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2025-10-29 00:23:49, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_000037 8300 bp mRNA linear PRI 07-JUL-2013
DEFINITION Homo sapiens ankyrin 1, erythrocytic (ANK1), transcript variant 3,
mRNA.
ACCESSION NM_000037
VERSION NM_000037.3 GI:70780356
KEYWORDS RefSeq.
SOURCE Homo sapiens (human)
ORGANISM Homo sapiens
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
Catarrhini; Hominidae; Homo.
REFERENCE 1 (bases 1 to 8300)
AUTHORS Harder,M.N., Ribel-Madsen,R., Justesen,J.M., Sparso,T.,
Andersson,E.A., Grarup,N., Jorgensen,T., Linneberg,A., Hansen,T.
and Pedersen,O.
TITLE Type 2 diabetes risk alleles near BCAR1 and in ANK1 associate with
decreased beta-cell function whereas risk alleles near ANKRD55 and
GRB14 associate with decreased insulin sensitivity in the Danish
Inter99 cohort
JOURNAL J. Clin. Endocrinol. Metab. 98 (4), E801-E806 (2013)
PUBMED 23457408
REMARK GeneRIF: ANK1 rs516946 confers impaired insulin release.
REFERENCE 2 (bases 1 to 8300)
AUTHORS Stefanovic,M., Puchulu-Campanella,E., Kodippili,G. and Low,P.S.
TITLE Oxygen regulates the band 3-ankyrin bridge in the human erythrocyte
membrane
JOURNAL Biochem. J. 449 (1), 143-150 (2013)
PUBMED 23013433
REMARK GeneRIF: The ankyrin-binding site on band 3 is located near the
deoxygenated hemoglobin-binding site, therefore following
deoxygenation ankyrin is displaced from band 3.
REFERENCE 3 (bases 1 to 8300)
AUTHORS Yocum,A.O., Steiner,L.A., Seidel,N.E., Cline,A.P., Rout,E.D.,
Lin,J.Y., Wong,C., Garrett,L.J., Gallagher,P.G. and Bodine,D.M.
TITLE A tissue-specific chromatin loop activates the erythroid ankyrin-1
promoter
JOURNAL Blood 120 (17), 3586-3593 (2012)
PUBMED 22968456
REMARK GeneRIF: A tissue-specific chromatin loop brings NF-E2 and ANK1E
into close proximity preventing gene silencing and mutagenesis
leading to hereditary spherocytosis.
REFERENCE 4 (bases 1 to 8300)
AUTHORS Imamura M, Maeda S, Yamauchi T, Hara K, Yasuda K, Morizono T,
Takahashi A, Horikoshi M, Nakamura M, Fujita H, Tsunoda T, Kubo M,
Watada H, Maegawa H, Okada-Iwabu M, Iwabu M, Shojima N, Ohshige T,
Omori S, Iwata M, Hirose H, Kaku K, Ito C, Tanaka Y, Tobe K,
Kashiwagi A, Kawamori R, Kasuga M, Kamatani N, Nakamura Y and
Kadowaki T.
CONSRTM Diabetes Genetics Replication and Meta-analysis (DIAGRAM)
Consortium
TITLE A single-nucleotide polymorphism in ANK1 is associated with
susceptibility to type 2 diabetes in Japanese populations
JOURNAL Hum. Mol. Genet. 21 (13), 3042-3049 (2012)
PUBMED 22456796
REMARK GeneRIF: results indicate that the ANK1 locus is a new, common
susceptibility locus for type 2 diabetes across different ethnic
groups
REFERENCE 5 (bases 1 to 8300)
AUTHORS Lange,S., Perera,S., Teh,P. and Chen,J.
TITLE Obscurin and KCTD6 regulate cullin-dependent small ankyrin-1
(sAnk1.5) protein turnover
JOURNAL Mol. Biol. Cell 23 (13), 2490-2504 (2012)
PUBMED 22573887
REMARK GeneRIF: The interaction of KCTD6 with ankyrin-1 may have
implications beyond muscle for hereditary spherocytosis, as KCTD6
is also present in erythrocytes, and erythrocyte ankyrin isoforms
contain its mapped minimal binding site.
REFERENCE 6 (bases 1 to 8300)
AUTHORS Fujimoto,T., Lee,K., Miwa,S. and Ogawa,K.
