The mammalian HSF4 gene generates both an activator and a repressor of heat shock genes by alternative splicing.
about
A novel HSF1-mediated death pathway that is suppressed by heat shock proteinsAssociation and regulation of heat shock transcription factor 4b with both extracellular signal-regulated kinase mitogen-activated protein kinase and dual-specificity tyrosine phosphatase DUSP26Genomic organization and promoter analysis of the human heat shock factor 2 geneHuman ALKBH4 interacts with proteins associated with transcriptionAnalysis of HSF4 binding regions reveals its necessity for gene regulation during development and heat shock response in mouse lensesDevelopmentally dictated expression of heat shock factors: exclusive expression of HSF4 in the postnatal lens and its specific interaction with alphaB-crystallin heat shock promoterHSF4 is required for normal cell growth and differentiation during mouse lens developmentAn alternatively spliced isoform of B-Myb is a transcriptional inhibitorEarly transposable element insertion in intron 9 of the Hsf4 gene results in autosomal recessive cataracts in lop11 and ldis1 miceA novel mouse HSF3 has the potential to activate nonclassical heat-shock genes during heat shockInsights into regulation and function of the major stress-induced hsp70 molecular chaperone in vivo: analysis of mice with targeted gene disruption of the hsp70.1 or hsp70.3 gene.Determination of the consensus binding sequence for the purified embryonic heat shock factor 2.Arginine deficiency in preconfluent intestinal Caco-2 cells modulates expression of proteins involved in proliferation, apoptosis, and heat shock response.Dual coding in alternative reading frames correlates with intrinsic protein disorder.Removal of Hsf4 leads to cataract development in mice through down-regulation of gamma S-crystallin and Bfsp expression.Global gene expression analysis of lenses from different mouse strains and in the alpha3Cx46 knockout mouse.On mechanisms that control heat shock transcription factor activity in metazoan cells.The role of heat shock factors in stress-induced transcription.HSF1 and HSF3 cooperatively regulate the heat shock response in lizards.Novel isoforms of heat shock transcription factor 1, HSF1γα and HSF1γβ, regulate chaperone protein gene transcription.Absence of mutations in four genes encoding for congenital cataract and expressed in the human brain in Tunisian families with cataract and mental retardationMutant DNA-binding domain of HSF4 is associated with autosomal dominant lamellar and Marner cataract.PDSM, a motif for phosphorylation-dependent SUMO modification.Induction of HSPA4 and HSPA14 by NBS1 overexpression contributes to NBS1-induced in vitro metastatic and transformation activity.Arrest of spermatogenesis in mice expressing an active heat shock transcription factor 1.Heat shock transcription factor 1-deficiency attenuates overloading-associated hypertrophy of mouse soleus muscle.Early life exposure to endocrine-disrupting chemicals causes lifelong molecular reprogramming of the hypothalamus and premature reproductive aging.Functional analysis of the Hsf4(lop11) allele responsible for cataracts in lop11 mice.Lessons from the genome sequence of Neurospora crassa: tracing the path from genomic blueprint to multicellular organism.Proteomic analysis of SRA01/04 transfected with wild-type and mutant HSF4b identified from a Chinese congenital cataract family.Heat shock factors: integrators of cell