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相关概念视频

Regulation of Expression at Multiple Steps01:23

Regulation of Expression at Multiple Steps

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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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Covalently Linked Protein Regulators02:04

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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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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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It is vital to regulate the activity of enzymatic as well as non-enzymatic proteins inside the cell. This can be achieved either through creating a balance between their rate of synthesis and degradation or regulating the intrinsic activity of the protein. Both these regulation mechanisms play an essential role in the normal functioning of cells.
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What is Gene Expression?01:36

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A gene is a stretch of DNA that serves as the blueprint for functional RNAs and proteins. Since DNA is comprised  of nucleotides and proteins are comprised of amino acids, a mediator is required to convert the information encoded in DNA into proteins. This mediator is the messenger RNA (mRNA). mRNA copies the blueprint from DNA by a process called transcription. In eukaryotes, transcription occurs in the nucleus by complementary base-pairing with the DNA template. The mRNA is then...
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Different fluorescence-based techniques are used to study the protein dynamics in living cells. These techniques include FRAP, FRET, and PET.
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相关实验视频

Updated: Jun 13, 2025

Light-mediated Reversible Modulation of the Mitogen-activated Protein Kinase Pathway during Cell Differentiation and Xenopus Embryonic Development
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在活细胞中自发的翻译后修饰的可预测调制.

Meghan S Martin, Nomindari Bayaraa, Brittany T Fox

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    此摘要是机器生成的。

    科学家们开发了一种名为dialAGE的新方法,以精确控制与衰老和疾病有关的蛋白质糖化过程. 这种技术使研究人员能够研究糖化.

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    科学领域:

    • 生物化学 生物化学
    • 分子生物学分子生物学
    • 化学生物学 化学生物学

    背景情况:

    • 糖化是一种与衰老和疾病相关的非酶性蛋白质修饰.
    • 控制生物系统中特定的糖化位点是具有挑战性的.
    • 了解糖化作用的功能作用需要精确的实验控制.

    研究的目的:

    • 开发一种化学方法,用于对蛋白质糖化进行特定场所的控制.
    • 为了使糖化作为一种功能性翻译后修饰的研究.

    主要方法:

    • 引入了一个单点突变来调节氨酸糖化敏感性 (dialAGE).
    • 利用质谱测量来确认在ubiquitinin vitro中的特定位点的糖化调制.
    • 在活哺乳动物细胞中验证了该方法.

    主要成果:

    • 通过使用dialAGE. 证明了用dialAGE. 使用ubiquitin的局部特异性糖化增强和减少.
    • 表明dialAGE突变不会干扰聚比基链的形成.
    • 成功调节活细胞内的无素糖化水平.

    结论:

    • 通过dialAGE方法,可以精确控制蛋白质糖化.
    • 这种方法促进了对糖化酶的功能作用的研究.
    • 在细胞和体外环境中研究糖分的DialAGE是一个有价值的工具.