葡萄糖3-脱氢酶的研究进展被引量：2

Advance of research on glucoside 3-dehydrogenase

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摘要葡萄糖3-脱氢酶是一种黄素腺嘌呤二核苷酸(FAD)酶,能氧化葡萄糖上的C-3羟基,将葡萄糖转化为相应的3-酮化合物。叙述了葡萄糖3-脱氢酶的来源、性质、生产及其分离纯化。介绍了葡萄糖3-脱氢酶的基因工程进展,以及该酶在工业、医学诊断上的应用前景。 Glucoside 3-dehydrogenase is a FAD-enzyme, which oxidizes glucosides and galactosides to their corresponding 3-ketoglycosides. Source, properties, production and purification of glucoside 3-dehydrogenase were reviewed. Genetic engineering of G3DH was introduced. The potential application of glucoside 3-dehydrogenase on industry and clinical diagnosis was summarized.

作者张建芬郑裕国沈寅初

机构地区浙江工业大学生物工程研究所

出处《生物加工过程》 CAS CSCD 2005年第3期14-17,共4页 Chinese Journal of Bioprocess Engineering

基金国家自然科学基金项目(NO.20176055) 浙江省自然科学基金重大项目(N0.ZB0106)

关键词葡萄糖3-脱氢酶 3-酮糖井冈霉亚基胺 glucoside 3-dehydrogenase 3-ketosaccharide validoxylamine

分类号 Q814 [生物学—生物工程]

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1[1]Omura H,Sanada H,Yada T,et al.FAD dependent glucose 1-dehydrogenase from Aspergillus terreus BP-08578 and use as glucose sensor[P].PCT:2004058958,2004.
2[2]Jindoich V,Elena K,David A,et al.Pyranose 2-dehydrogenase,a novel sugar oxidoreductase from the basidiomycete fungus Agaricus bisporus[J].Arch Microbiol,1997,167:119-125.
3[3]Hayano K,Fukui S.Purification and properties of 3-ketosucrose-forming enzyme from the cells of Agrobacterium tumefaciens[J].J Biol Chem,1967,242:3 665-3 672.
4[4]Takeuchi M,Ninomiya K,Kawabata K,et al.Purification and properties of glucoside 3-dehydrogenase from Flavobacterium saccharophilum[J].J Biochem,1986,100(4):1 049-1 055.
5[5]Takeuchi M,Asano N,Kameda Y,et al.Purification and properties of soluble D-glucoside 3-dehydrogenase from Flavobacterium saccharophilum[J].Agric Biol Chem,1988,52(8):1 905-1 912.
6[6]Takeuchi M,Asano N,Kameda Y,et al.Physiological role of glucoside 3-dehydrogenase and cytochrome c551 in the sugar oxidizing system of Flavobacterium saccharophilum [J].J Biochem,1988,103(6):938-943.
7[7]Schuerman PL,Liu JS,Mou H,et al. 3-Ketoglycoside-mediated metabolism of sucrose in E.coli as conferred by genes from Agrobacterium tumefaciens [J]. Appl Microbiol Biotechnol,1997,47(5):560-565.
8[8]Naoki A,Masayoshi T,Kotaro N,et al.Microbial degradation of validamycin A by Flavobacterium Saccharophilum enzyme cleavage of C-N linkinge in validoxylamine A[J].J Antibiot,1984,37(8):859-867.
9[9]Wakako T,Nobuhiro O,Koji S.Fluorescent measurement of 1,5-anhydro-D-glucitol based on a novel marine bacterial glucose dehydrogenase[J].Enzyme Microb Technol,1998,22:269-274.
10[10]Wakako T,Shuichi H,Mitsuharu T,et al.Purification of a marine bacterial glucose dehydrogenase from Cytophaga marinoflava and its application for measurement of 1,5-anhydro-D-glucitol[J].Appl Biochem Biotechnol,1996,56:301-310.

