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Programming gene expression in multicellular organisms for physiology modulation through engineered bacteria

Biology

Programming gene expression in multicellular organisms for physiology modulation through engineered bacteria

B. Gao and Q. Sun

In an innovative study, Baizhen Gao and Qing Sun delve into the symbiotic relationship between engineered *E. coli* and *C. elegans*, showcasing how bacteria can be programmed to modulate animal physiology. This ground-breaking research utilizes genetic circuits to influence gene expression, offering exciting prospects for advancing biotechnology applications.

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~3 min • Beginner • English
Abstract
A central goal of synthetic biology is to predictably and efficiently reprogram living systems to perform computations and carry out specific biological tasks. Although there have been many advances in the bio-computational design of living systems, these advances have mainly been applied to microorganisms or cell lines; programming animal physiology remains challenging for synthetic biology because of the system complexity. Here, we present a bacteria-animal symbiont system in which engineered bacteria recognize external signals and modulate animal gene expression, twitching phenotype, and fat metabolism through RNA interference toward gfp, sbp-1, and unc-22 gene in C. elegans. By using genetic circuits in bacteria to control these RNA expressions, we are able to program the physiology of the model animal Caenorhabditis elegans with logic gates. We anticipate that engineered bacteria can be used more extensively to program animal physiology for agricultural, therapeutic, and basic science applications.
Publisher
Nature Communications
Published On
May 11, 2021
Authors
Baizhen Gao, Qing Sun
Tags
engineered bacteria
animal physiology
gene expression
C. elegans
RNA interference
bacteria-animal symbionts
biotechnology

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