TITLE Immunocytochemical localization of fodrin and ankyrin in bovine
chromaffin cells in vitro
JOURNAL J. Histochem. Cytochem. 39 (11), 1485-1493 (1991)
PUBMED 1833445
REFERENCE 7 (bases 1 to 8300)
AUTHORS Lux,S.E., John,K.M. and Bennett,V.
TITLE Analysis of cDNA for human erythrocyte ankyrin indicates a repeated
structure with homology to tissue-differentiation and cell-cycle
control proteins
JOURNAL Nature 344 (6261), 36-42 (1990)
PUBMED 2137557
REFERENCE 8 (bases 1 to 8300)
AUTHORS Lambert,S., Yu,H., Prchal,J.T., Lawler,J., Ruff,P., Speicher,D.,
Cheung,M.C., Kan,Y.W. and Palek,J.
TITLE cDNA sequence for human erythrocyte ankyrin
JOURNAL Proc. Natl. Acad. Sci. U.S.A. 87 (5), 1730-1734 (1990)
PUBMED 1689849
REFERENCE 9 (bases 1 to 8300)
AUTHORS Bennett,V.
TITLE Immunoreactive forms of human erythrocyte ankyrin are present in
diverse cells and tissues
JOURNAL Nature 281 (5732), 597-599 (1979)
PUBMED 492324
REFERENCE 10 (bases 1 to 8300)
AUTHORS Bennett,V. and Stenbuck,P.J.
TITLE The membrane attachment protein for spectrin is associated with
band 3 in human erythrocyte membranes
JOURNAL Nature 280 (5722), 468-473 (1979)
PUBMED 379653
COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The
reference sequence was derived from M28880.1, AB209418.1, X16609.1,
AC113133.5 and N63745.1.
On Jul 13, 2005 this sequence version replaced gi:10947039.
Summary: Ankyrins are a family of proteins that link the integral
membrane proteins to the underlying spectrin-actin cytoskeleton and
play key roles in activities such as cell motility, activation,
proliferation, contact and the maintenance of specialized membrane
domains. Multiple isoforms of ankyrin with different affinities for
various target proteins are expressed in a tissue-specific,
developmentally regulated manner. Most ankyrins are typically
composed of three structural domains: an amino-terminal domain
containing multiple ankyrin repeats; a central region with a highly
conserved spectrin binding domain; and a carboxy-terminal
regulatory domain which is the least conserved and subject to
variation. Ankyrin 1, the prototype of this family, was first
discovered in the erythrocytes, but since has also been found in
brain and muscles. Mutations in erythrocytic ankyrin 1 have been
associated in approximately half of all patients with hereditary
spherocytosis. Complex patterns of alternative splicing in the
regulatory domain, giving rise to different isoforms of ankyrin 1
have been described. Truncated muscle-specific isoforms of ankyrin
1 resulting from usage of an alternate promoter have also been
identified. [provided by RefSeq, Dec 2008].
Transcript Variant: This variant (3) has an alternate segment in
the 3' coding region, which includes a stop codon, compared to
variant 1. The resulting isoform (3) has a distinct and one aa
shorter C-terminus, compared to isoform 1.
Publication Note: This RefSeq record includes a subset of the
publications that are available for this gene. Please see the Gene
record to access additional publications.
