Query: NC_006322:4149500 Bacillus licheniformis ATCC 14580, complete genome Lineage: Bacillus licheniformis; Bacillus; Bacillaceae; Bacillales; Firmicutes; Bacteria General Information: Industrially important bacterium. Under starvation conditions this group of bacteria initiate a pathway that leads to endospore formation, a process that is thoroughly studied and is a model system for prokaryotic development and differentiation. Spores are highly resistant to heat, cold, dessication, radiation, and disinfectants, and enable the organism to persist in otherwise inhospitable environments. Under more inviting conditions the spores germinate to produce vegetative cells. This organism is a soil-dwelling endospore-forming microbe similar to other Bacilli. This bacterium is used extensively in the industrial production of important enzymes such as proteases, penicllinases, and amylases as well as smaller compounds like the antibiotic bacitracin and various organic metabolites. This organism is closely related to Bacillus subtilis on the basis of rRNA typing, and it has been found to occasionally cause illness in humans.
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General Information: A non-ruminal mesophilic cellulolytic bacterium originally isolated from decayed grass compost. This genus comprises about 150 metabolically diverse species of anaerobes that are ubiquitous in virtually all anoxic habitats where organic compounds are present, including soils, aquatic sediments and the intestinal tracts of animals and humans. This shape is attributed to the presence of endospores that develop under conditions unfavorable for vegetative growth and distend single cells terminally or sub-terminally. Spores germinate under conditions favorable for vegetative growth, such as anaerobiosis and presence of organic substrates. It is believed that present day Mollicutes (Eubacteria) have evolved regressively (i.e., by genome reduction) from gram-positive clostridia-like ancestors with a low GC content in DNA. Clostridium cellulolyticum is a mesophilic cellulolytic bacterium. Cellulose-degradation by C. cellulolyticum has been extensively studied. The cellulolytic enzymes of this organism are bound to a protein scaffold in an extracellular multienzyme complex called a cellulosome.