Efrat Hagai scite author profile

Efrat Hagai

3Publications

83Citation Statements Received

95Citation Statements Given

How they've been cited

101

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Affiliations

Hebrew University of Jerusalem

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Surface-motility induction, attraction and hitchhiking between bacterial species promote dispersal on solid surfaces

Hagai

Dvora

Havkin-Blank

et al. 2013

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The ability to move on solid surfaces provides ecological advantages for bacteria, yet many bacterial species lack this trait. We found that Xanthomonas spp. overcome this limitation by making use of proficient motile bacteria in their vicinity. Using X. perforans and Paenibacillus vortex as models, we show that X. perforans induces surface motility, attracts proficient motile bacteria and 'rides' them for dispersal. In addition, X. perforans was able to restore surface motility of strains that lost this mode of motility under multiple growth cycles in the lab. The described interaction occurred both on agar plates and tomato leaves and was observed between several xanthomonads and motile bacterial species. Thus, suggesting that this motility induction and hitchhiking strategy might be widespread and ecologically important. This study provides an example as to how bacteria can rely on the abilities of their neighboring species for their own benefit, signifying the importance of a communal organization for fitness.

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Genome Sequence of the Pattern-Forming Social Bacterium Paenibacillus dendritiformis C454 Chiral Morphotype

et al. 2012

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Bacterial-induced pH shifts link individual cell physiology to macroscale collective behavior

Dharanishanthi

Orgad

Rotem

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Bacteria have evolved a diverse array of signaling pathways that enable them to quickly respond to environmental changes. Understanding how these pathways reflect environmental conditions and produce an orchestrated response is an ongoing challenge. Herein, we present a role for collective modifications of environmental pH carried out by microbial colonies living on a surface. We show that by collectively adjusting the local pH value, Paenibacillus spp., specifically, regulate their swarming motility. Moreover, we show that such pH-dependent regulation can converge with the carbon repression pathway to down-regulate flagellin expression and inhibit swarming in the presence of glucose. Interestingly, our results demonstrate that the observed glucose-dependent swarming repression is not mediated by the glucose molecule per se, as commonly thought to occur in carbon repression pathways, but rather is governed by a decrease in pH due to glucose metabolism. In fact, modification of the environmental pH by neighboring bacterial species could override this glucose-dependent repression and induce swarming of Paenibacillus spp. away from a glucose-rich area. Our results suggest that bacteria can use local pH modulations to reflect nutrient availability and link individual bacterial physiology to macroscale collective behavior.

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Efrat Hagai

Surface-motility induction, attraction and hitchhiking between bacterial species promote dispersal on solid surfaces

Genome Sequence of the Pattern-Forming Social Bacterium Paenibacillus dendritiformis C454 Chiral Morphotype

Bacterial-induced pH shifts link individual cell physiology to macroscale collective behavior

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