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CRISPR01:59

CRISPR

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Genome editing technologies allow scientists to modify an organism’s DNA via the addition, removal, or rearrangement of genetic material at specific genomic locations. These types of techniques could potentially be used to cure genetic disorders such as hemophilia and sickle cell anemia. One popular and widely used DNA-editing research tool that could lead to safe and effective cures for genetic disorders is the CRISPR-Cas9 system. CRISPR-Cas9 stands for Clustered Regularly Interspaced...
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Homologous Recombination02:31

Homologous Recombination

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The basic reaction of homologous recombination (HR) involves two chromatids that contain DNA sequences sharing a significant stretch of identity. One of these sequences uses a strand from another as a template to synthesize DNA in an enzyme-catalyzed reaction. The final product is a novel amalgamation of the two substrates. To ensure an accurate recombination of sequences, HR is restricted to the S and G2 phases of the cell cycle. At these stages, the DNA has been replicated already and the...
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CRISPR/Cas9 Genome Editing01:28

CRISPR/Cas9 Genome Editing

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The CRISPR-Cas system serves as a bacterial defense mechanism against invading genetic elements such as viruses and plasmids, forming the foundation for its adaptation as a powerful genome-editing tool. Originally discovered in prokaryotes, this system has been repurposed to revolutionize genetic engineering across a wide range of organisms, including plants, animals, and humans. The core component, Cas9, is an endonuclease derived from Streptococcus pyogenes, capable of introducing...
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CRISPR and crRNAs02:53

CRISPR and crRNAs

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Bacteria and archaea are susceptible to viral infections just like eukaryotes; therefore, they have developed a unique adaptive immune system to protect themselves. Clustered regularly interspaced short palindromic repeats and CRISPR-associated proteins (CRISPR-Cas) are present in more than 45% of known bacteria and 90% of known archaea.
The CRISPR-Cas system stores a copy of foreign DNA in the host genome and uses it to identify the foreign DNA upon reinfection. CRISPR-Cas has three different...
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Conservative Site-specific Recombination and Phase Variation02:53

Conservative Site-specific Recombination and Phase Variation

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Because the DNA segments are cut and reorganized in a direction-specific manner, site-specific recombination has emerged as an efficient genetic engineering technique. Flippase and Cyclization recombinases or Flp and Cre, respectively, are two members of the tyrosine recombinase family derived from bacteriophages, that are used to mediate site-specific DNA insertions, deletions, and targeted expression of proteins in mammalian cell lines.
The recognition sites for Cre recombinase called LoxP...
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Cooperative Binding of Transcription Regulators02:13

Cooperative Binding of Transcription Regulators

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Transcriptional regulators bind to specific cis-regulatory sequences in the DNA to regulate gene transcription. These cis-regulatory sequences are very short, usually less than ten nucleotide pairs in length. The short length means that there is a high probability of the exact same sequence randomly occurring throughout the genome.  Since regulators can also bind to groups of similar sequences, this further increases the chances of random binding. Transcriptional regulators form...
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Related Experiment Video

Updated: Mar 2, 2026

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

Published on: October 18, 2022

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Resource competition shapes CRISPR-mediated gene activation.

Krishna Manoj Aravind1, Domitilla Del Vecchio2

  • 1Department of Mechanical Engineering, Massachusetts Institute of Technology, Cambridge, MA 02139, USA.

Cell Systems
|February 28, 2026
PubMed
Summary

CRISPR gene activation (CRISPRa) systems face challenges with scalability due to guide RNA interference and unexpected repression. A new model helps optimize multi-gene CRISPRa for better dynamic range and design.

Keywords:
CRISPR-mediated gene activationCRISPRacontext-dependencegene regulationmodularityreaction-network modelresource competitionsynthetic biologysystems biology

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Area of Science:

  • Molecular Biology
  • Synthetic Biology
  • Bioengineering

Background:

  • CRISPR-mediated gene activation (CRISPRa) enables simultaneous transcriptional control of multiple genes, crucial for screening, bioproduction, and therapeutics.
  • The system relies on guide RNAs (gRNAs) to recruit dCas9 and activator proteins to target genes, offering sequence specificity.

Purpose of the Study:

  • To investigate limitations in CRISPRa system optimization, specifically concerning multi-gene control.
  • To understand and model the interference and non-linear behaviors observed in CRISPRa systems.

Main Methods:

  • Developed a chemical reaction-network model to capture interactions between gRNAs, dCas9, and activator proteins.
  • Analyzed the impact of gRNA concentration on gene activation, identifying biphasic behavior.
  • Utilized the model to improve the dynamic range of multi-gRNA CRISPRa systems.

Main Results:

  • Demonstrated that different gRNAs interfere by competing for shared components (dCas9, activator protein), breaking system modularity.
  • Discovered a biphasic gene activation response where higher gRNA levels can lead to target repression.
  • Showcased the model's effectiveness in enhancing the dynamic range and enabling systematic design of CRISPRa systems.

Conclusions:

  • CRISPRa systems exhibit less modularity and scalability than previously assumed due to component competition and non-linear responses.
  • The developed chemical reaction-network model provides a predictive tool for optimizing complex, multi-gRNA CRISPRa applications.
  • This work facilitates more robust and efficient design of CRISPRa-based synthetic biology tools.