Home |
Help |
Advanced search
2025-05-09 18:48:34, GGRNA : RefSeq release 60 (20130726)
LOCUS NM_001142495 12157 bp mRNA linear PRI 18-MAY-2013
DEFINITION Homo sapiens myosin VA (heavy chain 12, myoxin) (MYO5A), transcript
variant 2, mRNA.
ACCESSION NM_001142495
VERSION NM_001142495.1 GI:215982793
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 12157)
AUTHORS McCaffrey,M.W. and Lindsay,A.J.
TITLE Roles for myosin Va in RNA transport and turnover
JOURNAL Biochem. Soc. Trans. 40 (6), 1416-1420 (2012)
PUBMED 23176491
REMARK GeneRIF: Myosin Va plays a role in the transport and turnover of
mRNA. [Review]
Review article
REFERENCE 2 (bases 1 to 12157)
AUTHORS Lu,Z., Shen,M., Cao,Y., Zhang,H.M., Yao,L.L. and Li,X.D.
TITLE Calmodulin bound to the first IQ motif is responsible for
calcium-dependent regulation of myosin 5a
JOURNAL J. Biol. Chem. 287 (20), 16530-16540 (2012)
PUBMED 22437832
REMARK GeneRIF: Calmodulin bound to the first IQ motif is responsible for
calcium-dependent regulation of myosin 5a.
REFERENCE 3 (bases 1 to 12157)
AUTHORS Rojo Pulido,I., Nightingale,T.D., Darchen,F., Seabra,M.C.,
Cutler,D.F. and Gerke,V.
TITLE Myosin Va acts in concert with Rab27a and MyRIP to regulate acute
von-Willebrand factor release from endothelial cells
JOURNAL Traffic 12 (10), 1371-1382 (2011)
PUBMED 21740491
REMARK GeneRIF: A Rab27a/MyRIP/myosin Va complex is involved in linking
von-Willebrand factor (Vwf) to the peripheral actin cytoskeleton of
endothelial cells to allow full maturation and prevent premature
secretion of vWF.
REFERENCE 4 (bases 1 to 12157)
AUTHORS Wollert,T., Patel,A., Lee,Y.L., Provance,D.W. Jr., Vought,V.E.,
Cosgrove,M.S., Mercer,J.A. and Langford,G.M.
TITLE Myosin5a tail associates directly with Rab3A-containing
compartments in neurons
JOURNAL J. Biol. Chem. 286 (16), 14352-14361 (2011)
PUBMED 21349835
REMARK GeneRIF: Myo5a and Rab3A are direct binding partners and interact
on synaptic vesicles and the Myo5a/Rab3A complex is involved in
transport of neuronal vesicles
REFERENCE 5 (bases 1 to 12157)
AUTHORS Lindsay,A.J. and McCaffrey,M.W.
TITLE Myosin Va is required for P body but not stress granule formation
JOURNAL J. Biol. Chem. 286 (13), 11519-11528 (2011)
PUBMED 21245139
REMARK GeneRIF: Myosin Va is required for P body but not stress granule
formation.
REFERENCE 6 (bases 1 to 12157)
AUTHORS Lambert,J., Naeyaert,J.M., Callens,T., De Paepe,A. and Messiaen,L.
TITLE Human myosin V gene produces different transcripts in a cell
type-specific manner
JOURNAL Biochem. Biophys. Res. Commun. 252 (2), 329-333 (1998)
PUBMED 9826529
REFERENCE 7 (bases 1 to 12157)
AUTHORS Pastural,E., Barrat,F.J., Dufourcq-Lagelouse,R., Certain,S.,
Sanal,O., Jabado,N., Seger,R., Griscelli,C., Fischer,A. and de
Saint Basile,G.
TITLE Griscelli disease maps to chromosome 15q21 and is associated with
mutations in the myosin-Va gene
JOURNAL Nat. Genet. 16 (3), 289-292 (1997)
PUBMED 9207796
REMARK Erratum:[Nat Genet 1999 Nov;23(3):373]
REFERENCE 8 (bases 1 to 12157)
AUTHORS Moore,K.J., Testa,J.R., Francke,U., Milatovich,A., Copeland,N.G.
and Jenkins,N.A.
TITLE Cloning and regional assignment of the human myosin heavy chain 12
(MYH12) gene to chromosome band 15q21
JOURNAL Cytogenet. Cell Genet. 69 (1-2), 53-58 (1995)
PUBMED 7835087
REFERENCE 9 (bases 1 to 12157)
AUTHORS Bement,W.M., Hasson,T., Wirth,J.A., Cheney,R.E. and Mooseker,M.S.
TITLE Identification and overlapping expression of multiple
unconventional myosin genes in vertebrate cell types
JOURNAL Proc. Natl. Acad. Sci. U.S.A. 91 (14), 6549-6553 (1994)
PUBMED 8022818
REMARK Erratum:[Proc Natl Acad Sci U S A. 1994 Nov 22;91(24):11767. PMID:
7972138]
REFERENCE 10 (bases 1 to 12157)
AUTHORS Engle,L.J. and Kennett,R.H.
