaaaagaactctgtagtttgagatttgccatacagcaagaaaaaaagaaaagaagaaatgttgaagagttgcaccaaaaagttagggaaaagttaagaatcacagaagagcaatataggatagaagctgatgtgacaaaaccaattaaaccggctctcaaatcagcagaggtggaattgaagacaggaggaaataattcaaatcaggtttctgaaactgatgaaaaagaagacctgctgcatgaaaaccgcttgatgcaagatgaaattgccaggctcaggctggaaaaagacacaataaaaaaccaaaacctggaaaagaaatacttaaaagactttgaaattgtgaaaagaaagcatgaagaccttcaaaaggctctaaaacggaatgaggaaacattagcagaaacgatagcctgttatagtggacagcttgctgctctgacggatgaaaacacaacgctccgttctaaactggagaagcaaagagagagcgggcaaagactggaaacagaaatgcaatcataccgttgtagactgaatgctgctctatgtgatcatgatcaaagtcactcatcaaaaagagaccaagagcttgctttccagggcacagtagataaatgttgtcatttacaggaaaatttgaattctcatgttctgattctttctctgcaactttctaaagctgagagtaagttcagagtcctcgaaactgagctccattacacaggagaggctctgaaagaaaaggctttggtttttgaacacgtgcaaagtgagctaaagcaaaaacagagtcaaatgaaggacattgaaaaaatgtacaaaagtggatacaatacaatggaaaaatgcatagaaaagcaggaaagattttgtcaactaaaaaaacaaaatatgttgcttcaacagcaactggatgatgctcgcaacaaagctgacaatcaagaaaaagcaatacttaatattcaagccagatgtgatgctagagtagaaaaccttcaagctgagtgcagaaagcaccgtctcttactagaagaagacaataaaatgttggtgaatgaattgaatcattcgaaagaaaaaaaatgccaatatgaaaaagagaaagcagaaagagaagtagctgtgagacagcttcaacaaaaacaagatgatgtcttaaacaaacgatcagcaacaaaagctttgctggatgcttcatcgcgtcactgcatctatttagaaaatgggatgcaggattcaaggaagaaattagaccagatgagaagtcaatttcaagaaatacaggatcaacttacagctactataagatgtactaaggagatggaaggcgacgcacaaaagcttgaagtagaaaatgtcatgatgagaaaaattattaaaaaacaggatgaacaaattgagcggtttgagaaaatcctgcagcattcaagtttgatgctgcaggtgtttgagagctag
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:400986 -> Molecular function: GO:0008200 [ion channel inhibitor activity] evidence: NAS
by
@meso_cacase at
DBCLS
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