Characterization of the xylanases from the new isolated thermophilic xylan‐degrading Bacillus thermoleovorans strain K‐3d and Bacillus flavothermus strain LB3A

Three strictly aerobic strains (K‐1, K‐3d and K‐4) were isolated from a hot‐spring in Kobe, Japan, and a facultative anaerobic strain LB3A was isolated from sediments collected from the alkaline Lake Bogoria, Kenya. All strains were thermophilic and capable of growth on xylan. On the basis of morphological, physiological and phylogenetic studies the new aerobic isolates resemble the thermophilic species Bacillus thermoleovorans while the facultative anaerobic isolate LB3A resembles the facultative anaerobic thermophilic species Bacillus flavothermus . When grown on xylan as sole carbon source, all isolates produce thermoactive xylanases. Xylanases from strains K‐3d and LB3A are active at temperatures between 40 and 90°C and pH values between 5.0 and 9.0. Applying SDS‐PAGE the crude xylanase complex of isolate K‐3d was shown to be composed of two active bands, with molecular masses of 40 and 69 kDa. The crude xylanase complex of isolate LB3A, on the other hand, is composed of at least four activity bands with molecular masses ranging from 80 to 130 kDa. Due to the product pattern of xylan hydrolysis both enzymes are classified as endoxylanases. The xylanolytic enzyme system of isolate K‐3d produces xylotriose, xylotetraose and larger xylooligosacharides, whereas the xylanases from isolate LB3A release xylotetraose as the major product of hydrolysis.