TITLE Cloning, analysis, and chromosomal localization of myoxin (MYH12),
the human homologue to the mouse dilute gene
JOURNAL Genomics 19 (3), 407-416 (1994)
PUBMED 8188282
COMMENT REVIEWED REFSEQ: This record has been curated by NCBI staff. The
reference sequence was derived from Y07759.1, AB290180.1,
AC010674.11 and BU738571.1.
Summary: This gene is one of three myosin V heavy-chain genes,
belonging to the myosin gene superfamily. Myosin V is a class of
actin-based motor proteins involved in cytoplasmic vesicle
transport and anchorage, spindle-pole alignment and mRNA
translocation. The protein encoded by this gene is abundant in
melanocytes and nerve cells. Mutations in this gene cause Griscelli
syndrome type-1 (GS1), Griscelli syndrome type-3 (GS3) and
neuroectodermal melanolysosomal disease, or Elejalde disease.
Multiple alternatively spliced transcript variants encoding
different isoforms have been reported, but the full-length nature
of some variants has not been determined. [provided by RefSeq, Dec
2008].
Transcript Variant: This variant (2) lacks an in-frame exon in the
CDS, resulting in a shorter isoform (2), as compared to variant 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 :: AB290180.1 [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
1-217 Y07759.1 6-222
218-241 Y07759.1 224-247
242-7325 AB290180.1 1-7084
7326-11618 AC010674.11 178032-182324 c
11619-12157 BU738571.1 1-539 c
FEATURES Location/Qualifiers
source 1..12157
/organism="Homo sapiens"
/mol_type="mRNA"
/db_xref="taxon:9606"
/chromosome="15"
/map="15q21"
gene 1..12157
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="myosin VA (heavy chain 12, myoxin)"
/db_xref="GeneID:4644"
/db_xref="HGNC:7602"
/db_xref="MIM:160777"
exon 1..271
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
misc_feature 170..172
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="upstream in-frame stop codon"
CDS 245..5731
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="isoform 2 is encoded by transcript variant 2;
myosin-Va; myoxin; myosin V; myosin, heavy polypeptide
kinase; myosin-12; dilute myosin heavy chain, non-muscle;
unconventional myosin-Va"
/codon_start=1
/product="unconventional myosin-Va isoform 2"
/protein_id="NP_001135967.1"
/db_xref="GI:215982794"
/db_xref="CCDS:CCDS45262.1"
/db_xref="GeneID:4644"
/db_xref="HGNC:7602"
/db_xref="MIM:160777"
/translation="
MAASELYTKFARVWIPDPEEVWKSAELLKDYKPGDKVLLLHLEEGKDLEYHLDPKTKELPHLRNPDILVGENDLTALSYLHEPAVLHNLRVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAKLPEFKMLRLGNADNFNYTKQGGSPVIEGVDDAKEMAHTRQACTLLGISESHQMGIFRILAGILHLGNVGFTSRDADSCTIPPKHEPLCIFCDLMGVDYEEMCHWLCHRKLATATETYIKPISKLQATNARDALAKHIYAKLFNWIVDNVNQALHSAVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIESKLGILDLLDEECKMPKGTDDTWAQKLYNTHLNKCALFEKPRLSNKAFIIQHFADKVEYQCEGFLEKNKDTVFEEQIKVLKSSKFKMLPELFQDDEKAISPTSATSSGRTPLTRTPAKPTKGRPGQMAKEHKKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLSDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKLRADKLRAACIRIQKTIRGWLLRKKYLRMRKAAITMQRYVRGYQARCYAKFLRRTKAATIIQKYWRMYVVRRRYKIRRAATIVLQSYLRGFLARNRYRKILREHKAVIIQKRVRGWLARTHYKRSMHAIIYLQCCFRRMMAKRELKKLKIEARSVERYKKLHIGMENKIMQLQRKVDEQNKDYKCLVEKLTNLEGIYNSETEKLRSDLERLQLSEEEAKVATGRVLSLQEEIAKLRKDLEQTRSEKKCIEEHADRYKQETEQLVSNLKEENTLLKQEKEALNHRIVQQAKEMTETMEKKLVEETKQLELDLNDERLRYQNLLNEFSRLEERYDDLKEEMTLMVHVPKPGHKRTDSTHSSNESEYIFSSEIAEMEDIPSRTEEPSEKKVPLDMSLFLKLQKRVTELEQEKQVMQDELDRKEEQVLRSKAKEEERPQIRGAELEYESLKRQELESENKKLKNELNELRKALSEKSAPEVTAPGAPAYRVLMEQLTSVSEELDVRKEEVLILRSQLVSQKEAIQPKDDKNTMTDSTILLEDVQKMKDKGEIAQAYIGLKETNRLLESQLQSQKRSHENEAEALRGEIQSLKEENNRQQQLLAQNLQLPPEARIEASLQHEITRLTNENLDLMEQLEKQDKTVRKLKKQLKVFAKKIGELEVGQMENISPGQIIDEPIRPVNIPRKEKDFQGMLEYKKEDEQKLVKNLILELKPRGVAVNLIPGLPAYILFMCVRHADYLNDDQKVRSLLTSTINSIKKVLKKRGDDFETVSFWLSNTCRFLHCLKQYSGEEGFMKHNTSRQNEHCLTNFDLAEYRQVLSDLAIQIYQQLVRVLENILQPMIVSGMLEHETIQGVSGVKPTGLRKRTSSIADEGTYTLDSILRQLNSFHSVMCQHGMDPELIKQVVKQMFYIIGAITLNNLLLRKDMCSWSKGMQIRYNVSQLEEWLRDKNLMNSGAKETLEPLIQAAQLLQVKKKTDDDAEAICSMCNALTTAQIVKVLNLYTPVNEFEERVSVSFIRTIQMRLRDRKDSPQLLMDAKHIFPVTFPFNPSSLALETIQIPASLGLGFISRV
