Brain and muscle creatine kinase genes contain common TA-rich recognition protein-binding regulatory elements.
about
Regulatory role of MEF2D in serum induction of the c-jun promoterhMEF2C gene encodes skeletal muscle- and brain-specific transcription factorsMEF2C, a MADS/MEF2-family transcription factor expressed in a laminar distribution in cerebral cortexMutational analysis of the DNA binding, dimerization, and transcriptional activation domains of MEF2CMEF2 protein expression, DNA binding specificity and complex composition, and transcriptional activity in muscle and non-muscle cellsGtx: a novel murine homeobox-containing gene, expressed specifically in glial cells of the brain and germ cells of testis, has a transcriptional repressor activity in vitro for a serum-inducible promoterMyocyte enhancer factor (MEF) 2C: a tissue-restricted member of the MEF-2 family of transcription factorsMuscle-specific expression of SRF-related genes in the early embryo of Xenopus laevis.MEF2 proteins, including MEF2A, are expressed in both muscle and non-muscle cellsThe human M creatine kinase gene enhancer contains multiple functional interacting domainsModulation of gene activity by consecutive gene targeting of one creatine kinase M allele in mouse embryonic stem cells.Multiple positive and negative elements regulate human brain creatine kinase gene expressionAnalysis of muscle creatine kinase gene regulatory elements in skeletal and cardiac muscles of transgenic mice.Positive regulatory elements (HF-1a and HF-1b) and a novel negative regulatory element (HF-3) mediate ventricular muscle-specific expression of myosin light-chain 2-luciferase fusion genes in transgenic miceA Mef2 gene that generates a muscle-specific isoform via alternative mRNA splicing.Different regulatory sequences control creatine kinase-M gene expression in directly injected skeletal and cardiac muscleA novel, cell-type-specific mechanism for estrogen receptor-mediated gene activation in the absence of an estrogen-responsive element.Multiple regulatory elements contribute differentially to muscle creatine kinase enhancer activity in skeletal and cardiac muscle.A novel, tissue-restricted zinc finger protein (HF-1b) binds to the cardiac regulatory element (HF-1b/MEF-2) in the rat myosin light-chain 2 gene.Analysis of the myogenin promoter reveals an indirect pathway for positive autoregulation mediated by the muscle-specific enhancer factor MEF-2.A single MEF-2 site is a major positive regulatory element required for transcription of the muscle-specific subunit of the human phosphoglycerate mutase gene in skeletal and cardiac muscle cells.Myogenin induces the myocyte-specific enhancer binding factor MEF-2 independently of other muscle-specific gene products.The MEF-3 motif is required for MEF-2-mediated skeletal muscle-specific induction of the rat aldolase A gene.Muscle gene E-box control elements. Evidence for quantitatively different transcriptional activities and the binding of distinct regulatory factors.Protooncogene c-ski is expressed in both proliferating and postmitotic neuronal populations.Differential expression of the myocyte enhancer factor 2 family of transcription factors in development: the cardiac factor BBF-1 is an early marker for cardiogenesis.Cell-specific transcription of the peripherin gene in neuronal cell lines involves a cis-acting element surrounding the TATA box.Identification of a conserved lipopolysaccharide-plus-interleukin-4-responsive element located at the promoter of germ line epsilon transcripts.An upstream regulatory element of the NCAM promoter contains a binding site for homeodomains.Serum induction of MEF2/RSRF expression in vascular myocytes is mediated at the level of translation.Human cytomegalovirus US3 and UL36-38 immediate-early proteins regulate gene expression.Autonomous activity of the alternate aldolase A muscle promoter is maintained by a sequestering mechanism.Identification of cis-acting regulatory elements in the promoter region of the rat brain creatine kinase gene.Transcriptional activation of rat creatine kinase B by 17beta-estradiol in MCF-7 cells involves an estrogen responsive element and GC-rich sites.Expression of the rat brain creatine kinase gene in C6 glioma cells.Cellular factors binding to a novel cis-acting element mediate steroid hormone responsiveness of mouse mammary tumor virus promoter.The non-histone chromosomal protein HMG-I(Y) contributes to repression of the immunoglobulin heavy chain germ-line epsilon RNA promoter.A new serum-responsive, cardiac tissue-specific transcription factor that recognizes the MEF-2 site in the myosin light chain-2 promoter.Myocyte-specific enhancer binding factor 2C expression in fetal mouse brain development.The role of MEF2 transcription factors in dehydration and anoxia survival in Rana sylvatica skeletal muscle.
