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注意:仅列出部分参考文献,下载原文获取全部文献信息。Amino acids as regulators of gene expression in mammals: Molecular mechanisms
Alain Bruhat et al.
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Deprivation of protein or amino acid induces C/EBP β synthesis and binding to amino acid response elements, but its action is not an absolute requirement for enhanced transcription
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TRB3 protects cells against the growth inhibitory and cytotoxic effect of ATF4
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Feedback regulation of p38 activity via ATF2 is essential for survival of embryonic liver cells
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TRB3 inhibits the transcriptional activation of stress-regulated genes by a negative feedback on the ATF4 pathway
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ATF2 is required for amino acid-regulated transcription by orchestrating specific histone acetylation
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Activation of the ATF3 gene through a co-ordinated amino acid-sensing response programme that controls transcriptional regulation of responsive genes following amino acid limitation
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The functional Q84R polymorphism of mammalian tribbles homolog TRB3 is associated with insulin resistance and related cardiovascular risk in Caucasians from Italy
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Induction of CHOP expression by amino acid limitation requires both ATF4 expression and ATF2 phosphorylation
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JOURNAL OF BIOLOGICAL CHEMISTRY (2004)
Amino acid deprivation induces the transcription rate of the human asparagine synthetase gene through a timed program of expression and promoter binding of nutrient-responsive basic region/leucine zipper transcription factors as well as localized histone acetylation
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Mouse NIPK interacts with ATF4 and affects its transcriptional activity
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Differences in the molecular mechanisms involved in the transcriptional activation of the CHOP and asparagine synthetase genes in response to amino acid deprivation or activation of the unfolded protein response
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The immuno suppress ant rapamycin mimics a starvation-like signal distinct from amino acid and glucose deprivation
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Regulated translation initiation controls stress-induced gene expression in mammalian cells
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