"
misc_feature 434..2530
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="Myosin. Large ATPases; Region: MYSc; smart00242"
/db_xref="CDD:197599"
misc_feature 452..2530
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="Myosin motor domain, type V myosins. Myosins V
transport a variety of intracellular cargo processively
along actin filaments, such as membraneous organelles and
mRNA. This catalytic (head) domain has ATPase activity and
belongs to the larger group of...; Region: MYSc_type_V;
cd01380"
/db_xref="CDD:30102"
misc_feature order(575..586,590..595,737..760)
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="ATP-binding site [chemical binding]; other site"
/db_xref="CDD:30102"
misc_feature 893..907
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="switch I region; other site"
/db_xref="CDD:30102"
misc_feature 1556..1579
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="switch II region; other site"
/db_xref="CDD:30102"
misc_feature order(1640..1675,1682..1711)
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="relay loop; other site"
/db_xref="CDD:30102"
misc_feature 2171..2239
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="non-experimental evidence, no additional
details recorded"
/note="propagated from UniProtKB/Swiss-Prot (Q9Y4I1.2);
Region: Actin-binding (Potential)"
misc_feature 2291..2335
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="SH1 helix; other site"
/db_xref="CDD:30102"
misc_feature order(2330..2335,2342..2344,2360..2362,2369..2374,
2381..2383,2465..2467,2474..2476,2480..2485,2489..2497,
2507..2509,2516..2524)
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="converter subdomain; other site"
/db_xref="CDD:30102"
misc_feature 2537..2602
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="IQ calmodulin-binding motif; Region: IQ; cl15479"
/db_xref="CDD:210118"
misc_feature 2606..2674
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="IQ calmodulin-binding motif; Region: IQ; cl15479"
/db_xref="CDD:210118"
misc_feature 2681..2749
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="Calmodulin-binding motif; Region: IQ; smart00015"
/db_xref="CDD:197470"
misc_feature 3113..3532
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="TPR/MLP1/MLP2-like protein; Region: TPR_MLP1_2;
pfam07926"
/db_xref="CDD:149160"
misc_feature 4517..4519
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/experiment="experimental evidence, no additional details
recorded"
/note="Phosphoserine; propagated from UniProtKB/Swiss-Prot
(Q9Y4I1.2); phosphorylation site"
misc_feature 5222..5539
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/note="DIL domain; Region: DIL; pfam01843"
/db_xref="CDD:202006"
exon 272..382
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 383..554
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 555..699
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 700..856
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
variation 836
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="a"
/replace="g"
/db_xref="dbSNP:3208599"
exon 857..1000
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1001..1082
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1083..1190
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1191..1297
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1298..1563
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1564..1645
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1646..1786
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1787..1912
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1913..1996
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 1997..2158
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 2159..2256
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 2257..2343
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 2344..2452
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 2453..2664
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 2665..2821
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 2822..3061
