Time-lapse Mesoscopy of and Dual-species Biofilms Reveals a Structural Role for the Hyphae of in Biofilm Formation

Overview

Journal Microbiology (Reading)

Specialty Microbiology

Date 2024 Jan 23

PMID 38261525

Authors

Katherine J Baxter

Fiona A Sargison

J Ross Fitzgerald

Gail McConnell

Paul A Hoskisson

Affiliations

Soon will be listed here.

Abstract

Polymicrobial infection with and may result in a concomitant increase in virulence and resistance to antimicrobial drugs. This enhanced pathogenicity phenotype is mediated by numerous factors, including metabolic processes and direct interaction of with hyphae. The overall structure of biofilms is known to contribute to their recalcitrance to treatment, although the dynamics of direct interaction between species and how it contributes to pathogenicity is poorly understood. To address this, a novel time-lapse mesoscopic optical imaging method was developed to enable the formation of / whole dual-species biofilms to be followed. It was found that yeast-form or hyphal-form in the biofilm founder population profoundly affects the structure of the biofilm as it matures. Different sub-populations of and arise within each biofilm as a result of the different morphotypes, resulting in distinct sub-regions. These data reveal that cell morphology is pivotal in the development of global biofilm architecture and the emergence of colony macrostructures and may temporally influence synergy in infection.

Citing Articles

Oxygen Microenvironments in Biofilm Nutrient Transport Channels: Insights from Complementary Sensing Approaches.

Bottura B, McConnell G, Florek L, Smiley M, Martin R, Eana A bioRxiv. 2024; .

PMID: 39071348 PMC: 11275768. DOI: 10.1101/2024.07.20.603676.

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