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相关概念视频

Amplifying Signals via Enzymatic Cascade01:22

Amplifying Signals via Enzymatic Cascade

When a ligand binds to a cell-surface receptor, the receptor's intracellular domain changes shape, which may either activate its enzyme function or allow its binding to other molecules. The initial signal is amplified by most signal transduction pathways. This means that a single ligand molecule can activate multiple molecules of a downstream target. Proteins that relay a signal are most commonly phosphorylated at one or more sites, activating or inactivating the protein. Kinases catalyze the...
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In small-signal analysis, a MOSFET transistor amplifier acts as a linear amplifier when operating in its saturation region. The gate-to-source voltage (VGS) of the MOSFET is the sum of the DC biasing voltage and the small time-varying input signal. This combination sets up the operating point and modulates the drain current (ID) that flows from the drain to the source. When a small AC signal is superimposed on the DC bias voltage at the gate, the instantaneous drain current comprises three...

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相关实验视频

Updated: May 12, 2026

Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins
10:46

Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins

Published on: October 18, 2022

放大遗传逻辑门的扩大

Jerome Bonnet1, Peter Yin, Monica E Ortiz

  • 1Department of Bioengineering, Y2E2-269B, 473 Via Ortega, Stanford, CA 94305-4201, USA.

Science (New York, N.Y.)
|March 30, 2013
PubMed
概括
此摘要是机器生成的。

科学家们使用菌体血清整合酶设计了一种转录器装置,用于精确控制遗传逻辑. 这一创新使可编程合成生物学应用通过创建放大逻辑门来调节基因转录.

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DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation

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Last Updated: May 12, 2026

Gene Digital Circuits Based on CRISPR-Cas Systems and Anti-CRISPR Proteins
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Published on: October 18, 2022

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Published on: November 25, 2015

DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation
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科学领域:

  • 合成生物学 合成生物学
  • 分子生物学分子生物学
  • 基因工程是一种基因工程.

背景情况:

  • 有机体为了生存而处理环境和发育信号.
  • 合成遗传逻辑可以控制生物过程.

研究的目的:

  • 开发一种用于控制基因转录的新型设备架构.
  • 为生物应用设计合成遗传逻辑门.

主要方法:

  • 开发了一种称为转录器的三端设备.
  • 利用菌体血清整合酶来调节DNA序列.
  • 工程DNA构造编码转录终止器和促进器.

主要成果:

  • 证明了永久放大 AND,NAND,OR,XOR,NOR 和 XNOR 逻辑门.
  • 通过使用DNA编码逻辑状态实现了自主细胞-细胞通信.
  • 展示了在生物体内和生物体之间对转录率的控制.

结论:

  • 转录器能够精确,可编程地控制基因表达.
  • 这种单层数字逻辑架构推进了合成生物学.
  • 为各种生物系统提供逻辑门的工程方便.