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相关概念视频

Riboswitches01:56

Riboswitches

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Riboswitches are non-coding mRNA domains that regulate the transcription and translation of downstream genes without the help of proteins. Riboswitches bind directly to a metabolite and can form unique stem-loop or hairpin structures in response to the amount of the metabolite present. They have two distinct regions – a metabolite-binding aptamer and an expression platform.
The aptamer has high specificity for a particular metabolite which allows riboswitches to specifically regulate...
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Synthetic Biology02:55

Synthetic Biology

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Synthetic biology is an interdisciplinary science that involves using principles from disciplines such as engineering, molecular biology, cell biology, and systems biology. It involves remodeling existing organisms from nature or constructing completely new synthetic organisms for applications such as protein or enzyme production, bioremediation, value-added macromolecule production, and the addition of desirable traits to crops, to name a few.
Golden rice
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Ribozymes02:47

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Ribozymes02:47

Ribozymes

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The term ribozyme is used for RNA that can act as an enzyme. Ribozymes are mainly found in selected viruses, bacteria, plant organelles, and lower eukaryotes. Ribozymes were first discovered in 1982 when Tom Cech’s laboratory observed Group I introns acting as enzymes. This was shortly followed by the discovery of another ribozyme, Ribonulcease P, by Sid Altman’s laboratory. Both Cech and Altman received the Nobel Prize in chemistry in 1989 for their work on ribozymes.
Ribozymes can...
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Assembly of Signaling Complexes01:30

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Multiprotein signaling complexes are formed in a dynamic process involving protein-protein interactions at the cytoplasmic domain of transmembrane receptors or enzymatic and non-enzymatic proteins associated with the receptor. These complexes ensure the activation and propagation of intracellular signals that regulate cell functions.
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Combinatorial gene control is the synergistic action of several transcriptional factors to regulate the expression of a single gene. The absence of one or more of these factors may lead to a significant difference in the level of gene expression or repression.
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DNA-Tethered RNA Polymerase for Programmable In vitro Transcription and Molecular Computation
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使用 ribocomputing 设备进行复杂的细胞逻辑计算

Alexander A Green1,2, Jongmin Kim1,3, Duo Ma2

  • 1Wyss Institute for Biologically Inspired Engineering, Harvard University, Boston, Massachusetts 02115, USA.

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|July 27, 2017
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此摘要是机器生成的。

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科学领域:

  • 合成生物学
  • 分子工程
  • 生物技术

背景情况:

  • 合成生物学寻求以工程驱动的细胞功能编程.
  • 现有的合成基因电路由于有限的部件和复杂的规则而面临扩展的挑战.
  • 基于RNA的系统为简化和可扩展的生物计算提供了潜力.

研究的目的:

  • 开发仅用于RNA的纳米设备,用于评估活细胞中的复杂逻辑.
  • 创建一个可扩展的后转录生物计算平台.
  • 克服当前合成基因电路的局限性.

主要方法:

  • 通过可预测的基配对规则运行的设计 de-novo RNA 部分.
  • 为传感,计算和输出构建自组装的RNA复合体.
  • 对大肠杆菌的逻辑门性能进行了评估.

主要成果:

  • 已证明只有RNA的纳米设备能够进行复杂的逻辑操作.
  • 在双输入逻辑门中实现高动态范围 (高达900倍).
  • 成功扩展系统以评估四个输入的AND,六个输入的OR和12个输入的表达式.

结论:

  • 利博计算为生物计算提供了可预测和可扩展的方法.
  • 基于RNA的系统降低了代谢成本并提高了电路可靠性.
  • 可编程RNA相互作用为各种宿主中的多样化应用铺平了道路.