Contributions of tropodithietic acid and biofilm formation to the probiotic activity of Phaeobacter inhibens

Lignocellulosic materials from municipal solid waste emerge as attractive resources for anaerobic digestion biorefinery. To increase the knowledge required for establishing efficient bioprocesses, dynamics of batch fermentation by the cellulolytic bacterium Ruminiclostridium cellulolyticum were compared using three cellulosic materials, paper handkerchief, cotton discs and Whatman filter paper. Fermentation of paper handkerchief occurred the fastest and resulted in a specific metabolic profile: it resulted in the lowest acetate-to-lactate and acetate-to-ethanol ratios. By shotgun proteomic analyses of paper handkerchief and Whatman paper incubations, 151 proteins with significantly different levels were detected, including 20 of the 65 cellulosomal components, 8 non-cellulosomal CAZymes and 44 distinct extracytoplasmic proteins. Consistent with the specific metabolic profile observed, many enzymes from the central carbon catabolic pathways had higher levels in paper handkerchief incubations. Among the quantified CAZymes and cellulosomal components, 10 endoglucanases mainly from the GH9 families and 7 other cellulosomal subunits had lower levels in paper handkerchief incubations. An in-depth characterization of the materials used showed that the lower levels of endoglucanases in paper handkerchief incubations could hypothetically result from its lower crystallinity index (50%) and degree of polymerization (970). By contrast, the higher hemicellulose rate in paper handkerchief (13.87%) did not result in the enhanced expression of enzyme with xylanase as primary activity, including enzymes from the “xyl-doc” cluster. It suggests the absence, in this material, of molecular structures that specifically lead to xylanase induction. The integrated approach developed in this work shows that subtle differences among cellulosic materials regarding chemical and structural characteristics have significant effects on expressed bacterial functions, in particular the cellulolysis machinery, resulting in different metabolic patterns and degradation dynamics.

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“…cellulolyticum and contrasts to a previous report on the closely related Ruminiclostridium termitidis [42]. …”

Section: Resultscontrasting

confidence: 99%

Whole Proteome Analyses on Ruminiclostridium cellulolyticum Show a Modulation of the Cellulolysis Machinery in Response to Cellulosic Materials with Subtle Differences in Chemical and Structural Properties

Badalato¹,

Guillot

Sabarly³

et al. 2017

PLoS ONE

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“…6), which mirrors the few other inventories on gut microbiota of amphibian larvae that have been published to date254849. Snapshots of gut-associated bacterial communities obtained from the field survey revealed differences in bacterial diversity between pond and stream larvae as well as habitat-specific signatures in bacterial community composition and structure.…”

Section: Discussionsupporting

confidence: 55%

Amphibian gut microbiota shifts differentially in community structure but converges on habitat-specific predicted functions

et al. 2016

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Complex microbial communities inhabit vertebrate digestive systems but thorough understanding of the ecological dynamics and functions of host-associated microbiota within natural habitats is limited. We investigate the role of environmental conditions in shaping gut and skin microbiota under natural conditions by performing a field survey and reciprocal transfer experiments with salamander larvae inhabiting two distinct habitats (ponds and streams). We show that gut and skin microbiota are habitat-specific, demonstrating environmental factors mediate community structure. Reciprocal transfer reveals that gut microbiota, but not skin microbiota, responds differentially to environmental change. Stream-to-pond larvae shift their gut microbiota to that of pond-to-pond larvae, whereas pond-to-stream larvae change to a community structure distinct from both habitat controls. Predicted functions, however, match that of larvae from the destination habitats in both cases. Thus, microbial function can be matched without taxonomic coherence and gut microbiota appears to exhibit metagenomic plasticity.

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“…This culminates a decade of our work wherein two parallel pathways of investigation revealed a pathologic type I IFN profile in C3H mice infected with B. burgdorferi that is suppressed by IFNAR1 blockade (14, 18–22). Others have corroborated the association between pathologic type I IFN production and Lyme disease pathogenesis in murine studies (52, 53) as well as in human patients at various stages of disease (2, 24), and many investigators have examined the type I IFN response to B. burgdorferi in murine and human cells (19, 20, 43, 53–62). But the exact pathogenic member has remained elusive due to the transient expression of IFN-α/β (63, 64), overlapping interferon-stimulated gene pathways induced by IFN-α/β (65), and differing contexts of B. burgdorferi infection in which IFN-α/β transcripts have been detected.…”

Section: Discussionmentioning

confidence: 89%

Genetic Control of Lyme Arthritis by Borrelia burgdorferi Arthritis–Associated Locus 1 Is Dependent on Localized Differential Production of IFN-β and Requires Upregulation of Myostatin

Paquette

Fisher

et al. 2017

The Journal of Immunology

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Previously, using a forward genetic approach we identified differential expression of type I IFN as a positional candidate for an expression quantitative trait locus (eQTL) underlying B. burgdorferi arthritis-associated locus 1 (Bbaa1). In this study, we show that mAb blockade revealed a unique role for IFN-β in Lyme arthritis development in B6.C3-Bbaa1 mice. Genetic control of IFN-β expression was also identified in bone marrow-derived macrophages stimulated with B. burgdorferi, and was responsible for feed-forward amplification of interferon-stimulated genes. Reciprocal radiation chimeras between B6.C3-Bbaa1 and B6 mice revealed that arthritis is initiated by radiation-sensitive cells, but orchestrated by radiation-resistant components of joint tissue. Advanced congenic lines were developed to reduce the physical size of the Bbaa1 interval, and confirmed the contribution of type I IFN genes to Lyme arthritis. RNA-seq of resident CD45− joint cells from advanced interval specific recombinant congenic lines identified myostatin as uniquely upregulated in association with Bbaa1 arthritis development, and myostatin expression was linked to IFN-β production. Inhibition of myostatin in vivo suppressed Lyme arthritis in the reduced interval Bbaa1 congenic mice, formally implicating myostatin as a novel downstream mediator of joint-specific inflammatory response to B. burgdorferi.

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Contributions of tropodithietic acid and biofilm formation to the probiotic activity of Phaeobacter inhibens

Cited by 242 publications

References 40 publications

Whole Proteome Analyses on Ruminiclostridium cellulolyticum Show a Modulation of the Cellulolysis Machinery in Response to Cellulosic Materials with Subtle Differences in Chemical and Structural Properties

Whole Proteome Analyses on Ruminiclostridium cellulolyticum Show a Modulation of the Cellulolysis Machinery in Response to Cellulosic Materials with Subtle Differences in Chemical and Structural Properties

Amphibian gut microbiota shifts differentially in community structure but converges on habitat-specific predicted functions

Genetic Control of Lyme Arthritis by Borrelia burgdorferi Arthritis–Associated Locus 1 Is Dependent on Localized Differential Production of IFN-β and Requires Upregulation of Myostatin

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