Seminar Alfonso SOLER 10h Amph. Agnès Ullmann – Hacking bacterial growth: genomic strategies to reprogram generation time. - Research - Institut Pasteur

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The Neurobiology of Social and Sickness Behavior – Catherine Dulac

DSCB Seminar: Dr. Matthew Ricci, Institut Imagine, Paris, France – “Learning compositional representations of cell developmental trajectories with mixtures of dynamical experts”

Scientific Fields

Diseases

Organisms

Applications

Technique

Date

07

Oct 2025

Time

10:00:00

Address

Building: Monod Room: Amphitheater Agnès Ullmann

Location

2025-10-07 10:00:00 2025-10-07 11:00:00 Europe/Paris Seminar Alfonso SOLER 10h Amph. Agnès Ullmann – Hacking bacterial growth: genomic strategies to reprogram generation time. Title Hacking bacterial growth: genomic strategies to reprogram generation time. Abstract Bacterial growth rate (GR) determines how quickly microbes spread, compete, or produce valuable products. Yet the genetic and genomic factors encoding it remain […] Eugenia Soledad Bardossy eugenia-soledad.bardossy@pasteur.fr

Speakers

Alfonso SOLER-BISTUE

(Experimental Genomics of Bacteria, Universidad Nacional de San Martín (Argentina), IIBio-CONICET)

About

Title

Hacking bacterial growth: genomic strategies to reprogram generation time.

Abstract

Bacterial growth rate (GR) determines how quickly microbes spread, compete, or produce valuable products. Yet the genetic and genomic factors encoding it remain unknown. Using state-of-the-art genome-editing and experimental evolution tools our lab uncovers how GR is genetically encoded keeping at the same time an horizon of application. Vibrio cholerae, the cholera causative agent, divides extremely fast. By moving key genes to new chromosomal positions, we will push its growth to the lower limit. Slow-growing V. cholerae derivatives may be less infective paving the way for live-attenuated vaccines. Conversely, we have studied how to boost the growth of Bradyrhizobium, an extremely slow-growing soybean symbiont. Faster strains may cut the cost of producing bio-fertilizers helping farmers reduce chemical nitrogen use. We uncover fundamental genomic rules that encode growth and allow Synthetic Biologists to reprogram bacterial growth.

Speaker

Alfonso SOLER-BISTUE, PhD
Experimental Genomics of Bacteria
Escuela de Bio y Nanociencias Universidad Nacional de San Martín (Buenos Aires, Argentina)
IIBio-CONICET
https://asoler1.wixsite.com/iib-geb
https://www.iib.unsam.edu.ar/labs.php?sede=1&lab=25

Published on: 25 Sep 2025

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