탄소원으로 palm kernel meal(PKM)과 밀기울을 함유한 배지에서 농후배양하여 작물 재배 토양으로부터 xylan과 locust bean gum(LBG)에 대한 분해활성이 있는 균을 분리하였다. 분리균 YB-1107의 16S rDNA 서열이 Cellulosimicrobium속 균주와 유사도가 높은 균주로 판명되었다. 분리균의 mannanase는 LBG와 PKM에 의해 생산성이 증가된 반면에 xylanase는 oat spelt xylan과 밀기울에 의해 생산성이 증가되었다. Mannanase는 0.7% PKM을 첨가한 배지, xylanase는 1% 밀기울을 첨가한 배지에서 각각 최대 생산성을 보였으며 모두 정지기에서 생산이 되었다. 분리균의 배양상등액은 55℃와 pH 6.5에서 mannanase의 최대활성을 보였으며, 65℃와 pH 5.5에서 xylanase의 최적반응 활성을 나타냈다. Mannanase에 의해 분해된 LBG와 xylanase에 의해 분해된 xylan으로부터 각각 올리고당이 관찰되었으며, 또한 이들 효소는 밀기울과 미강도 분해하여 올리고당으로 전환하는 것으로 확인되었다.
A bacterial strain capable of hydrolyzing xylan and locust bean gum (LBG) was isolated from farm soil through an enrichment culture using a mixture of palm kernel meal (PKM) and wheat bran as the carbon source. Nucleotide sequencing of 16S rDNA, amplified from the isolate YB-1107, showed a high similarity with those of genus Cellulosimicrobium strains. Xylanase productivity was increased when Cellulosimicrobium sp. YB-1107 was grown in the presence of wheat bran or oat spelt xylan, while mannanase productivity was increased drastically when grown in the presence of PKM or LBG. Particularly, maximum mannanase and xylanase activities were obtained in a culture filtrate of media containing 0.7% PKM or 1% wheat bran, respectively. Both enzyme activities were produced at the stationary growth phase. Mannanase from the culture filtrate showed the highest activity at 55℃ and a pH of 6.5. Xylanase activity was optimal at 65℃ and a pH of 5.5. The predominant products resulting from mannanase or xylanase hydrolysis were oligosaccharides for LBG or xylan, respectively. In addition, the enzymes could hydrolyze wheat bran and rice bran into oligosaccharides.