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相关概念视频

Covalently Linked Protein Regulators02:04

Covalently Linked Protein Regulators

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Proteins can undergo many types of post-translational modifications, often in response to changes in their environment. These modifications play an important role in the function and stability of these proteins. Covalently linked molecules include functional groups, such as methyl, acetyl, and phosphate groups, and also small proteins, such as ubiquitin. There are around 200 different types of covalent regulators that have been identified.
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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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Regulation of Expression Occurs at Multiple Steps02:24

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Gene expression can be regulated at almost every step from gene to protein. Transcription is the step that is most commonly regulated. This involves the binding of proteins to short regulatory sequences on the DNA. This association can either promote or inhibit the transcription of a gene associated with the respective sequence.
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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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The gene expression in cells is regulated at different stages: (i) transcription, (ii) RNA processing, (iii) RNA localization, and (iv) translation. Transcriptional regulation is mediated by regulatory proteins such as transcription factors, activators, or repressors—these control gene expression by initiating or inhibiting the transcription of genes. Once a precursor or pre-mRNA is produced, it undergoes post-transcriptional modification, including 5' capping, splicing, and the...
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Epigenetic changes alter the physical structure of the DNA without changing the genetic sequence and often regulate whether genes are turned on or off. This regulation ensures that each cell produces only proteins necessary for its function. For example, proteins that promote bone growth are not produced in muscle cells. Epigenetic mechanisms play an essential role in healthy development. Conversely, precisely regulated epigenetic mechanisms are disrupted in diseases like cancer.
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相关实验视频

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通过氧-响应性乙基化进行RNA控制.

Junsong Guo1, Siqin Chen1, Yoshiyuki Onishi2

  • 1Department of Chemistry, National University of Singapore, 4 Science Drive 2, Singapore, 117544, Singapore.

Angewandte Chemie (International ed. in English)
|March 14, 2024
PubMed
概括

研究人员开发了一种新的方法来控制使用氧化还原反应化学的RNA. 这种"遮蔽"和"揭露"的策略允许细胞内精确的RNA激活,避免溶酶体通路.

关键词:
隐蔽 隐藏 隐藏 隐藏 隐藏硫化二氧化物是二硫化物中的一种.在合成后的化过程中.这是一个RNARNARNARNARNA.减少环境 减少环境

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科学领域:

  • 对于RNA疗法来说,它是非常重要的.
  • 化学生物学是化学生物学.
  • 生物结合化学的化学

背景情况:

  • 刺激响应RNA结构提供了对RNA功能的时空控制.
  • 对于子RNA激活的回氧反应系统尚未得到充分的探索.
  • 精确控制RNA局部化和生物系统中的活性是具有挑战性的.

研究的目的:

  • 开发一种新的策略来控制RNA活动,使用氧化还原反应化学.
  • 为了使RNA结构在细胞环境中的精确时空激活.
  • 为基于RNA的应用程序创建一个多功能平台,以增强细胞传输.

主要方法:

  • 合成后的RNA的2'-OH组与含有二硫化物的乙烯添加物 ("覆盖") 的化.
  • 设计和合成用于RNA修饰的特定化试剂.
  • 通过减少刺激来证明RNA的无痕释放 ("解脱") 和重新激活.

主要成果:

  • 乙部分有效地阻断RNA的催化活性和折叠.
  • 反氧刺激触发了无痕释放和重新激活中的RNAs.
  • 修改后的RNA显示出快速的细胞吸收,细胞质分布和激活,而没有溶解体捕获.

结论:

  • 开发的化策略为RNA提供了有效的氧化还原反应控制.
  • 这种方法有助于有效的细胞传递和激活细胞内RNA.
  • 该平台为RNA生物学和治疗应用提供了一个有希望的,可访问的工具.