New microbial mannan catabolic pathway that involves a novel mannosylglucose phosphorylase.

Senoura T; Taguchi H; Higa M; Hamada S; Matsui H; Ozawa T; Jin S; Watanabe J; Wasaki J; Ito S

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New microbial mannan catabolic pathway that involves a novel mannosylglucose phosphorylase.

机译：涉及一种新型甘露糖基葡萄糖磷酸化酶的新微生物甘露聚糖分解代谢途径。

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The consecutive genes BF0771-BF0774 in the genome of Bacteroides fragilis NCTC 9343 were found to constitute an operon. The functional analysis of BF0772 showed that the gene encoded a novel enzyme, mannosylglucose phosphorylase that catalyzes the reaction, 4-O-beta-d-mannopyranosyl-d-glucose+Pi-->mannose-1-phosphate+glucose. Here we propose a new mannan catabolic pathway in the anaerobe, which involves 1,4-beta-mannanase (BF0771), a mannobiose and/or sugar transporter (BF0773), mannobiose 2-epimerase (BF0774), and mannosylglucose phosphorylase (BF0772), finally progressing to glycolysis. This pathway is distributed in microbes such as Bacteroides, Parabacteroides, Flavobacterium, and Cellvibrio.

机译：发现脆弱拟杆菌（Bacteroides fragilis）NCTC 9343基因组中的连续基因BF0771-BF0774构成操纵子。 BF0772的功能分析表明，该基因编码一种新型酶，甘露糖基葡萄糖磷酸化酶，该酶催化反应，即4-O-β-d-甘露吡喃糖基-d-葡萄糖+ Pi->甘露糖-1-磷酸+葡萄糖。在这里，我们提出了一种在厌氧菌中的新的甘露聚糖分解代谢途径，该途径涉及1,4-β-甘露聚糖酶（BF0771），甘露二糖和/或糖转运蛋白（BF0773），甘露二糖2-表异构酶（BF0774）和甘露糖葡萄糖磷酸化酶（BF0772），最终发展为糖酵解。该途径分布在微生物中，如拟杆菌，副细菌，黄杆菌和细胞弧菌。

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《Biochemical and Biophysical Research Communications》 |2011年第4期|共6页
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Senoura T; Taguchi H; Higa M; Hamada S; Matsui H; Ozawa T; Jin S; Watanabe J; Wasaki J; Ito S;
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机译：涉及一种新型甘露糖基葡萄糖磷酸化酶的新微生物甘露聚糖分解代谢途径。
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New microbial mannan catabolic pathway that involves a novel mannosylglucose phosphorylase.

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