##Evidence-Data-START##
Transcript exon combination :: M28880.1 [ECO:0000332]
RNAseq introns :: mixed/partial sample support
ERS025081, ERS025082 [ECO:0000350]
##Evidence-Data-END##
COMPLETENESS: complete on the 3' end.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-398 M28880.1 1-398
399-400 AB209418.1 696-697
401-770 M28880.1 401-770
771-774 X16609.1 771-774
775-3029 M28880.1 775-3029
3030-3032 X16609.1 3030-3032
3033-3307 M28880.1 3033-3307
3308-3571 AB209418.1 3629-3892
3572-4184 M28880.1 3572-4184
4185-4186 AB209418.1 4506-4507
4187-4719 M28880.1 4187-4719
4720-4721 X16609.1 4720-4721
4722-6157 M28880.1 4722-6157
6158-8291 AC113133.5 6261-8394 c
8292-8300 N63745.1 1-9 c
FEATURES Location/Qualifiers
source 1..8300
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="8"
/map="8p11.1"
gene 1..8300
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="ankyrin 1, erythrocytic"
/db_xref="GeneID:286"
/db_xref="HGNC:492"
/db_xref="MIM:612641"
exon 1..111
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
misc_feature 73..75
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="upstream in-frame stop codon"
CDS 85..5727
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="isoform 3 is encoded by transcript variant 3;
ankyrin-R; ankyrin-1; ANK-1; erythrocyte ankyrin"
/codon_start=1
/product="ankyrin-1 isoform 3"
/protein_id="NP_000028.3"
/db_xref="GI:70780357"
/db_xref="CCDS:CCDS6121.1"
/db_xref="GeneID:286"
/db_xref="HGNC:492"
/db_xref="MIM:612641"
/translation="
MPYSVGFREADAATSFLRAARSGNLDKALDHLRNGVDINTCNQNGLNGLHLASKEGHVKMVVELLHKEIILETTTKKGNTALHIAALAGQDEVVRELVNYGANVNAQSQKGFTPLYMAAQENHLEVVKFLLENGANQNVATEDGFTPLAVALQQGHENVVAHLINYGTKGKVRLPALHIAARNDDTRTAAVLLQNDPNPDVLSKTGFTPLHIAAHYENLNVAQLLLNRGASVNFTPQNGITPLHIASRRGNVIMVRLLLDRGAQIETKTKDELTPLHCAARNGHVRISEILLDHGAPIQAKTKNGLSPIHMAAQGDHLDCVRLLLQYDAEIDDITLDHLTPLHVAAHCGHHRVAKVLLDKGAKPNSRALNGFTPLHIACKKNHVRVMELLLKTGASIDAVTESGLTPLHVASFMGHLPIVKNLLQRGASPNVSNVKVETPLHMAARAGHTEVAKYLLQNKAKVNAKAKDDQTPLHCAARIGHTNMVKLLLENNANPNLATTAGHTPLHIAAREGHVETVLALLEKEASQACMTKKGFTPLHVAAKYGKVRVAELLLERDAHPNAAGKNGLTPLHVAVHHNNLDIVKLLLPRGGSPHSPAWNGYTPLHIAAKQNQVEVARSLLQYGGSANAESVQGVTPLHLAAQEGHAEMVALLLSKQANGNLGNKSGLTPLHLVAQEGHVPVADVLIKHGVMVDATTRMGYTPLHVASHYGNIKLVKFLLQHQADVNAKTKLGYSPLHQAAQQGHTDIVTLLLKNGASPNEVSSDGTTPLAIAKRLGYISVTDVLKVVTDETSFVLVSDKHRMSFPETVDEILDVSEDEGEELISFKAERRDSRDVDEEKELLDFVPKLDQVVESPAIPRIPCAMPETVVIRSEEQEQASKEYDEDSLIPSSPATETSDNISPVASPVHTGFLVSFMVDARGGSMRGSRHNGLRVVIPPRTCAAPTRITCRLVKPQKLSTPPPLAEEEGLASRIIALGPTGAQFLSPVIVEIPHFASHGRGDRELVVLRSENGSVWKEHRSRYGESYLDQILNGMDEELGSLEELEKKRVCRIITTDFPLYFVIMSRLCQDYDTIGPEGGSLKSKLVPLVQATFPENAVTKRVKLALQAQPVPDELVTKLLGNQATFSPIVTVEPRRRKFHRPIGLRIPLPPSWTDNPRDSGEGDTTSLRLLCSVIGGTDQAQWEDITGTTKLVYANECANFTTNVSARFWLSDCPRTAEAVNFATLLYKELTAVPYMAKFVIFAKMNDPREGRLRCYCMTDDKVDKTLEQHENFVEVARSRDIEVLEGMSLFAELSGNLVPVKKAAQQRSFHFQSFRENRLAMPVKVRDSSREPGGSLSFLRKAMKYEDTQHILCHLNITMPPCAKGSGAEDRRRTPTPLALRYSILSESTPGSLSGTEQAEMKMAVISEHLGLSWAELARELQFSVEDINRIRVENPNSLLEQSVALLNLWVIREGQNANMENLYTALQSIDRGEIVNMLEGSGRQSRNLKPDRRHTDRDYSLSPSQMNGYSSLQDELLSPASLGCALSSPLRADQYWNEVAVLDAIPLAATEHDTMLEMSDMQVWSAGLTPSLVTAEDSSLECSKAEDSDATGHEWKLEGALSEEPRGPELGSLELVEDDTVDSDATNGLIDLLEQEEGQRSEEKLPGSKRQDDATGAGQDSENEVSLVSGHQRGQARITHSPTVSQVTERSQDRLQDWDADGSIVSYLQDAAQGSWQEEVTQGPHSFQGTSTMTEGLEPGGSQEYEKVLVSVSEHTWTEQPEAESSQADRDRRQQGQEEQVQEAKNTFTQVVQGNEFQNIPGEQVTEEQFTDEQGNIVTKKIIRKVVRQIDLSSADAAQEHEEVELRGSGLQPDLIEGRKGAQIVKRASLKRGKQ
"
misc_feature 85..2565
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="propagated from UniProtKB/Swiss-Prot (P16157.3);
Region: 89 kDa domain"
misc_feature 124..279
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (many copies); Region: Ank_4;
pfam13637"
/db_xref="CDD:205814"
misc_feature 199..576
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/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 229..501
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 397..399
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 613..888
