Analysis of SCG10 gene expression in transgenic mice reveals that neural specificity is achieved through selective derepression.
about
Expression of leucine-rich repeat kinase 2 (LRRK2) inhibits the processing of uMtCK to induce cell death in a cell culture model systemThe neuron-restrictive silencer factor (NRSF): a coordinate repressor of multiple neuron-specific genesTissue-specific expression of the L1 cell adhesion molecule is modulated by the neural restrictive silencer element.Drosophila stathmins bind tubulin heterodimers with high and variable stoichiometries.Neuron-specific expression and physiological regulation of bovine vasopressin transgenes in mice.The chromaffin cell: paradigm in cell, developmental and growth factor biology.Phosphotyrosine 1062 is critical for the in vivo activity of the Ret9 receptor tyrosine kinase isoform.Silencer-delimited transgenesis: NRSE/RE1 sequences promote neural-specific transgene expression in a NRSF/REST-dependent manner.Functional analysis of the human neurofilament light chain gene promoter.Negative regulatory elements upstream of a novel exon of the neuronal nicotinic acetylcholine receptor alpha 2 subunit geneNeurogenic maturation of human dental pulp stem cells following neurosphere generation induces morphological and electrophysiological characteristics of functional neurons.Transcription inhibition of the somatic-type phosphoglycerate kinase 1 gene in vitro by a testis-specific factor that recognizes a sequence similar to the binding site for Ets oncoproteins.Oxytocin and vasopressin. From genes to peptides.An upstream regulatory region mediates high-level, tissue-specific expression of the human alpha 1(I) collagen gene in transgenic mice.An upstream stimulatory factor (USF) binding motif is critical for rat preprotachykinin-A promoter activity in PC12 cells.Transcriptional analysis of acetylcholine receptor alpha 3 gene promoter motifs that bind Sp1 and AP2.Nerve growth factor-induced derepression of peripherin gene expression is associated with alterations in proteins binding to a negative regulatory element.Identification of cis-acting sequences in the promoter of the herpes simplex virus type 1 latency-associated transcripts required for activation by nerve growth factor and sodium butyrate in PC12 cells.Transcriptional repression by neuron-restrictive silencer factor is mediated via the Sin3-histone deacetylase complex.The POU homeodomain transcription factor Oct-1 is essential for activity of the gonadotropin-releasing hormone neuron-specific enhancer.The regulation of neuron-specific gene expression in the mammalian nervous system.Contribution of a PS1-like element to the tissue- and cell-specific expression of the human GLP-1 receptor gene.Transcriptional control of neuropeptide gene expression in sensory neurons, using the preprotachykinin-A gene as a model.5'-flanking sequences of the human HPRT gene direct neuronal expression in the brain of transgenic mice.Analysis of transcriptional regulatory sequences of the N-methyl-D-aspartate receptor 2A subunit gene in cultured cortical neurons and transgenic mice.NRSF/REST is required in vivo for repression of multiple neuronal target genes during embryogenesis.Distinct N-methyl-D-aspartate receptor 2B subunit gene sequences confer neural and developmental specific expression.A binary mechanism for the selective action of a pancreatic beta -cell transcriptional silencer.
P2860
Q24294684-32DA0585-E70E-44F1-B585-25B647FFC341Q24314740-797DE70C-B0DA-429F-A967-B9CD6F540932Q30494551-630C63EC-51F0-4CBC-ADD0-616AFA59C9A1Q33799852-164C90B3-A298-4CB3-8295-88D199E9DDD4Q34052770-F71AE7C7-865F-4F94-8B40-B30C5CDB8FC0Q34087144-76A47449-5ED4-4CAB-8197-8640DE4F5AB8Q34097428-F3F3D1FB-FFF2-4173-93A3-6976AA2F3EC8Q34496614-54CE1EEF-7D3C-4458-9442-AB1FC7C63A35Q34965461-94F3F169-F7A2-4DF5-B32C-06F9F32568FFQ34982387-97627382-7B89-4B3E-8E75-44B0BCDC9F9AQ34999750-8ADB2A94-342E-4EEB-B8AC-4F6978C7FEDDQ35772883-A53E6C9C-DFF1-4805-8AD0-BCE864BDE5F0Q36305657-71287EFE-B934-4B5F-9D28-007B19E55E85Q36688508-75AA89CE-6E1A-48E5-8331-196129A4B6FFQ38292119-B34FA09C-3AD6-496D-8364-D97E08B131ABQ38296619-E01028A2-971C-4082-9B0E-829CEECE8E8AQ38328339-F6C2A23A-F985-4690-9F34-64207A345D05Q38352022-199BD99B-09D8-40EA-B6D1-1666F8538173Q39584884-07E62121-BA8C-45AF-9104-CD4F345D14FCQ40017557-ECC7949C-CEA6-4E60-B3CD-02B8B2D44C3AQ40964411-92F5EB7B-661E-4A15-9B58-B3E6EFD46D17Q41001578-33420AFD-8784-4B8B-8EC1-D4671A230A76Q41143446-8068809D-1D74-44C9-9572-DAFA7277EA9FQ42476521-842C0CA8-F07A-447C-9C58-B2895C35F069Q44160918-16F1CEEB-D39A-4062-B05D-D703A3B2A398Q46342935-E60F832F-9217-4964-AA3B-C5153CFA5CF1Q48060938-89219F46-3674-4B44-A532-C3AC7A7BF88EQ54467774-5F83B008-5BDC-4F72-953A-B1720044B995
P2860
Analysis of SCG10 gene expression in transgenic mice reveals that neural specificity is achieved through selective derepression.
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
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-hant
name
Analysis of SCG10 gene express ...... hrough selective derepression.
@en
Analysis of SCG10 gene express ...... hrough selective derepression.
@nl
type
label
Analysis of SCG10 gene express ...... hrough selective derepression.
@en
Analysis of SCG10 gene express ...... hrough selective derepression.
@nl
prefLabel
Analysis of SCG10 gene express ...... hrough selective derepression.
@en
Analysis of SCG10 gene express ...... hrough selective derepression.
@nl
P2093
P1433
P1476
Analysis of SCG10 gene express ...... hrough selective derepression.
@en
P2093
Anderson DJ
Wuenschell CW
P304
P356
10.1016/0896-6273(90)90117-X
P407
P577
1990-04-01T00:00:00Z