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Related Concept Videos

Real Time RT-PCR02:57

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Real-time reverse transcription-polymerase chain reaction, or Real-time RT-PCR, is an analytical tool used to determine the expression level of target genes. The method involves converting mRNA to complementary DNA with the help of an enzyme known as reverse transcriptase, followed by the PCR amplification of the cDNA. These two processes can be performed simultaneously in a single tube or separately as a two-step reaction.
The real-time quantification of the number of amplified products is...
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An Optogenetic Method to Control and Analyze Gene Expression Patterns in Cell-to-cell Interactions
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Correction: Division time-based amplifiers for stochastic gene expression.

Haohua Wang1, Zhanjiang Yuan2, Peijiang Liu2

  • 1School of Mathematics and Computational Science, Sun Yat-Sen University, Guangzhou 510275, People's Republic of China. mcszhtsh@mail.sysu.edu.cn and Department of Mathematics College of Information Science and Technology Hainan University, Haikou 570228, People's Republic of China.

Molecular Biosystems
|January 13, 2016
PubMed
Summary
This summary is machine-generated.

This correction clarifies a previous study on division time-based amplifiers for stochastic gene expression. It ensures accurate understanding of how these amplifiers impact gene expression variability.

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Area of Science:

  • Synthetic biology
  • Molecular systems biology
  • Biophysics

Context:

  • Stochastic gene expression is a fundamental biological process.
  • Understanding gene expression noise is crucial for cell function and development.
  • Mathematical modeling and experimental validation are key to studying gene expression dynamics.

Purpose:

  • To correct and clarify findings presented in a previous publication.
  • To ensure the accurate representation of division time-based amplifiers in stochastic gene expression models.
  • To maintain scientific integrity and facilitate future research in gene expression regulation.

Summary:

  • This entry serves as a correction to the original article 'Division time-based amplifiers for stochastic gene expression'.
  • It addresses any inaccuracies or ambiguities identified in the initial publication regarding the function and impact of these amplifiers.
  • The correction ensures the precise interpretation of how cell division timing influences gene expression variability.

Impact:

  • Ensures the reliability of data and conclusions related to stochastic gene expression.
  • Facilitates accurate future research and development in synthetic biology and systems biology.
  • Upholds scientific rigor by promptly addressing and rectifying errors in published literature.