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 682..1059
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/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 781..783
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 811..1080
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 1009..1284
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 1078..1455
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/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 1294..1455
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (many copies); Region: Ank_4;
pfam13637"
/db_xref="CDD:205814"
misc_feature 1375..1377
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 1405..1665
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 1474..1476
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 1489..1851
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/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 1603..1872
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 1771..2148
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/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 1888..2049
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (many copies); Region: Ank_4;
pfam13637"
/db_xref="CDD:205814"
misc_feature 1969..2346
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/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 1969..1971
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 1999..2274
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (3 copies); Region: Ank_2;
pfam12796"
/db_xref="CDD:205076"
misc_feature 2068..2070
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 2167..2169
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyaspartate, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 2242..2406
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Ankyrin repeats (many copies); Region: Ank_5;
pfam13857"
/db_xref="CDD:206028"
misc_feature 2266..2268
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 2365..2367
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
/note="(3S)-3-hydroxyasparagine, by HIF1AN, partial;
propagated from UniProtKB/Swiss-Prot (P16157.3);
hydroxylation site"
misc_feature 2815..3129
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Domain present in ZO-1 and Unc5-like netrin
receptors; Region: ZU5; smart00218"
/db_xref="CDD:128514"
misc_feature 3784..4170
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="non-experimental evidence, no additional
details recorded"
/note="propagated from UniProtKB/Swiss-Prot (P16157.3);
Region: UPA domain (By similarity)"
misc_feature 4285..4536
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/note="Death domain of Ankyrin-1; Region: Death_ank1;
cd08805"
/db_xref="CDD:176783"
exon 112..213
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 214..312
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 313..411
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 399
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:2304871"
exon 412..510
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 511..696
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 573
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:34173100"
variation 681
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="g"
/db_xref="dbSNP:2304873"
exon 697..795
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 796..894
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 895..993
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 994..1191
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 1192..1290
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 1291..1389
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 1390..1488
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 1489..1686
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 1590
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:34387324"
exon 1687..1785
