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Comparative Genomics of Cyclic di-GMP Metabolism and Chemosensory Pathways in Shewanella algae Strains: Novel Bacterial Sensory Domains and Functional Insights into Lifestyle Regulation

Alberto J. Martín‐Rodríguez, Shawn M. Higdon, Kaisa Thorell, Christian Tellgren‐Roth, Åsa Sjöling, Michael Y. Galperin, Tino Krell, Ute Römling

2022mSystems21 citationsDOIOpen Access PDF

Abstract

spp. are widespread aquatic bacteria that include the well-studied freshwater model strain Shewanella oneidensis MR-1. In contrast, the physiology of the marine and occasionally pathogenic species Shewanella algae is poorly understood. Chemosensory and c-di-GMP signal transduction systems integrate environmental stimuli to modulate gene expression, including the switch from a planktonic to sessile lifestyle and pathogenicity. Here, we systematically dissect the c-di-GMP proteome and chemosensory pathways of the type strain S. algae CECT 5071 and 41 additional S. algae isolates. We provide insights into the activity and function of these proteins, including a description of six novel sensory domains. Our work will enable future analyses of the complex, intertwined c-di-GMP metabolism and chemotaxis networks of S. algae and their ecophysiological role.

Topics & Concepts

BiologyAlgaeShewanellaBiochemistryMicrobiologyCell biologyBotanyGeneticsBacteriaBacterial biofilms and quorum sensingMicrobial Community Ecology and PhysiologyMicrobial Fuel Cells and Bioremediation
Comparative Genomics of Cyclic di-GMP Metabolism and Chemosensory Pathways in Shewanella algae Strains: Novel Bacterial Sensory Domains and Functional Insights into Lifestyle Regulation | Litcius