2021
DOI: 10.3389/fmicb.2021.742673
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Identification of the Type IX Secretion System Component, PorV (CHU_3238), Involved in Secretion and Localization of Proteins in Cytophaga hutchinsonii

Abstract: Cytophaga hutchinsonii can efficiently degrade cellulose and rapidly glide over surfaces, but the underlying mechanisms remain unclear. The type IX secretion system (T9SS) is involved in protein secretion and gliding motility, which is unique to the phylum Bacteroidetes. In this study, we deleted a homologous gene of PorV (chu_3238), a shuttle protein in the T9SS. The Δ3238 mutant caused cellulolytic and gliding defects, while the porV deletion mutants in other Bacteroidetes could glide normally. Adding Ca2+ a… Show more

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Cited by 4 publications
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“…To date, members of the class Flavobacteriia are found to be abundant in the macroalgal phycosphere microbiome and in microalgal blooms and are well documented for macro-and microalgal polysaccharide degradation [14,15]. Several studies have meanwhile demonstrated the ability of members of the class Cytophagia to degrade polysaccharides [16,17] and predicted potential polysaccharide degradation [18], although there are fewer available literature sources of marine Cytophagia bacteria degrading polysaccharides [19]. On the other hand, members of the class Bacteroidia are mostly anaerobes and have been well studied for polysaccharide degradation in the mammalian gut microbiota [20].…”
Section: Introductionmentioning
confidence: 99%
“…To date, members of the class Flavobacteriia are found to be abundant in the macroalgal phycosphere microbiome and in microalgal blooms and are well documented for macro-and microalgal polysaccharide degradation [14,15]. Several studies have meanwhile demonstrated the ability of members of the class Cytophagia to degrade polysaccharides [16,17] and predicted potential polysaccharide degradation [18], although there are fewer available literature sources of marine Cytophagia bacteria degrading polysaccharides [19]. On the other hand, members of the class Bacteroidia are mostly anaerobes and have been well studied for polysaccharide degradation in the mammalian gut microbiota [20].…”
Section: Introductionmentioning
confidence: 99%