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 1786..1884
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 1885..2082
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 1940
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="g"
/db_xref="dbSNP:2304877"
exon 2083..2181
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 2157
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:1137177"
exon 2182..2280
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 2281..2379
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 2295
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="g"
/db_xref="dbSNP:34194642"
exon 2380..2472
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 2433
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:2304880"
exon 2473..2545
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 2546..2642
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 2579
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="g"
/db_xref="dbSNP:34523608"
exon 2643..2721
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 2722..2819
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 2820..3044
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 2914
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="g"
/db_xref="dbSNP:35797405"
variation 2997
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="g"
/db_xref="dbSNP:504574"
variation 3030
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="g"
/db_xref="dbSNP:1137178"
exon 3045..3199
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 3054
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:34969689"
exon 3200..3411
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 3308
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:35213384"
exon 3412..3616
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 3460
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="g"
/db_xref="dbSNP:504465"
variation 3570
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:35964634"
exon 3617..3713
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 3658
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="c"
/db_xref="dbSNP:486770"
exon 3714..3942
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 3943..4068
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 4069..4188
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 4189..4267
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 4268..4342
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 4343..4474
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 4469
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:34664882"
exon 4475..4621
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 4590
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="t"
/db_xref="dbSNP:34265667"
exon 4622..5180
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
variation 4720
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="g"
/db_xref="dbSNP:1060130"
exon 5181..5478
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 5479..5562
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 5563..5628
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 5629..5763
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
exon 5764..8292
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/inference="alignment:Splign:1.39.8"
STS 5909..6184
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/standard_name="SHGC-132081"
/db_xref="UniSTS:170634"
STS 5920..6183
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/standard_name="RH69660"
/db_xref="UniSTS:24338"
variation 6197
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="a"
/replace="g"
/db_xref="dbSNP:201295961"
STS 6336..6441
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/standard_name="GDB:178523"
/db_xref="UniSTS:66432"
STS 6337..6522
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/standard_name="D8S2329"
/db_xref="UniSTS:31321"
STS 6685..7017
