A human gene (AHNAK) encoding an unusually large protein with a 1.2-microns polyionic rod structure
about
AHNAK interaction with the annexin 2/S100A10 complex regulates cell membrane cytoarchitectureCalpain 3 is a modulator of the dysferlin protein complex in skeletal muscleProtein kinase B phosphorylates AHNAK and regulates its subcellular localizationStructure of a C-terminal AHNAK peptide in a 1:2:2 complex with S100A10 and an acetylated N-terminal peptide of annexin A2Periaxin and AHNAK Nucleoprotein 2 Form Intertwined Homodimers through Domain SwappingProteomic Signatures of ThymomasThe AHNAKs are a class of giant propeller-like proteins that associate with calcium channel proteins of cardiomyocytes and other cellsAHNAK-mediated activation of phospholipase C-gamma1 through protein kinase C.Enlargeosome, an exocytic vesicle resistant to nonionic detergents, undergoes endocytosis via a nonacidic route.Diagnostic markers of ovarian cancer by high-throughput antigen cloning and detection on arrays.AHNAK suppresses tumour proliferation and invasion by targeting multiple pathways in triple-negative breast cancer.AHNAK2 is a potential prognostic biomarker in patients with PDAC.Multiple antibodies to titin immunoreact with AHNAK and localize to the mitotic spindle machinery.Rare variant density across the genome and across populations.Ahnak functions as a tumor suppressor via modulation of TGFβ/Smad signaling pathway.Effects on human transcriptome of mutated BRCA1 BRCT domain: a microarray study.Proteome analysis of altered proteins in streptozotocin-induced diabetic rat kidney using the fluorogenic derivatization-liquid chromatography-tandem mass spectrometry method.AHNAK and inflammatory markers predict poor survival in laryngeal carcinomaGlobal mass spectrometry and transcriptomics array based drug profiling provides novel insight into glucosamine induced endoplasmic reticulum stressObesity Resistance and Enhanced Insulin Sensitivity in Ahnak-/- Mice Fed a High Fat Diet Are Related to Impaired Adipogenesis and Increased Energy Expenditure.Deciphering the molecular machinery of stem cells: a look at the neoblast gene expression profile.The human gene AHNAK encodes a large phosphoprotein located primarily in the nucleusExome sequencing reveals a high genetic heterogeneity on familial Hirschsprung disease.A scaffold protein, AHNAK1, is required for calcium signaling during T cell activation.Dynamic interactions between L-type voltage-sensitive calcium channel Cav1.2 subunits and ahnak in osteoblastic cells.Annexin A2 complexes with S100 proteins: structure, function and pharmacological manipulation.AHNAK is downregulated in melanoma, predicts poor outcome, and may be required for the expression of functional cadherin-1.The S100A10-annexin A2 complex provides a novel asymmetric platform for membrane repair.Time-resolved Analysis of Proteome Dynamics by Tandem Mass Tags and Stable Isotope Labeling in Cell Culture (TMT-SILAC) Hyperplexing.The C type natriuretic peptide receptor tethers AHNAK1 at the plasma membrane to potentiate arachidonic acid-induced calcium mobilization.Identification and validation of eukaryotic aspartate and glutamate methylation in proteins.Cottontail rabbit papillomavirus E8 protein is essential for wart formation and provides new insights into viral pathogenesis.iTRAQ-coupled 2D LC/MS-MS analysis of CXCR7-transfected papillary thyroid carcinoma cells: A new insight into CXCR7 regulation of papillary thyroid carcinoma progression and identification of potential biomarkers.AHNAK as a Prognosis Factor Suppresses the Tumor Progression in Glioma.Giant scaffolding protein AHNAK1 interacts with β-dystroglycan and controls motility and mechanical properties of Schwann cells.Ahnak protein activates protein kinase C (PKC) through dissociation of the PKC-protein phosphatase 2A complex.Transcriptional profile of Rous Sarcoma Virus transformed chicken embryo fibroblasts reveals new signaling targets of viral-src.Fluorescence-Reported Allelic Exchange Mutagenesis Reveals a Role for Chlamydia trachomatis TmeA in Invasion That Is Independent of Host AHNAK.Mutational landscape of RNA-binding proteins in human cancers.Increased Cell Proliferations and Neurogenesis in the Hippocampal Dentate Gyrus of Ahnak Deficient Mice.