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3062..3310
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3311..3404
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3405..3553
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3554..3667
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3668..3811
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3812..3865
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 3866..4093
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
variation 3980
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="t"
/db_xref="dbSNP:1058219"
exon 4094..4102
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4103..4203
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4204..4402
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4403..4496
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4497..4643
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4644..4798
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4799..4888
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
exon 4889..5039
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
STS 4997..5189
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="MARC_17607-17608:1018452356:1"
/db_xref="UniSTS:268354"
exon 5040..5322
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
variation 5181
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="t"
/db_xref="dbSNP:9282796"
exon 5323..5497
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
STS 5353..5477
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="RH69927"
/db_xref="UniSTS:49480"
exon 5498..5578
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
STS 5499..5647
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="MYO5A"
/db_xref="UniSTS:503148"
exon 5579..12144
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/inference="alignment:Splign:1.39.8"
STS 5674..6378
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="MYO5A_1542"
/db_xref="UniSTS:277520"
variation 5716
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="t"
/db_xref="dbSNP:1058224"
variation 5734
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="g"
/db_xref="dbSNP:3751617"
variation 5763
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="t"
/db_xref="dbSNP:4987194"
variation 5968
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="a"
/replace="g"
/db_xref="dbSNP:3751618"
STS 5984..6248
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="WI-19762"
/db_xref="UniSTS:79880"
STS 6020..6150
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="RH66379"
/db_xref="UniSTS:33755"
STS 6092..6267
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="STS-R41828"
/db_xref="UniSTS:70462"
STS 6114..6318
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="RH80631"
/db_xref="UniSTS:93060"
STS 6878..6966
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="D8S2279"
/db_xref="UniSTS:473907"
STS 7288..7408
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="RH103873"
/db_xref="UniSTS:98198"
variation 8537
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="a"
/replace="g"
/db_xref="dbSNP:876548"
variation 8888
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="a"
/replace="g"
/db_xref="dbSNP:876549"
variation 10033
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="g"
/replace="t"
/db_xref="dbSNP:3751619"
variation 10054
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="a"
/replace="c"
/db_xref="dbSNP:3751620"
variation 10093
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="t"
/db_xref="dbSNP:3751621"
variation 10404
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="t"
/db_xref="dbSNP:1045699"
variation 10435
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="a"
/replace="g"
/db_xref="dbSNP:1045700"
variation 10445
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/replace="c"
/replace="g"
/db_xref="dbSNP:1045702"
STS 11343..11493
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="AB060208"
/db_xref="UniSTS:479955"
STS 11872..12006
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="A004G21"