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/standard_name="SHGC-12309"
/db_xref="UniSTS:21118"
polyA_signal 6797..6802
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
polyA_site 6825
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/experiment="experimental evidence, no additional details
recorded"
variation 7297..7298
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="c"
/replace="g"
/db_xref="dbSNP:517309"
variation 7879
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/replace="g"
/replace="t"
/db_xref="dbSNP:543817"
STS 7907..8073
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
/standard_name="RH91316"
/db_xref="UniSTS:91775"
polyA_signal 8270..8275
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
polyA_site 8293
/gene="ANK1"
/gene_synonym="ANK; SPH1; SPH2"
ORIGIN
agaggctgcggtgagtccgccagccccagctgctcctcctcaagcccccaaggcccttcggcgggcccctgctgaaagaccggcatgccctattctgtgggcttccgcgaagccgatgctgctaccagctttctgagagcagcaagatcaggtaacttggacaaagctttggatcacctgcggaatggggtagatattaacacctgtaaccagaatgggttgaatggcttgcatctggcttctaaggaaggccatgtgaaaatggtggttgaacttctgcacaaagaaatcattctagaaacgacaaccaagaaggggaacacggccctgcacatcgctgctctagccgggcaggatgaggtggtccgggagcttgtcaactatggagccaacgtcaacgcccagtcacagaaaggttttacacccctgtacatggcagcacaagagaaccacttggaagtggttaagtttttactggaaaatggagctaaccagaatgtagccacagaagacggcttcacgcctctggcggtagccctgcagcagggccatgagaacgtcgtcgcgcacctcatcaactacggcaccaaggggaaggtgcgcctcccggccctgcacatcgcggcccgcaacgacgacacgcgcacggctgcggtgctgctgcagaacgaccccaacccggacgtgctttccaagacgggattcacgcccctgcacattgcggctcactacgagaacctcaacgtggcccagttgctcctcaacagaggagccagcgtcaatttcacaccacagaacggcatcacgccactgcacatcgcctcccgcaggggcaacgtgatcatggtgcggctgctgctggatcggggagcccagatagaaaccaagaccaaggacgaattgacacctctccactgtgcagctcgaaatgggcacgtgcgaatctcagagatcctgctggaccacggggcaccaatccaagccaaaaccaagaacggcctgtccccaattcacatggcggctcagggagaccacctcgactgtgtccggctcctgttgcaatacgacgcagagatagacgacatcaccctggaccacctgaccccactccacgtggctgcccactgtggacaccacagggtggctaaggtccttctggataaaggggccaaacccaactccagagccctgaatggctttacccccttacacatcgcctgcaaaaagaaccacgtccgtgtcatggagctgctgctgaagacgggagcctcgatcgacgcggtcaccgagtctggcctgacacctctccacgtggcctccttcatggggcaccttcccatcgtgaagaacctcctgcagcggggggcgtcgcccaacgtctccaacgtgaaagtggagaccccgctacacatggcagccagagccgggcacacggaagtggccaaatatttactccagaacaaagccaaagtcaatgccaaggccaaggatgaccagaccccacttcactgtgcagctcgcatcggccacacaaacatggtgaagctcctgctggaaaataacgccaaccccaacctggccaccaccgccgggcacacccccctgcacattgcagcccgtgagggccatgtggaaacagtcctggcccttctggaaaaggaagcatcccaggcctgcatgaccaagaaaggatttacccctctgcacgtggcggccaagtacgggaaggtgcgggtggcagagctgctgctggagcgggacgcacacccgaatgctgccggaaaaaatggcctgacccccctgcacgtggccgtccatcacaacaacctggacatcgtcaagctgctgcttccccggggcggctccccgcacagccctgcctggaatggctacacccctttgcacatcgctgccaagcagaaccaggtggaggtggcccgtagtctgctgcagtatgggggctcagcaaacgccgagtcggtgcaaggtgtgacgccccttcacctggccgcccaggagggccacgcagagatggtggctctgctgctctcgaaacaagccaatggcaacctggggaacaagagcggactcactcccctccatctggtagcacaagaaggccacgttccagtggcagatgtgctgatcaaacacggcgtcatggtggacgccaccacccggatgggctacactcccctccatgtggccagtcactatggaaacatcaagctggtgaagtttctgctgcagcaccaggcagatgtcaatgccaagaccaagctaggatacagccccctgcaccaggcagcccagcagggacacacagacatcgtgactctgcttctgaaaaacggtgcttccccaaacgaggtcagctcggatggaaccacacctctggccatagccaagcgcttgggctacatttctgtcaccgacgtgctcaaggtcgtcacggatgaaaccagtttcgtgttagtcagtgataagcatcgaatgagtttccctgagacagttgatgagatcctggatgtctcggaagatgaaggggaagaactcatcagcttcaaggctgagaggcgggattccagggatgttgatgaagagaaggagctgctggattttgtgccgaagctagaccaagtggtggaatctccagccatccccaggattccctgtgccatgcctgagacagtggtgatcaggtcagaagagcaggagcaggcatctaaagagtatgatgaggactccctcatccccagcagcccggccaccgagacctcagacaacatcagcccggtggccagcccggtgcatacagggtttctggtgagcttcatggttgacgcccggggtggttccatgagaggaagtcgccacaacggcctgcgagtggtgatcccgccacggacgtgcgcagcgcccacccgcatcacctgccgcctggtcaagccccagaagctcagcacgccgcccccactggccgaggaggagggcctggccagcaggatcatagcactggggcccacgggggcacagttcctgagccctgtaatcgtggagatcccgcactttgcctcccatggccgtggagaccgcgagctcgtggttctgaggagcgaaaacggctccgtgtggaaggagcacaggagccgctatggagagagctacctggatcagatcctcaacgggatggacgaagagctggggagcctggaggagctagagaagaagagggtgtgccgaatcatcaccaccgacttcccgctgtacttcgtgatcatgtcacggctctgccaggactacgacaccatcggtcccgaagggggctccctgaagagcaagctggtgcccctggtacaggcaacgttcccggagaatgccgtcaccaagagagtgaagctggctctgcaggcccagcctgtcccggatgagcttgtcactaagctcctgggcaaccaggccacattcagccccattgtcaccgtggagccccggcgccggaagttccaccgccccattgggcttcggatcccactacctccttcctggaccgacaacccgagggacagcggggagggagacaccaccagcctgcgcctgctttgcagcgtcattggaggaacagaccaagcccagtgggaagacataacaggaaccaccaaacttgtatatgccaacgagtgcgccaacttcaccaccaatgtctctgccaggttttggctgtcggactgtcctcggactgctgaggctgtgaactttgccaccctgctgtacaaagagctcactgcagtgccctacatggccaaattcgtcatctttgccaagatgaatgacccccgagaggggcgcctgcgctgctactgcatgacagatgataaagtggacaagaccctggagcagcatgagaacttcgtggaggtggcccggagcagggacatagaggtgttggaaggaatgtccctgtttgcagaactctctgggaacctggtgcctgtgaagaaagctgcccagcagcggagcttccacttccagtcatttcgggagaaccgtctggccatgcctgtaaaggtgagggacagcagtcgagagccgggagggtccctgtcgtttctgcgcaaggcgatgaagtacgaggacacccagcacattctctgccacctgaacatcaccatgcccccctgcgccaagggaagtggagccgaagataggagaaggaccccgacgcccctggccctgcgatacagcattctcagtgagtccacaccaggttctctcagtgggacagagcaggcagagatgaagatggctgttatctcagagcacctcggtctcagctgggcagagttggcccgggagctgcagttcagtgtggaagacatcaacaggatccgagtggaaaatcccaactccctgttggagcagagtgtggccttgctgaacctctgggtcatccgtgaaggccaaaacgcaaacatggagaatctgtacacagccctgcagagcattgaccgtggcgagatcgtgaacatgctggagggttccggccgacagagccgcaacttgaagccagacaggcggcacaccgaccgcgactactcgctgtcaccctcccagatgaatggttactcctcactgcaggacgagctgctgtcccctgcctccctgggctgtgcactttcctctccgctacgtgcagaccagtactggaatgaggtggccgtcctagacgccatccccttggcggccacggagcatgacaccatgctggagatgtctgacatgcaggtgtggtctgcgggcctcacgccttctctggtcactgctgaggactcctctctggagtgtagcaaggctgaggactctgatgccacaggtcacgagtggaagttggagggggcactctcagaggaaccgcggggccccgagttgggctctctggaacttgtggaggacgacacagtggattcagatgccacaaatggccttatcgatttgcttgaacaggaggaaggtcagaggtcagaagagaagctgccaggttctaagaggcaggatgacgcgacaggtgcagggcaggactcagagaatgaagtgtctcttgtttcaggccatcagagggggcaagcccgaatcacacattcccccaccgtgagtcaggtgacggagaggagtcaggacagactgcaggactgggatgcagacggctcgattgtctcatacctgcaagatgctgcacaaggttcctggcaagaggaggtcacgcaaggtccacactcattccagggaacaagtaccatgactgaagggctagagcccggtggatctcaggagtacgagaaggtcctggtgtctgtaagtgagcacacgtggacagaacagcccgaggctgagagctcccaggccgacagggaccggaggcagcaaggccaagaagagcaggtgcaggaggccaagaacaccttcacccaagtggtgcaggggaatgagtttcagaatattccaggggagcaggtgacagaggagcaattcacggatgagcagggcaacattgtcaccaagaagatcattcgcaaggtggttcgacagatagacttgtccagcgccgatgccgcccaggagcacgaggaggtggagctgagagggagtggcctacagccggacctgatagagggcaggaagggggcgcagatagtgaagcgggccagcctgaaaagggggaaacagtgaccccgagccgctctccttggagtagcctctcgggaggatcacacctcgacacccaacccctgaaccccacacactctgccatgcacacaggaggagagctggacctgagggccaccgcagcggtgcacacattcctctgggctgacggcatgacctctgtaagggactcctgctagtcccctcttggcatgaatgactgactgtagacgcatgacctccaggcttcaatcctgcctcttgcaatgacagctgatctgtcggaaccaggacacaaaagcagcaagaagcggggagagagagggatagaaaacaagcgcaggagagcctgcgaacgcaaaagtgaatgagggctttttgtggctggggatgggttttggttttggggttttttttttaaattgttttgacttcgtacagggtactttttcccaacctcatctgtcagaaatccatgtgggcttcctggaaagaaaaaaaaaaaaaagaaaactaggcatgaaatcagtttaacaccttaatcttaagccatgtcctcatctgcccaccctccccaacccacatacctccattccacttgtgacaccccctcgactccctggtgacgctcctcccagatcgctctacatgacattcaggacacacacacacacacacacacaccactcgcctccactgaatctacacacagattttactgtgacttctgaagctgtatagactctgctgtggataaattggaattttttatgttgtctctctctctgccaatttcaatacgaatcatcttccaatggaaaatcattaccttgaagagtgcattcggggttccttgtgttagggacttaagaatctgaggcgaggacccccaggcttacctgtaggactcaaagggagccaggaccccatctgaaagggtctcctctctcagttgggggacaggccggtggctgacccaggattgcaccagcatgtccatagagaagaggttttctatgtcttcaagcactatatcatagtccgtgttcaaagtgtaaactgtacagtaatcagccttgtgtatatgaaaaacaataaatactatgcaaaccaatagaaacatttagcagtacgtacagagcctgacagcgcagctcctgaggacttctgcggctgcaggagaaggagctgtggcctgtctttcagtgaaagaggaaggaaaggagtagggctagtgaatgtatctgccaggtcttagaagtcaggaccacccagggtctcccagagtgaacttggtgctctaagtccaggcagcctgcaggctggggaccctgggtgcaggtgccaggctcgaggctgttccctgtcctgcctcagtgcctcccctctgcccagcccctgtggcctcttggagaggcgagccagggggctccccggaccgcatggccggtgagagtagagtcggaggcggagagcctggacgcccagaggccggggccaggctctgggtcaaggcaggaaggagacagacagctggcagttcctcgcctcggtgccatcagggaggagccttaagttccactagagcctccggcccagggaggccagaatcagcacaatcccggccccgccctcgcggcgggcgcccccagggccaggagagagagacagggctggctcctctcgcccctggagccgcggtgtggacggcccggccccgtccgccccgccgctctgcgggagtgtcctcgggacacacttaaaccttccaagtagcacagaagccccctccacgtcagaggccccctggccgcggggcctgtgagcggagaggggccctgcttcccacacaaatccgccccggtgcacccccggccaggcaggccccggggcggcctaggcgccttgtcggccgggggtggggctgcttttgcttcctttagaggggcgggcagggagaggaagctctagctccgggcctgagtttccccgaggctgcgtcggaggagctgcagggcgagcccggacggctgccgtctccgccagaggccaccccggcccggcctccagggcgcagaggcgcccccctccatcctcccccatcccgggggccacggcaggggggccgcacagcgcggctgggaccgattcggtgacggcccaaggaagctgggctcagggctcgcctctcccgcctcgatcctgcaccttcctctcccaggtcgctgctgcagccaacccagtagcccccttagcgcccccgcggaccccgcagctccagactccgctttggcacctctgctccggctggcatggctgcacgctccggctgctagtaggagccgttaggggaggagtttggggtctccacacgatgcctagagaatgctgcagtctgcacattagacgctttttagaagttttgaaattaccttgatttttttaattgttatgaaaatggatcttttcttgactctcccacatgctctgttatgggagagaatcccctaccctactctgatgtatagaccattctcccttcaccagccgaaccaatgtcaaaattaataaagaaatggactaatggcaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:286 -> Molecular function: GO:0005198 [structural molecule activity] evidence: NAS
GeneID:286 -> Molecular function: GO:0005200 [structural constituent of cytoskeleton] evidence: TAS
GeneID:286 -> Molecular function: GO:0005515 [protein binding] evidence: IPI
GeneID:286 -> Molecular function: GO:0008093 [cytoskeletal adaptor activity] evidence: IDA
GeneID:286 -> Molecular function: GO:0008093 [cytoskeletal adaptor activity] evidence: TAS
GeneID:286 -> Molecular function: GO:0019899 [enzyme binding] evidence: IPI
GeneID:286 -> Molecular function: GO:0019899 [enzyme binding] evidence: TAS
GeneID:286 -> Molecular function: GO:0030507 [spectrin binding] evidence: IDA
GeneID:286 -> Molecular function: GO:0030507 [spectrin binding] evidence: IPI
GeneID:286 -> Molecular function: GO:0030507 [spectrin binding] evidence: NAS
GeneID:286 -> Molecular function: GO:0051117 [ATPase binding] evidence: IPI
GeneID:286 -> Biological process: GO:0006779 [porphyrin-containing compound biosynthetic process] evidence: IEA
GeneID:286 -> Biological process: GO:0006887 [exocytosis] evidence: NAS
GeneID:286 -> Biological process: GO:0006888 [ER to Golgi vesicle-mediated transport] evidence: IDA
GeneID:286 -> Biological process: GO:0007010 [cytoskeleton organization] evidence: NAS
GeneID:286 -> Biological process: GO:0007165 [signal transduction] evidence: IEA
GeneID:286 -> Biological process: GO:0007411 [axon guidance] evidence: TAS
GeneID:286 -> Biological process: GO:0015672 [monovalent inorganic cation transport] evidence: IEA
GeneID:286 -> Biological process: GO:0045199 [maintenance of epithelial cell apical/basal polarity] evidence: TAS
GeneID:286 -> Biological process: GO:0048821 [erythrocyte development] evidence: IEA
GeneID:286 -> Biological process: GO:0072661 [protein targeting to plasma membrane] evidence: IMP
GeneID:286 -> Cellular component: GO:0005829 [cytosol] evidence: TAS
GeneID:286 -> Cellular component: GO:0005856 [cytoskeleton] evidence: NAS
GeneID:286 -> Cellular component: GO:0005886 [plasma membrane] evidence: IDA
GeneID:286 -> Cellular component: GO:0005886 [plasma membrane] evidence: NAS
GeneID:286 -> Cellular component: GO:0014731 [spectrin-associated cytoskeleton] evidence: IDA
GeneID:286 -> Cellular component: GO:0016323 [basolateral plasma membrane] evidence: NAS
GeneID:286 -> Cellular component: GO:0016529 [sarcoplasmic reticulum] evidence: IEA
GeneID:286 -> Cellular component: GO:0030863 [cortical cytoskeleton] evidence: IEA
GeneID:286 -> Cellular component: GO:0031430 [M band] evidence: IEA
by
@meso_cacase at
DBCLS
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