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RNA Polymerase II Accessory Proteins02:36

RNA Polymerase II Accessory Proteins

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Proteins that regulate transcription can do so either via direct contact with RNA Polymerase or through indirect interactions facilitated by adaptors, mediators, histone-modifying proteins, and nucleosome remodelers. Direct interactions to activate transcription is seen in bacteria as well as in some eukaryotic genes. In these cases, upstream activation sequences are adjacent to the promoters, and the activator proteins interact directly with the transcriptional machinery. For example, in...
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RNA Polymerase II Accessory Proteins02:36

RNA Polymerase II Accessory Proteins

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Co-activators and Co-repressors02:04

Co-activators and Co-repressors

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Gene transcription is regulated by the synergistic action of several proteins that form a complex at a gene regulatory site. This is observed in eukaryotes, where the regulation of gene expression is a complex process. Regulatory proteins in eukaryotes can broadly be classified into two types – regulators that bind directly to specific DNA sequences and co-regulators that associate with regulatory proteins but cannot directly bind to the DNA. These co-regulators are further divided into...
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Co-activators and Co-repressors02:04

Co-activators and Co-repressors

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Cooperative Binding of Transcription Regulators02:13

Cooperative Binding of Transcription Regulators

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Transcriptional regulators bind to specific cis-regulatory sequences in the DNA to regulate gene transcription. These cis-regulatory sequences are very short, usually less than ten nucleotide pairs in length. The short length means that there is a high probability of the exact same sequence randomly occurring throughout the genome.  Since regulators can also bind to groups of similar sequences, this further increases the chances of random binding. Transcriptional regulators form...
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Cooperative Binding of Transcription Regulators02:13

Cooperative Binding of Transcription Regulators

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相关实验视频

Updated: Jan 13, 2026

Author Spotlight: An Integrated Workflow to Study the Promoter-Centric Spatio-Temporal Genome Architecture in Scarce Cell Populations
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Author Spotlight: An Integrated Workflow to Study the Promoter-Centric Spatio-Temporal Genome Architecture in Scarce Cell Populations

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监管要素之间的合作作用作为增强器功能的调节器.

Deevitha Balasubramanian1, Margarita Masoura1, Yad Ghavi-Helm1

  • 1Institut de Génomique Fonctionnelle de Lyon, UMR5242, Ecole Normale Supérieure de Lyon, Centre National de la Recherche Scientifique, Université Claude Bernard-Lyon 1, 46 allée d'Italie, F-69364 Lyon, France.

Current opinion in genetics & development
|January 10, 2026
PubMed
概括
此摘要是机器生成的。

基因调控涉及促进剂和增强剂,但新的序列,如促进剂-近位元素,可以微调这一过程. 这些元素沿着一个调节连续性起作用,对于理解复杂的基因组至关重要.

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Prediction and Validation of Gene Regulatory Elements Activated During Retinoic Acid Induced Embryonic Stem Cell Differentiation
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科学领域:

  • 分子生物学分子生物学
  • 遗传学 是一个遗传学.
  • 基因组学就是基因组学.

背景情况:

  • 基因转录通常由促进剂和增强剂调节.
  • 最近的发现揭示了额外的调节序列,微调基因表达.

研究的目的:

  • 审查最近描述的调节序列:促进器-近位元和增强器类调节器.
  • 讨论它们的功能,机制和对基因调控元素当前定义的影响.

主要方法:

  • 对促进器近位元素和增强器类调制剂的文献综述.
  • 分析代表性例子和建议的行动机制.

主要成果:

  • 促进器近位元素和增强器类调节器显著影响增强器功能和转录输出.
  • 这些因素挑战了离散的分类,表明了监管连续性.

结论:

  • 基因调节元素可能不适合离散类,但存在于连续.
  • 了解这种连续性对于破译复杂基因组中的基因调节至关重要.