/db_xref="UniSTS:77235"
STS 11994..12120
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
/standard_name="WI-12413"
/db_xref="UniSTS:23361"
polyA_signal 12125..12130
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
polyA_site 12144
/gene="MYO5A"
/gene_synonym="GS1; MYH12; MYO5; MYR12"
ORIGIN
accccgggcaggtggagcgctcgcggctgctcgcggcgagcccgggagtgatggcgaggcccctgcgggcggccagcgcctgaggcgccccgccccgccccgccccgcgcggccctccccgcccggccctgccctgccctgctccctgccggcggctgcgggcgcttcctagtccgctcgggcggccgcccaggcgaggtgcggcctccgcacaggcggggggcgtaggcgcgcggggcccgccatggctgcgtcggagctctacacaaagtttgccagggtttggatacctgatccagaggaagtctggaagtcagcagagctgctcaaagattataagccaggagataaagtcctcctgcttcacctcgaggaaggaaaggatttggaataccatctagatccaaagaccaaggagctgcctcacttacgaaatcctgacatacttgttggtgaaaatgacctcacagccctcagctatcttcatgagcctgctgtgctccataatctcagagtccgctttattgattccaaacttatttatacgtattgtggtatagtcctagtagctataaatccctatgaacagctgcctatttatggagaagatattattaatgcatacagtggtcagaacatgggtgatatggatccacatatctttgcagtagctgaagaagcttacaagcaaatggccagagatgaacgaaatcagtccatcatcgtaagtggagagtctggggcaggaaaaacagtctcagctaagtatgccatgcgatactttgcaactgtgagtggttctgccagtgaggccaatgtggaggaaaaggtcttggcctccaaccccatcatggagtccattggaaatgctaaaacaaccaggaatgataatagcagccgttttgggaagtatattgagattggttttgataagagatatcgaatcattggtgccaatatgagaacttatcttttagagaaatccagagtggtattccaggcagaagaggagagaaactatcatatcttctatcagctttgtgcctcagcaaagttacctgaatttaaaatgctacgattaggaaatgcagataactttaattacacaaaacaaggaggcagtcctgtgattgaaggagtggatgatgcaaaggagatggcacatactaggcaggcctgcactttgctaggaattagtgaatctcatcaaatgggaattttccgaatacttgctggcatccttcacttaggcaatgttggatttacatcccgagatgcagacagctgcacaatacctcccaagcatgaacctctctgcatcttctgtgacctcatgggtgtggactatgaggagatgtgtcactggctctgccatcggaaactggctactgccacagagacatacatcaagcccatctccaagctgcaggccacgaatgcccgcgatgctttggccaagcacatctatgccaagctctttaactggattgtagataatgtcaatcaggctctccattctgctgtcaaacagcactcttttattggtgtgctagacatttacggatttgaaacatttgagataaatagttttgaacagttttgcataaattatgcaaatgaaaaactacagcaacaattcaatatgcatgtcttcaaattggagcaagaagaatatatgaaggaacaaattccatggacactcatagatttttatgataatcagccttgtattaatcttatagaatcaaaactaggcattctagatttactggatgaggaatgcaagatgcctaaaggcacagatgacacctgggcccaaaaattgtacaacacacatttgaacaaatgtgcactctttgaaaagcctcgtctatcaaacaaagctttcatcatccaacattttgctgacaaagtggaataccagtgtgaaggatttctcgaaaagaataaagacaccgtttttgaagaacaaattaaagttcttaaatcaagcaagtttaagatgctaccagaactatttcaagatgatgagaaggccatcagtccaacttcagccacctcctcagggcgcacacccctcacacgaactcctgcaaagcccaccaaaggcagaccaggccaaatggccaaagagcacaagaaaacagtggggcatcagttcagaaactccctgcacctgcttatggagacactcaatgccactacccctcactatgtgcgctgtatcaagcctaatgacttcaagttcccattcacgtttgatgagaagagggcagtgcagcagctgagagcatgtggtgtcctggaaaccatccgaatcagtgcggccggtttcccctcacggtggacttaccaagaatttttcagccgctaccgtgtcctaatgaagcagaaagatgtgctgagtgacagaaagcaaacatgcaagaatgtgttagagaaactgatactggacaaggacaaataccagtttggtaagacaaagatctttttccgtgccggtcaagtggcctatctagaaaaattgagagctgacaaactgagagctgcctgcatccggatccagaagaccatccgagggtggctgctgagaaagaagtacctacgcatgcggaaggcagccatcaccatgcagagatacgtgcggggctaccaggcccgatgctatgctaagtttctgcgcagaaccaaggcagcaaccatcattcaaaagtactggcgcatgtatgtggtccgcaggaggtacaagattagacgagctgccactattgttcttcagtcttacttgcgaggcttcttggccagaaataggtatcgcaagatactccgtgagcacaaagcagtcatcattcagaagcgagtccggggctggctggcccgcacacactacaagaggagcatgcatgccatcatctaccttcagtgctgcttcaggcggatgatggccaagcgtgagctaaagaagctcaaaatcgaggctcgctcagtggagcgctataagaagctgcacatcggcatggagaacaagatcatgcagctgcagcgcaaagttgatgagcagaacaaagactacaaatgccttgtggagaaactaaccaatctggaaggaatatacaactctgagactgagaaactacgaagtgacttagaacgtcttcaactaagtgaagaggaagcgaaagttgccactgggcgggtccttagtctgcaggaagaaattgccaagctccggaaagacctggagcaaactcgttcagagaaaaaatgcattgaggaacatgcagatcgatacaaacaagaaacagagcagctggtatcaaatctgaaggaagaaaatactttgctgaagcaagaaaaagaagccctcaatcaccgcatcgtgcagcaggctaaggagatgacagaaactatggagaagaagttagtagaagaaacgaaacaactggaactcgaccttaatgatgaaaggctgagatatcagaaccttctgaatgagttcagtcgcctggaagaaagatatgatgacctcaaggaagagatgacccttatggtgcatgtgcctaagcctggacacaagagaacagactccacccacagcagcaacgagtctgaatatatctttagctctgaaattgcagaaatggaagacattccatcaaggacagaggaaccaagtgagaagaaggtacctctggacatgtcattgttccttaagctccagaagcgggtcacagagctggagcaggagaagcaggtgatgcaggatgagctggaccgcaaggaggagcaggtgctccgcagcaaggccaaggaagaagaaagaccacaaattagaggtgcagaactggaatatgagtcactcaagcgtcaagaactagaatcagaaaacaaaaaactgaagaatgagctaaatgagttgcgcaaggccctcagtgagaaaagtgccccagaggtgaccgccccaggtgcacctgcctaccgtgtcctcatggagcagctgacctctgtgagcgaggagcttgatgtccgcaaggaggaagtcctcatcttaaggtctcaactggtgagccagaaagaggccatccaacccaaggatgacaagaatacaatgacagattccacaatacttttggaagatgtacaaaaaatgaaagataaaggtgaaatagcacaagcatacattggtttgaaagaaacaaataggctcctggaatcccagctgcagtcacagaagaggagccatgagaatgaggccgaggccctccgtggggagatccagagcctgaaggaggagaacaaccgacagcagcagctgctggcccagaacctgcagctgcccccagaggcccgcattgaggccagcctgcagcacgagatcacccggctgaccaacgaaaacttggatttgatggaacaacttgaaaaacaggataagacggtccgtaaactgaaaaaacaactgaaagtatttgccaaaaaaattggcgaactagaagtgggccagatggagaacatatccccaggacagatcattgatgaacccatccgaccagtcaacattcccaggaaagaaaaggatttccaagggatgctggaatacaagaaggaggatgagcaaaaacttgttaagaacctgattctggaactgaagccacgtggtgtagcagtcaatttgattccaggattaccggcatatatcctgttcatgtgtgttcgacatgctgactacctgaatgatgatcagaaagtaaggtcgttgctaacatcaacaattaacagcatcaaaaaagtattgaagaaaagaggtgatgattttgaaaccgtctccttctggctctctaacacatgccgatttttgcactgcttgaaacagtacagtggagaagagggctttatgaagcacaacacatctcgccagaatgaacactgcctcaccaattttgacctggctgagtatcggcaggtgctgagtgacttggccattcagatctaccagcagctcgtgcgggtgttagagaacatccttcagccaatgattgtctcaggcatgctggaacatgaaacgattcagggcgtgtctggggtgaagcccacagggttgagaaagcgaacctccagtatcgccgatgagggcacctacacactggactccatcctccggcagctcaactccttccactcggtcatgtgtcagcatggcatggaccctgaactgatcaagcaggtggtcaagcagatgttctacatcataggggccatcaccctgaacaaccttctcctgcggaaggacatgtgctcctggagtaaaggcatgcagatcaggtacaatgtcagtcaactggaagaatggctgcgtgacaagaatctgatgaatagtggggctaaagaaaccctggaacctctcattcaggctgctcaacttttgcaagtgaaaaagaaaacagatgatgatgcagaagccatttgttctatgtgcaatgctttaactactgcccagattgtgaaagtgttgaatttgtatactccagttaatgagtttgaagaaagagtctctgtgtcgttcattcgtactatacagatgcgtttacgagacaggaaagactctccccagctgctcatggatgctaaacacatctttcctgtcacctttcctttcaacccatcttccctcgcactagaaaccatccagattccagccagcctcggcctgggcttcatttcacgggtctgaaagtgatgtccaggcaaaaattgacaatacatttcttgcccgaaataagaacccattatttccagtgagttactgaaaatacatttttaaagagaaagtactgattatctcccaaatgagaagtcattaactggaaatctccctagaatactttcatcactttggaaacaaagataggctctttcgtgctgtgttatctttatagcaacactcatccttaaccaactaggtaccgtgagtttacatacaggagaatgatggaaggaagggaggaaggaaaggaggagaaaaatgtgtcttcagctggcagcatttattttaaatccttagcactgagtttgaatggtataaaaagtataacttccatagatgagctgttgttaggaaggcaccaaagaacctcctctgcactaaacaggagaatggaaagaaaagtctccattgagtacatatcatgtcagtttagtaatcaattatgttgatattgttaaactggttcaaagaaataaactggcaatatgtaaagtaattcctcatttgtgtcactatgatatagagatattaaaggaatgttggtttgctaaatagtatagatgtccatttgtactatagtttactgagcattttaaattgctgctacatactgtcttcttaaaatgtaagtgatattaggcactacaataagtttctcttgtcaattctgtttacaattcaatcagatcacagttttaactggattatatgcaaatacctacagattcacctgcacaagtagcagacactggaaagtcatgtagtaatatgacaaaatgcttgacatttaggggtaggattagacaaagtggctattgttgatgtcattatttattcaggatgtattacattgatgtgctcattaattttccctgggtggatattgcgtcagggtacagtgttctgtgaagtgacttatttttaactaccagatctgattccttcagtgcatattttcaaccttgacaggttttctctcttcttaatttattaagaattaatctcggctgggcgcggtggctcacgcctgtaatcccagcactttgggaagccaaggtgggcggatcacttcaggttaggagttggagaccagcctggccaacatggcgaaaccctgtctctactaaaaatacaaaaattagccgggcgtggtggcacttgcctgtaatcccagctactcgggaggctgaggcacgagaatcgattaaacctgggaggcggagattgcaatgagatcgaaccactgcactccagcctgggtgacagagagagacactgccttggaaaaaaaaagaatctcactcactatctagagaggattgtcagaatattcacgattcaggtcttgaaactttgattatgcaaaagaaggtatataataaatatttcattatgattcagtttttaaggctttgcagcttctataagtgttctcagatgccactagataattttaaaagcatcatattagaaatactttaagaagacttatataagaaatagaagattgttgaattttacagaggatttggttcattaagacccagattctgtaagttttcattctgaaattctagttaaacatattcaccatttttcttaggaatcttatacaataaatccttcaggttgcacaaaagcaaattattagttttcattagaaactctggttctgaattacaatcataggttatataaatttaactgttagatggtctataaatcttattaaaatatgtgcaatatttatggaagtcaaacagcttcatatcagtgataaagattgttattaaaagataaatactgtctgttaatttacatgggcctcaagttcctcgtttataaaataagagagttggacactgattcttaacatctcctccacatttaaaattctctcttctcagcccttagattctagagagaaaaagctgcagttactcagtaagtccattctctgatggaaagaccagtgtgtagtgcctgtcaattccttaggattaatcaaatgtaaaatcacaagtttgtgtagctgtaacctttcttaaatgtacatgatttatgtacatgcttttagaaggtcctactatatttgtattataattagtttaagtaatttttattacatcatgtattgctttattcagtttgaatacatttatttatttatttgcagtatcaaccagaaacactaccaattgcatcaaattctcccagtttttcctggttgtcaatgcggttttcaatgcacaattaagtcatagccatttggttcgtaccaaatgtgtcagaatctaacagcatccgataggctgtaagttggggagttgctaagaaaatgcaacgtggtacaggctgtccgcctcagccctggaaatctcccagacctcccccagcttcatcctgtgtagcacgactcaacgtgcaccctgaatcttctcaggtcttccaggtcatgctgtagctgtcactgccatgcagcccttttttttactccggacagctcatgtactgaagcgtcatgaaagaaaggctgtggtctgagcccttctctcccatctcctgtctttgtcctgtcaagtgctggagccagagctcctacagctgcccttggtggtttctcctgttcagcgatggtggcacaaaggttctgctattccagggctccagcttcctcccaggtctacccagagctccagatgggggtctgaattaacctctcttggtggcctggagatttttagtcattgacaagaataccttgtaaccagggaaccccaaggcccagtaaatgattctgtataccattttcttgaaggtacaagaagattctgccgactatggggatctttgggccagtttgaggattgctttccctctgaggttctttctctctgtcagccacactttctcacccaacttcagacacaccctgccagcctttcccctactcattcactcttccccttccctcaacttaatcgtctatcccgttgcctgctgtttgactgtgcactgaaggcaggtggatggagtcagtcctcagttgcccctgctggccttcctggtgcttaccatcagcccaatctttgcacagtccttgttgttcttacttctctgcatgcattccttcagaagatcagtcatcaactttttcttaattcctctgtgacacacaatgggaattcaaaggaagagatcttaaaagtcacaacagttctttatcttaataatcccctccccattcaccttactacatgcagactcacctcacacccttacaacttgaagctgaaaatttaaaagtaatttccctttttgcagcttttcctcaggttaaggctttgatctgcctgagagtaactctaaaaggagggaagataaatatgggataaaatccacaaagtgtagcttctaattcctttggaagtttaaaaaatttccacatatctgatgcttcttttgtcaggtgcagaagcacaaaaacatattccgaagccaactgatagggaatttggggattattgtcagtttggagaatttgctgtgttatttcttcatttccatggatagctcatagttggctctttctgggtgagtaattatgtgtaatatagatcaaatcttttactaaggttacagctacatgttaggggaggctatgaaaatactatattattataatttcagtgcagtgattgttgtgagaaataactttcatggtaaccctaggaaaatgggcacctgccaccatcctgagaagtcctcacacaatgccctttctctcttacacacacacacacacacatacacacacacacacccccgtcactaattcatagagttccttagcaggcatagtcaaggatcctctgggtaatgtcagctgcttagtgataaaacagagccaaaactagtgcatcctgttgaaagtaatgcagaaacagtacctgggtccagatatgctttcctgcggcgctttcctctgttacctcgtttcatcctcacagcagcatggacggtaggtggggtcgcttctacaatcatttctgatgatagcttgggaatagagataggggcagtgacttgcctgatgtcgcacagccctctggctgtcctgctttcccatatggagcagtggtggtgtgggcacctgtgatgcaggagactttaaaaatgtcgtgaggtcacgtgctgcccctcctggtacgtgtggaatgcccctggccagcaaggggtgcttttttatcagagttggcagctggcatgtgggaaccgagcaagtgctgcgtaccaagttacttgttttaaggagaccaagtgctcagcgccaggtggttttcttttttgtcatagttacttgctataactcagcttgacttctgtcatgaatcagtgctctctgggaggatgcaatactctgtttgggcattaattggtagcaggttgtctcaaccaaaaagacaggaaacagcaaaagcctctctgaaattaagaggaaagttactctccccacacccatcagagtctttattggagccaccaggtgagctgtgcagcctggacaggcctgcagctataggccaccttcccagtttaggtcctcagcacaggggagcccaagtcactgggtgccttccgagggctgtcactgggcaggccatatacaagtcagtgtgtgcgtgggcactgcagtgtgtgcatgccgtaggtgttgatgggtgctaggaggggtgtcgtgtgcatgcgcgttgaagaggatctgtattgccgtgacctctgttcatggatgagtgcattgtaatttgttctcaggctgtgctgtgagggccgccttaacccttgctcccttcccttctagagctgccttaagttctccagaacttttcttctgtaaaggatatcttgcctggaagggatatcttgccctgtttctcaaggttttgtgagagttttgactggatgtggccctgcatgaccctccttctcctgtacttcctctttcctttccaaatgggaattagaactgtggggcagcaacagtctcagagccagtgagaggccagcttagagaatgcttctgagttagtgggactctgtgtcacaagtaagcaaatgaatatatgaaagaaattatggagataagttagattcttggtaatacttaaatgtcttgctttctactaaccttttgttactaaaggtaaagggtataactcaaactttttgtggacattcttttcaaaattttttaagaaccctgtactataaaaggttgagtaaaaacaggaaagcgtgctataagttcaaatctgttgtattaccctaaattagataaaccaacctgaattatagtagatttctcaatagatgaggaactgaaaaatactatgtaaaatatcttccaaaatgctttttatactttttttatttgtaatttggtctatctaaaatgttcgttagcttaacttaatgggcgttattggattcatatgactaacgtttcctcagtattgtaatgcttgaaatatttgaaagaaaaaatgttgttttttagttgaaactggtatatataattcagtgcttggcaggttagtatatttttatgcatttttcagagtcagcagtttcaaatcttattgttatcatgttataaaattttagcccacatttcaggctccgtaaatcatttgagccattattttttcccaacaaatggtgaattttttctttaaatgtggatatatatgttgtaatttatgattcctggttatgtatttttgtgggatcctgcagtaaaattgacttttttgtgtctttgggagatttaaattgcgctaacagtgttgcgcaaaaatgagttcatgccatttaacatattgtattttaattattaactgtattaatttactatgaaatggacatccttttaactaaaatggaattgaacattgcagttttcaaatatttttccttgttgggtctggaaaaggaattctactttgatctgcatagaaaattttgatacaattttttgaaagttcttaggtgaaacatttacccattaaaaaggaagcagaaatactgagacatgaaaggcattatcaactaactctagactctagaacccattctagcatatctcacgtgcaatttttaaaaataagttaataattcatctcatatcaacaaaagcctttgaaacatgggttttcactagatatcacctagtgctaagataaaaaccaaaacaatatcagaattacatttatgctctaaatttgtagttgtccattgttgtgcttagtaaatgtgtgtcattaatgctgtattctcctagctattatggaaacttgtttaaataaagatatggatataaaaaaaaaaaaaaaa