P2860
Q24303578-2A9B5B20-D61D-4431-BCCD-D400E0555C02Q24615708-229EEF94-F644-4AF9-81C7-3002CBCBA027Q24670065-BE3A5503-FA68-4045-A0DD-5355374CB177Q27675650-636493B1-DE8F-4826-851A-68030EB63A72Q27682578-C843E565-4601-47B8-BCFF-EBBBC7DFE2E2Q28553440-3AC7AFB6-CEA0-4679-827A-432841615B47Q28591182-8EA29FE9-3254-4F99-9CDF-F3568808652CQ30829579-BA6328A7-DC92-408A-86BC-B147BAC2D515Q30839501-898C314B-AA3F-45E4-AEA0-F0BC631AB4E4Q33232102-AB94EB10-2C1B-49AE-B805-8F1FC9EC69B7Q33667940-46092936-FFEB-464C-A106-E5B0AF887436Q33761904-55C99613-D695-4365-9886-14684E9E5AAAQ34105362-4126A287-03DB-4BC2-9C1D-B22D7F324751Q34175953-0FE0E804-37E2-458A-88DB-FB4B67C4D8E0Q34269750-D9730C3D-E702-4CBF-AD0A-9F2AAE2AA19AQ34286239-E844819B-A4A8-427A-BBB7-73E4520CFEE6Q34413463-703E5F3C-1128-4C44-B99A-5E762A867CC0Q34586928-4F3E8E9F-DDF2-4143-8313-C0B0E8B856B9Q34634894-0DDB2731-41C0-4F0C-B5F8-1A97823339B3Q35806814-695CB180-140B-4412-A692-185576789C2AQ35850349-8734B0F1-5295-4A78-891D-EB867DBA2CE5Q36232398-D77F027F-4697-436E-9AB1-4FE92B031BD3Q36272727-1B4FD6DE-38EE-49A7-A6D0-6D994764DD45Q36596980-EDDCF933-51B2-4EF5-B672-8C890704DF15Q37190325-02EA5200-FDA4-4CF6-9D9F-CA85BD57B7FAQ38258912-5D29303F-FE2D-48FD-BD85-8A640CD6FA32Q38761394-B148D4D8-3283-489E-BE74-6A038D0A548AQ39244179-A8B1903A-0F30-4B61-A036-5DDFF1002643Q39265020-F22E3AB3-CE2D-4DB3-B62C-4F72156E59A1Q39807751-6A383B7C-6D98-47B4-B6FD-C06E94D6B88FQ40131116-78F1487C-D363-468A-B30A-345316A8438AQ40287199-F49B76A2-1999-4BD0-B614-0B748C3E2FA2Q41618642-61898B9E-A083-4420-949B-D5B87CA8CDF4Q41721700-C793795E-F181-4E35-8420-BECA0383653EQ42458390-C1D4BD9E-33DF-4AF7-B82F-B71B0E3F7972Q42818619-DAD8D7DF-6170-402A-B0C9-D9A482F3C3C9Q43156526-0A300ABF-AFD0-4D88-94A0-33A366187EE6Q44058928-AB56366A-3D99-49A1-86F4-986A0597E5B5Q47663665-A813FF93-E43A-4E16-8554-664F49352B91Q48160937-92A2B26F-437A-44EC-A8CA-5FBDC2FC3E43
P2860
A human gene (AHNAK) encoding an unusually large protein with a 1.2-microns polyionic rod structure
description
1992 nî lūn-bûn
@nan
1992 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@ast
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en-gb
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@nl
type
label
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@ast
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en-gb
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@nl
prefLabel
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@ast
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en-gb
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@nl
P2860
P356
P1476
A human gene (AHNAK) encoding ...... icrons polyionic rod structure
@en
P2093
E Shtivelman
J M Bishop
P2860
P304
P356
10.1073/PNAS.89.12.5472
P407
P50
P577
1992-06-15T00:00:00Z