Butyrivibrio
Butyrivibrio is a genus of bacteria in Class Clostridia. Bacteria of this genus are common in the gastrointestinal systems of many animals. Genus Butyrivibrio was first described by Bryant and Small as anaerobic, butyric acid-producing, curved rods. Butyrivibrio cells are small, typically 0.4 – 0.6 μm by 2 – 5 μm. They are motile, using a single polar or subpolar monotrichous flagellum. They are commonly found singly or in short chains but it is not unusual for them to form long chains. Despite historically being described as Gram-negative, their cell walls contain derivatives of teichoic acid, and electron microscopy indicates that bacteria of this genus have a Gram-positive cell wall type. It is thought that they appear Gram-negative when Gram stained because their cell walls thin to 12 to 18 nm as they reach stationary phase.
Butyrivibrio species are common in the rumens of ruminant animals such as cows, deer and sheep, where they are involved in a number of ruminal functions of agricultural importance in addition to butyrate production. These include fibre degradation, protein breakdown, biohydrogenation of lipids and the production of microbial inhibitors. Of particular importance to ruminant digestion, and therefore productivity, is their contribution to the degradation of plant structural carbohydrates, principally hemicellulose.
Metabolism
Butyrivibrio species are metabolically versatile and are able to ferment a wide range of sugars and cellodextrins. Some strains have been reported to break down cellulose, although their ability to sustain growth on cellulose appears to be lost during in vitro culturing. Most isolates are amylolytic and are able to degrade xylan by producing xylanolytic and esterase enzymes. The induction of xylanase enzymes varies between strains; in group D1 strains xylanase expression appears to be constitutively expressed, while groups B1 and C are induced only by growth on xylan, and those of group B2 are induced by growth on xylan or arabinose.A number of genes encoding glycoside hydrolases have been identified in Butyrivibrio species including endocellulase ; β-Glucosidase ; endoxylanase ; β-Xylosidase ; and α-Amylase enzymes. Several carbohydrate binding modules have also been identified that are predicted to bind glycogen ; xylan or chitin ; and starch.