//
ANNOTATIONS from NCBI Entrez Gene (20130726):
GeneID:4644 -> Molecular function: GO:0000146 [microfilament motor activity] evidence: NAS
GeneID:4644 -> Molecular function: GO:0003779 [actin binding] evidence: IEA
GeneID:4644 -> Molecular function: GO:0005509 [calcium ion binding] evidence: IEA
GeneID:4644 -> Molecular function: GO:0005516 [calmodulin binding] evidence: IEA
GeneID:4644 -> Molecular function: GO:0005524 [ATP binding] evidence: IEA
GeneID:4644 -> Molecular function: GO:0017137 [Rab GTPase binding] evidence: IEA
GeneID:4644 -> Biological process: GO:0006810 [transport] evidence: NAS
GeneID:4644 -> Biological process: GO:0006887 [exocytosis] evidence: IEA
GeneID:4644 -> Biological process: GO:0007268 [synaptic transmission] evidence: IEA
GeneID:4644 -> Biological process: GO:0007601 [visual perception] evidence: IEA
GeneID:4644 -> Biological process: GO:0016044 [cellular membrane organization] evidence: TAS
GeneID:4644 -> Biological process: GO:0016192 [vesicle-mediated transport] evidence: ISS
GeneID:4644 -> Biological process: GO:0030048 [actin filament-based movement] evidence: NAS
GeneID:4644 -> Biological process: GO:0030073 [insulin secretion] evidence: IEA
GeneID:4644 -> Biological process: GO:0030318 [melanocyte differentiation] evidence: IEA
GeneID:4644 -> Biological process: GO:0031585 [regulation of inositol 1,4,5-trisphosphate-sensitive calcium-release channel activity] evidence: IEA
GeneID:4644 -> Biological process: GO:0031987 [locomotion involved in locomotory behavior] evidence: IEA
GeneID:4644 -> Biological process: GO:0032252 [secretory granule localization] evidence: IEA
GeneID:4644 -> Biological process: GO:0032402 [melanosome transport] evidence: IEA
GeneID:4644 -> Biological process: GO:0032869 [cellular response to insulin stimulus] evidence: ISS
GeneID:4644 -> Biological process: GO:0042438 [melanin biosynthetic process] evidence: IEA
GeneID:4644 -> Biological process: GO:0042476 [odontogenesis] evidence: IEA
GeneID:4644 -> Biological process: GO:0042552 [myelination] evidence: IEA
GeneID:4644 -> Biological process: GO:0042640 [anagen] evidence: IEA
GeneID:4644 -> Biological process: GO:0042759 [long-chain fatty acid biosynthetic process] evidence: IEA
GeneID:4644 -> Biological process: GO:0044267 [cellular protein metabolic process] evidence: TAS
GeneID:4644 -> Biological process: GO:0050808 [synapse organization] evidence: IEA
GeneID:4644 -> Biological process: GO:0051643 [endoplasmic reticulum localization] evidence: IEA
GeneID:4644 -> Biological process: GO:0072659 [protein localization to plasma membrane] evidence: ISS
GeneID:4644 -> Cellular component: GO:0001726 [ruffle] evidence: IDA
GeneID:4644 -> Cellular component: GO:0001750 [photoreceptor outer segment] evidence: IEA
GeneID:4644 -> Cellular component: GO:0005737 [cytoplasm] evidence: IDA
GeneID:4644 -> Cellular component: GO:0005794 [Golgi apparatus] evidence: IEA
GeneID:4644 -> Cellular component: GO:0005882 [intermediate filament] evidence: IEA
GeneID:4644 -> Cellular component: GO:0016459 [myosin complex] evidence: IEA
GeneID:4644 -> Cellular component: GO:0030426 [growth cone] evidence: NAS
GeneID:4644 -> Cellular component: GO:0032593 [insulin-responsive compartment] evidence: ISS
GeneID:4644 -> Cellular component: GO:0035371 [microtubule plus end] evidence: IEA
GeneID:4644 -> Cellular component: GO:0042470 [melanosome] evidence: IEA
GeneID:4644 -> Cellular component: GO:0042641 [actomyosin] evidence: IEA
GeneID:4644 -> Cellular component: GO:0043005 [neuron projection] evidence: NAS
GeneID:4644 -> Cellular component: GO:0043025 [neuronal cell body] evidence: IEA
by
@meso_cacase at
DBCLS
This page is licensed under a Creative Commons Attribution 2.1 Japan License.