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Gene Regulation in Microbial Communities: Quorum Sensing01:28

Gene Regulation in Microbial Communities: Quorum Sensing

Quorum sensing is a mechanism of bacterial communication that enables coordinated gene expression in response to changes in population density. This facilitates collective behaviors that enhance survival, resource acquisition, and ecological adaptation. This process relies on small signaling molecules called autoinducers that accumulate as bacterial populations grow. When a critical threshold concentration of autoinducers is reached, bacterial cells collectively modify gene expression,...
Reporter Genes02:11

Reporter Genes

Reporter genes are a type of protein-coding gene that are often tagged to a gene of interest. Once inside a target cell, reporter genes usually produce visually identifiable characteristics like fluorescence and luminescence when expressed along with the gene of interest. Thus, reporter genes “report” the presence or absence of genes of interest in an organism, determine the gene expression pattern, or track the physical location of a DNA segment or protein in the cell.
Commonly used reporter...
Global Regulatory Systems01:28

Global Regulatory Systems

Global regulatory systems in bacteria enable rapid and coordinated responses to environmental changes by integrating sensory inputs with gene expression, ensuring efficient adaptation to fluctuating conditions. Key global regulatory mechanisms include regulons, two-component systems, sigma factors, and secondary messengers.Regulons and Global RegulatorsA regulon is a collection of genes and operons controlled by a common global regulator. These regulators enable bacteria to prioritize resource...
Bacterial Signaling01:30

Bacterial Signaling

Bacterial signaling can occur within bacteria (intracellular) or between bacteria (intercellular). At times, a group of bacteria behaves like a community. To achieve this, they engage in quorum sensing, the perception of higher cell density that causes changes in gene expression. Quorum sensing involves both extracellular and intracellular signaling. The signaling cascade starts with a molecule called an autoinducer (AI). Individual bacteria produce AIs that move out of the bacterial cell...
Repressible Operon: trp Operon01:21

Repressible Operon: trp Operon

The trp operon in Escherichia coli exemplifies a repressible operon. It regulates the synthesis of tryptophan through repressor-mediated transcriptional control and attenuation. This dual regulatory mechanism ensures tryptophan biosynthesis occurs only when needed, conserving cellular resources.Structure of the trp OperonThe trp operon consists of five structural genes (trpE, trpD, trpC, trpB, and trpA) that encode enzymes for tryptophan biosynthesis. These genes are transcribed as a single...

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Related Experiment Video

Updated: May 9, 2026

Light-Controlled Fermentations for Microbial Chemical and Protein Production
08:37

Light-Controlled Fermentations for Microbial Chemical and Protein Production

Published on: March 22, 2022

Engineering the esaR promoter for tunable quorum sensing- dependent gene expression.

Jasmine Shong, Cynthia H Collins

    ACS Synthetic Biology
    |July 25, 2013
    PubMed
    Summary

    Engineered bacterial quorum sensing (QS) promoters with modified E(saR) binding sites offer tunable gene expression control. These tools enhance synthetic biology systems by precisely modulating cellular communication in response to specific signals.

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    Area of Science:

    • Synthetic biology
    • Microbial genetics
    • Biochemical engineering

    Background:

    • Quorum sensing (QS) allows bacteria to coordinate behaviors based on population density, crucial for synthetic cell-cell communication systems.
    • The engineered esaR promoter, P(esaR), is regulated by E(saR) and induced by 3-oxo-hexanoyl-homoserine lactone (3OC6HSL).

    Discussion:

    • Modified P(esaR) promoters with an additional E(saR) binding site demonstrate altered gene expression, regulatory range, and signal sensitivity.
    • The position of the second binding site critically influences the regulatory outcomes and the role of E(saR).

    Key Insights:

    • Novel P(esaR) variants provide a toolkit for fine-tuning QS-dependent gene expression.
    • Integration with endogenous signal production yields QS systems with diverse expression levels and temporal control.

    Outlook:

    • These engineered promoters can be utilized to precisely regulate multiple genes in response to a single QS signal.
    • Potential applications in developing sophisticated synthetic microbial consortia and dynamic biological circuits.