X-ray-induced mutation of Bacillus sp. MR10 for manno-oligosaccharides production from copra meal

S. Chaikaew, Apinun Kanpiengjai, Jenjira Intatep, Kridsada Unban, P. Wongputtisin, Goro Takata, C. Khanongnuch
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引用次数: 5

Abstract

ABSTRACT The present study demonstrates the effectiveness of X-ray radiation in strain improvement for defective lipase production by Bacillus sp. MR10 for further application in the fermentative production of manno-oligosaccharides (MOS) from agricultural by-product, defatted copra meal (DCM). The mutants obtained were screened based on their defective lipase activity together with their β-mannanase production performance. Among 10 selected mutants, the strain M7 was the highest promising mutant regarding the smallest lipase activity (0.05 U/ml) and the retained β-mannanase activity similar to the parental strain (22 U/ml) were detected. The mutant M7 effectively hydrolyzed DCM to MOS with low-degree of polymerization (DP) oligomers including mannotriose (M3), mannotetraose (M4), and mannopentose (M5) as the main products. Although the pattern of DCM hydrolysis products of mutant M7 was distinctly different from wild type, the biochemical and catalytic properties of purified β-mannanase of mutant were similar to those of wild type. Both purified β-mannanases with apparent molecular mass of 38 kDa displayed optimal activity at pH 5–7 and 45–55°C. Co2+ and Hg2+ nearly completely inhibited activities of both enzymes, whereas Ba2+, Fe3+, and 2-mercaptoethanol obviously activated enzyme activities. Both enzymes showed high specificity for locust bean gum, konjac mannan, DCM, and guar gum. Thus, the mutant M7 has a potential for commercial production of high-quality MOS from low-cost DCM for further application in the feed industry.
x射线诱导芽孢杆菌MR10突变从椰粕中生产甘露寡糖
摘要:本研究验证了x射线辐射对芽孢杆菌MR10生产缺陷脂肪酶的菌株改良效果,为进一步应用于农业副产品脱脂椰粕(DCM)发酵生产甘露寡糖(MOS)奠定了基础。所获得的突变体根据其缺陷脂肪酶活性和β-甘露聚糖酶生产性能进行筛选。在10个选择的突变体中,M7是最有希望的突变体,其脂肪酶活性最小(0.05 U/ml),其β-甘露聚糖酶活性与亲本相似(22 U/ml)。突变体M7有效地将DCM水解为MOS,主要产物为甘露糖(M3)、甘露糖(M4)和甘露戊糖(M5)等低聚合度低聚物。突变体M7的DCM水解产物形态与野生型明显不同,但纯化后的β-甘露聚糖酶的生化和催化性能与野生型相似。两种纯化的β-甘露聚糖酶在pH 5-7和45-55℃条件下均表现出最佳活性,表观分子质量均为38 kDa。Co2+和Hg2+几乎完全抑制了这两种酶的活性,而Ba2+、Fe3+和2-巯基乙醇明显激活了酶的活性。这两种酶对刺槐豆胶、魔芋甘露聚糖、DCM和瓜尔胶均有较高的特异性。因此,突变体M7具有从低成本DCM中商业化生产高质量MOS的潜力,可进一步应用于饲料工业。
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