I-mf, a novel myogenic repressor, interacts with members of the MyoD family
about
Molecular cloning of a novel human I-mfa domain-containing protein that differently regulates human T-cell leukemia virus type I and HIV-1 expressionDirect interaction of the human I-mfa domain-containing protein, HIC, with HIV-1 Tat results in cytoplasmic sequestration and control of Tat activityI-mfa domain proteins interact with Axin and affect its regulation of the Wnt and c-Jun N-terminal kinase signaling pathways.The human I-mfa domain-containing protein, HIC, interacts with cyclin T1 and modulates P-TEFb-dependent transcriptionRequirement of the mouse I-mfa gene for placental development and skeletal patterningReassessing the role of region A in Pit1-mediated viral entryInhibition of Tcf3 binding by I-mfa domain proteinsThe HAND1 basic helix-loop-helix transcription factor regulates trophoblast differentiation via multiple mechanismsDevelopmental regulators containing the I-mfa domain interact with T cyclins and Tat and modulate transcriptionThe transcriptional repressor ZEB regulates p73 expression at the crossroad between proliferation and differentiationRegulation of myogenic terminal differentiation by the hairy-related transcription factor CHF2Differentiation of trophoblast giant cells and their metabolic functions are dependent on peroxisome proliferator-activated receptor beta/deltaNucleolar release of Hand1 acts as a molecular switch to determine cell fateNa+-dependent phosphate transporters in the murine osteoclast: cellular distribution and protein interactionsRegulation of the Arabidopsis root vascular initial population by LONESOME HIGHWAY.The complex regulation of HIC (Human I-mfa domain containing protein) expression.Role of TRPC1 channel in skeletal muscle function.Specificity in receptor usage by T-cell-tropic feline leukemia viruses: implications for the in vivo tropism of immunodeficiency-inducing variants.ZEB, a vertebrate homolog of Drosophila Zfh-1, is a negative regulator of muscle differentiation.Nuclear targeting signal recognition: a key control point in nuclear transport?zfh-1, the Drosophila homologue of ZEB, is a transcriptional repressor that regulates somatic myogenesis.Independent repressor domains in ZEB regulate muscle and T-cell differentiation.Beta-catenin regulates myogenesis by relieving I-mfa-mediated suppression of myogenic regulatory factors in P19 cellsInhibitor of myogenic family, a novel suppressor of store-operated currents through an interaction with TRPC1.The gene encoding I-mf (Mdfi) maps to human chromosome 6p21 and mouse chromosome 17.Setdb1 is required for myogenic differentiation of C2C12 myoblast cells via maintenance of MyoD expressionGene expression changes associated with progression and response in chronic myeloid leukemia.Cell biology of polycystin-2.ZEB1 imposes a temporary stage-dependent inhibition of muscle gene expression and differentiation via CtBP-mediated transcriptional repressionA targeted deleterious allele of the splicing factor SCNM1 in the mouse.MyoD and E-protein heterodimers switch rhabdomyosarcoma cells from an arrested myoblast phase to a differentiated state.A TRPC1 protein-dependent pathway regulates osteoclast formation and function.Alpha7 integrin expression is negatively regulated by deltaEF1 during skeletal myogenesis.XIC is required for Siamois activity and dorsoanterior development.Two independent nuclear localization signals are present in the DNA-binding high-mobility group domains of SRY and SOX9.Interaction of the porcine reproductive and respiratory syndrome virus nucleocapsid protein with the inhibitor of MyoD family-a domain-containing protein.Fat deposition and accumulation in the damaged and inflamed skeletal muscle: cellular and molecular players.Chicken gga-miR-130a targets HOXA3 and MDFIC and inhibits Marek's disease lymphoma cell proliferation and migration.Secretome Analysis of Skeletal Myogenesis Using SILAC and Shotgun Proteomics.Early gene expression changes in skeletal muscle from SOD1(G93A) amyotrophic lateral sclerosis animal model.
P2860
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P2860
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
description
1996 nî lūn-bûn
@nan
1996 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1996 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1996年の論文
@ja
1996年学术文章
@wuu
1996年学术文章
@zh-cn
1996年学术文章
@zh-hans
1996年学术文章
@zh-my
1996年学术文章
@zh-sg
1996年學術文章
@yue
name
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@ast
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en-gb
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@nl
type
label
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@ast
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en-gb
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@nl
prefLabel
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@ast
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en-gb
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@nl
P2093
P1433
P1476
I-mf, a novel myogenic repressor, interacts with members of the MyoD family
@en
P2093
P304
P356
10.1016/S0092-8674(00)80148-8
P407
P577
1996-09-06T00:00:00Z