Membrane Vesicles Can Contribute to Cellulose Degradation by Teredinibacter turnerae, a Cultivable Intracellular Endosymbiont of Shipworms.

Teredinibacter turnerae is a cultivable cellulolytic Gammaproteobacterium (Cellvibrionaceae) that commonly occurs as an intracellular endosymbiont in the gills of wood-eating bivalves of the family Teredinidae (shipworms). The genome of T. turnerae encodes a broad range of enzymes that deconstruct cellulose, hemicellulose and pectin and contribute to wood (lignocellulose) digestion in the shipworm gut.

Membrane vesicles can contribute to cellulose degradation by , a cultivable intracellular endosymbiont of shipworms.

is a cultivable cellulolytic Gammaproteobacterium (Cellvibrionaceae) that commonly occurs as an intracellular endosymbiont in the gills of wood-eating bivalves of the family Teredinidae (shipworms). The genome of encodes a broad range of enzymes that deconstruct cellulose, hemicellulose, and pectin and contribute to wood (lignocellulose) digestion in the shipworm gut. However, the mechanisms by which secretes lignocellulolytic enzymes are incompletely understood.

Screening microbiota for effects on host tissues.

The assembly and function of microbial communities depends on many factors including the local environment and the metabolic properties of the colonizing organisms. Chemical communications or other secreted factors also play a role and are used by different microbial strains both cooperatively and competitively. The spectrum of microbial secretions have various effects on the microbe's respective hosts, both positive and negative.

Routine Decontamination of Working Canines: A Study on the Removal of Superficial Gross Contamination.

Odor detection canines are a valuable resource used by multiple agencies for the sensitive detection of explosives, narcotics, firearms, agricultural products, and even human bodies. These canines and their handlers are frequently deployed to pathogen-contaminated environments or to work in close proximity with potentially sick individuals. Appropriate decontamination protocols must be established to mitigate both canine and handler exposure in these scenarios.

Isolation and characterization of diverse microbial representatives from the human skin microbiome.

Background: The skin micro-environment varies across the body, but all sites are host to microorganisms that can impact skin health. Some of these organisms are true commensals which colonize a unique niche on the skin, while open exposure of the skin to the environment also results in the transient presence of diverse microbes with unknown influences on skin health. Culture-based studies of skin microbiota suggest that skin microbes can affect skin properties, immune responses, pathogen growth, and wound healing.