stress, development and lifespan.The multiassembly problem: reconstructing multiple transcript isoforms from EST fragment mixtures.Impact of exercise and metabolic disorders on heat shock proteins and vascular inflammation.Zebrafish HSF4: a novel protein that shares features of both HSF1 and HSF4 of mammalsHeat shock proteins in the retina: Focus on HSP70 and alpha crystallins in ganglion cell survival.Neurospora crassa heat shock factor 1 Is an essential gene; a second heat shock factor-like gene, hsf2, is required for asexual spore formation.Mutation screening of HSF4 in 150 age-related cataract patients.A novel HSF4 gene mutation (p.R405X) causing autosomal recessive congenital cataracts in a large consanguineous family from Pakistan.Functional analysis of HSF4 mutations found in patients with autosomal recessive congenital cataracts.NeuroD6 genomic signature bridging neuronal differentiation to survival via the molecular chaperone network
P2860
Q24306081-957CA861-DDBD-43C1-A92A-1807B0E92BE1Q24313003-E26F02D0-16E9-4CB1-A95F-4ECEC7EE7EB9Q24563843-04C72803-0213-478F-972F-3FFC74E93DEBQ28485078-D035D134-6242-478D-93B7-64F460CB7EFBQ28508550-6F42D9C2-DC71-438E-970D-DEAB0C35080AQ28565640-80BCDF25-81B7-4391-95A6-7342800ABFC4Q28584804-21AE60C0-236C-4C45-9961-3847C795E754Q28588693-FA66A226-FA4D-4742-9BF7-00DBE7567682Q28589395-3333F114-5FA9-43AB-B932-E6E269031F16Q28594783-87B9C224-A650-42B1-BB68-59E528C22BDCQ30764395-F88C97B3-D7C2-4C3F-A2E4-4802216DC7B5Q31061523-2D9E2F55-E82F-4564-89FF-6DDE95A16E9DQ33274518-4287E5FC-1325-43B8-9D9E-AB170A9E7849Q33348728-A9DEEF4A-359E-4B2D-90BA-82169D4469ADQ33410189-831A75D6-B206-4D65-941E-E7E5A33A7196Q33608352-9897F683-501F-47C4-8186-7E8B7F4FD16DQ33716872-B15F991A-F064-4205-9B2E-3FEE954D0149Q33869872-3101BA14-286D-4DDB-BC91-D018C416F1D2Q33884248-C84A2454-9B61-4478-9F38-1AE92C200BF7Q33931099-B5CF2E4A-A94A-4641-971F-FEF4BA3FC397Q34079601-8873AA00-E02A-45E9-A5E1-A401E4A7DFB1Q34136058-EEA867C1-4609-484D-8DB4-D59E41B08317Q34248164-FEC21617-CF58-42A5-AEDC-0CEF9A5886DEQ34499737-4A6639B7-7D17-4AEA-9EF6-7C5BE88EE242Q35007857-616E82A4-6200-4981-B194-2618A8BF6994Q35027771-87B2498E-E92A-44A7-BB15-82CD8A4E6122Q35595694-4E268068-BDD2-4A20-8378-07EF40277E12Q35600004-108E4FB6-09E9-4F38-A64C-E3D9239994A4Q35684970-9A61AE44-8E14-4DEB-A497-288A1A045A9AQ35883278-46B0BED2-8AD1-47FC-BA77-8EDBC7D2C22FQ36109403-15FF8868-F9E1-494C-9622-2595B5FB4F9CQ36494102-16FB8A55-527F-4085-836A-C27AAAB20D25Q36497735-91D814E2-4A39-4A9E-8CEB-E1F0037DA63EQ36502580-33AC3A66-F249-40FD-B710-8D15018C992EQ36829093-5EE132DF-538A-48BA-B6DE-4D9AEB598883Q36899148-40DB9E2F-890D-42F4-A05A-29F030E630D1Q36942463-8D3EAF6D-0449-4809-B882-D20AE0497DC9Q36992136-4F39E00B-EC48-4D35-B5D3-6858F0E57552Q37230425-1ED36C37-B351-463E-A01A-70061B838EF0Q37441614-F124F2FD-A487-46C1-87D0-AA823043B2CF
P2860
The mammalian HSF4 gene generates both an activator and a repressor of heat shock genes by alternative splicing.
description
1999 nî lūn-bûn
@nan
1999 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@ast
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@en
type
label
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@ast
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@en
prefLabel
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@ast
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@en
P2093
P356
P1476
The mammalian HSF4 gene genera ...... genes by alternative splicing.
@en
P2093
P304
27845-27856
P356
10.1074/JBC.274.39.27845
P407
P577
1999-09-01T00:00:00Z