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相关概念视频

Root Loci for Positive-Feedback Systems01:23

Root Loci for Positive-Feedback Systems

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The Hartley oscillator is a positive feedback system that sustains oscillations by feeding the output back to the input in phase, thereby reinforcing the signal. Positive feedback systems can be viewed as negative feedback systems with inverted feedback signals. In these systems, the root locus encompasses all points on the s-plane where the angle of the system transfer function equals 360 degrees.
The construction rules for the root locus in positive feedback systems are similar to those in...
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Positive and Negative Feedback Loops01:18

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Animal organs and organ systems constantly adjust to internal and external changes through a process called homeostasis ("steady state"). Examples of these changes include regulation of the level of glucose or calcium in the blood or internal responses to external temperatures. Homeostasis requires  maintaining an internal dynamic equilibrium:
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Cell Signaling Feedback Loops01:07

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Positive and negative feedback loops are crucial for regulating biological signaling systems. These feedback loops are processes that connect output signals to their inputs.
Negative feedback loops
Most signaling systems have negative feedback loops that can perform different functions such as output limiter, and adaptation.
Output limiter
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Electrocyclic reactions, cycloadditions, and sigmatropic rearrangements are concerted pericyclic reactions that proceed via a cyclic transition state. These reactions are stereospecific and regioselective. The stereochemistry of the products depends on the symmetry characteristics of the interacting orbitals and the reaction conditions. Accordingly, pericyclic reactions are classified as either symmetry-allowed or symmetry-forbidden. Woodward and Hoffmann presented the selection criteria for...
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Effects of feedback01:24

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Feedback in control systems plays a critical role in shaping various operational parameters, extending beyond simple error reduction to influence stability, bandwidth, gain, impedance, and sensitivity. Understanding these effects requires examining a basic feedback system characterized by defined input, output, error, and feedback signals.
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When organisms require the same limited resources within an environment, they may have to compete for them. Competition is a net-negative interaction. Even if two competing individuals or populations do not interact directly, the overall fitness of both competitors is lowered as a result of not having full access to the limited resource.
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相关实验视频

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Dual CRISPR-Interference Strategy for Targeting Synthetic Lethal Interactions Between Non-Coding RNAs in Cancer Cells
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与CRISPRi连接的多模块负反循环解决了获胜者夺取所有资源的竞争.

Sadikshya Rijal1, Kylie Standage-Beier1, Rong Zhang1

  • 1School of Biological and Health Systems Engineering, Arizona State University, Tempe, Arizona 85281, United States.

ACS synthetic biology
|September 10, 2025
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概括

合成基因电路经常受到资源竞争的影响,导致获胜者获取全部 (WTA) 行为. 一个使用CRISPR干扰 (CRISPRi) 的新型负竞争性监管 (NCR) 控制器有效地抑制了WTA,增强了合成生物学电路模块化.

关键词:
dCas9 竞争 dCas9 的竞争这是模块化的模块化.模块协同激活的模块多模块控制控制系统资源脱是资源的脱.

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科学领域:

  • 合成生物学 合成生物学
  • 基因工程是一种基因工程.
  • 在CRISPR技术的应用中.

背景情况:

  • 细胞资源的限制导致合成基因电路中的意外模块相互作用.
  • 电路中的积极反循环加剧了资源竞争,导致了赢家占据全部 (WTA) 的行为.
  • 受损的电路模块化阻碍了可预测的合成基因电路设计和应用.

研究的目的:

  • 实验地实施和评估一个负竞争性监管 (NCR) 控制器.
  • 评估NCR控制器在合成基因电路中减轻WTA行为的有效性.
  • 改进合成基因电路的模块化和资源配置.

主要方法:

  • 实现使用CRISPR干扰 (CRISPRi) 的NCR控制器,使用可调 dCas9 基因.
  • dCas9的染色体整合和模块特定导向RNA (gRNA) 的设计,用于自我抑制.
  • 对双自激活和级联双可切换开关基因电路的评估,与对照组进行比较.

主要成果:

  • 在测试的基因电路中,NCR控制器显著抑制了获胜者获取全部 (WTA) 行为.
  • 与控制器相比,NCR控制器显著增加了模块协作激活.
  • 定量分析证实了平衡的模块激活和改进的资源重新分配.

结论:

  • 负竞争性监管 (NCR) 控制器是管理资源竞争的有效策略.
  • 通过减轻WTA动态,NCR增强了合成基因电路的模块性.
  • 这种方法提供了一种强大的方法来提高合成基因电路的可预测性和性能.