P2860
Q24319672-B4026A06-DDD7-42CF-AF58-1DE4FE567B9AQ24322986-CD39325F-98D4-44A0-893C-7C1D2B629B19Q24563497-AAAB2A60-6E20-49EA-A650-9A28EDDE33ACQ24649105-2AE12D0A-A7DF-4F33-9E46-A7197838B4A8Q28289460-7B1A11E1-4956-4539-9D0C-7A5E4ACB602DQ28505457-F57A1E36-906A-46A1-A5BF-F8F6313E251FQ28588872-CEF554BF-0F0D-4C75-8A5D-9DE61581ED39Q33938625-C4CE3E0C-7268-4260-8494-1E03260A59C3Q34778070-0B646FDC-F102-4450-9106-0BDFBD73835BQ35068964-ECF30D6D-D63B-4B18-AC3E-68FC962D569FQ35763520-9310ECF3-DA72-48D4-B6E9-1450549C1330Q35793477-E191D149-14F0-4F5E-8895-B35AAE896495Q36558641-10F48F7E-5E39-4DA3-85EC-6D22D3A5DC18Q36646307-79F3999E-3DF1-4553-A200-479AE42C6917Q36647589-3C5A9C8B-0B22-480E-AA22-2F3A963FBCA9Q36662089-881346A2-8281-4B62-9F28-2320838D285FQ36668915-35325DFF-FC3B-4D1B-9DDF-C3E0171E5A61Q36681391-A1E54BF7-CD50-43BD-894F-45198B931E8BQ36691807-52423501-B047-474C-9CC3-339DAA91B642Q36698404-FEB479E5-7D3D-4F6B-A398-2B7BBCAD04EFQ36702821-61D04005-CF2D-4265-98D3-B09DD9C71F6AQ36735034-69CB9700-2C18-4799-A178-2B4614179F6EQ36824223-DD5AF6E7-02CC-4336-AC96-D59FB7F64607Q38291671-4DE9FB7D-F132-4FA0-A1DF-CFCB992B7A71Q38301920-381A8628-07FE-467D-A11E-AD8406A83573Q38305761-712A1013-10A4-471C-A005-BF0EA12DAA09Q38327004-CAF0D46B-2891-49B7-9085-D1ACB87AC4E9Q38332521-84C41B04-FBD2-4DA2-BE97-B8891BC791C0Q38333990-838F5A6A-F96F-4255-9B38-6696B53149CBQ40016503-1CE54ADE-1EBE-4AA7-B90D-6288F829EDDDQ40048929-40933669-B68C-4EE8-8647-75398100ECDDQ40411569-B0CD8693-AC8B-4CFF-9BFD-2AC7F86A9720Q40647678-363A23AC-63D5-419E-81A5-C0FD5810C4D2Q40762894-6652D16A-8C8C-49BB-B725-9A0547E804C0Q41079817-149AAE91-D750-4B91-9F66-550C1388CD73Q41282764-E50EB961-83E3-410A-9ED8-B047ABFF91C4Q41365596-1BE0F299-49D8-43B5-A158-41134BAD50F5Q41848267-CFA72840-3E79-43AB-89B9-23065B460FB8Q42439745-FDAFE442-F1F7-40CA-8424-4E6AFAAAC5ACQ47140371-ADAF7A76-2CC8-464C-B443-C9B25DE93C7A
P2860
Brain and muscle creatine kinase genes contain common TA-rich recognition protein-binding regulatory elements.
description
1990 nî lūn-bûn
@nan
1990年の論文
@ja
1990年学术文章
@wuu
1990年学术文章
@zh-cn
1990年学术文章
@zh-hans
1990年学术文章
@zh-my
1990年学术文章
@zh-sg
1990年學術文章
@yue
1990年學術文章
@zh
1990年學術文章
@zh-hant
name
Brain and muscle creatine kina ...... n-binding regulatory elements.
@en
type
label
Brain and muscle creatine kina ...... n-binding regulatory elements.
@en
prefLabel
Brain and muscle creatine kina ...... n-binding regulatory elements.
@en
P2093
P2860
P356
P1476
Brain and muscle creatine kina ...... n-binding regulatory elements.
@en
P2093
Benfield PA
Horlick RA
Mitchell MT
Patterson JH
P2860
P304
P356
10.1128/MCB.10.9.4826
P407
P577
1990-09-01T00:00:00Z