同被引文献11

1Hayano K,Fukui S.Purification and properties of 3-ketosucrose-forming enzyme from the cells of Agrobacterium tumefaciens[J].J Biol Chem,1967,242:3665-3672.
2Maeda A,Adachi S,Matsuno R.Improvement of selectivity in 3-ketocellobiose production from cellobiose by Agrobacterium tumefaciens[J].J Biochem,2001,8:217-221.
3Stoppok E,Matalla K,Buchholz K.Microbial modification of sugars as building blocks for chemicals[J].Appl Microbiol Biotechnol,1992,36(5):604-610.
4Anders J,Buczys R,Lampe E,et al.New regioselective derivatives of sucrose with amino acid and acrylic groups[J].Carbohydr Res,2006,341(3):322-331.
5Pietsch M,Walter M,Buchholz K,et al.Regioselective synthesis of new sucrose derivatives via 3-keto sucrose[J].Carbohydr Res,1994,254:183-194.
6Schuerman P L,Liu J S,Mou H,et al.3-Ketoglycoside-mediated metabolism of sucrose in E.coli as conferred by genes from Agrobacterium tumefaciens[J].Appl Microbiol Biotechnol,1997,47(5):560-565.
7Kojima K,Tsugawa W,Hamahuji T,et al.Effect of growth substrates on production of new soluble glucose 3-dehydrogenase in Halomonas (Deleya) sp.A-15[J].Appl Biochem Biotechnol,1999,77-79:827-834.
8Wakako T,Shuichi H,Mitsuharu T,et al.Purification of a marine bacterial glucose dehydrogenase from Cytophaga marinoflava and its application for measurement of 1,5-anhydro-D-glucitol[J].Appl Biochem Biotechnol,1996,56:301-310.
9Morrison S C,Wood D A,Wood P M.Characterization of a glucose 3-dehydrogenase from the cultivated mushroom (Agaricus bisporus)[J].Appl Microbiol Biotechnol,1999,51(1):58-64.
10Zhang J F,Zheng Y G,Xue Y P,et al.Purification and characterization of the glucoside 3-dehydrogenase produced by a newly isolated Stenotrophomonas maltrophilia CCTCC M 204024[J].Appl Microbiol Biotechnol,2006,71:638-645.

引证文献2

1张建芬,沈明杰,曾为锋,季佳,连振静.葡萄糖3-脱氢酶产生菌的筛选和产酶培养[J].生物加工过程,2011,9(1):41-45.
2张建芬,柯薇,陈虹.葡萄糖3-脱氢酶工程菌的构建、表达及其合成3-酮对硝基苯井冈霉胺[J].生物加工过程,2019,17(1):94-98. 被引量：1

二级引证文献1

1刘艳阳,武轲,梅鸿献,杜振伟,崔承齐,江晓林,郑永战.芝麻抗裂蒴基因SiIND1的克隆与原核表达[J].河南农业科学,2020,49(5):63-68. 被引量：1

1许泽南,陶伟峰,戴爱伟,王磊,沈嘉超,李璟,张建芬.葡萄糖3-脱氢酶产生菌的筛选及鉴定[J].浙江树人大学学报（自然科学版）,2014,14(4):15-19.
2张建芬,沈明杰,曾为锋,季佳,连振静.葡萄糖3-脱氢酶产生菌的筛选和产酶培养[J].生物加工过程,2011,9(1):41-45.
3王艳青,陈雪梅,李悦,蒋湘宁,刘群录,李素艳.植物抗逆中的渗透调节物质及其转基因工程进展[J].北京林业大学学报,2001,23(4):66-70. 被引量：29
4张林元,邓小昭.遗传工程进展[J].生化药物杂志,1990(1):1-7.
5钱迎倩,邹吉涛,张士波,王铁邦.植物细胞工程进展[J].生物工程进展,1990,10(1):1-17. 被引量：4
6吴夏英,杨青.色氨酸基因工程进展[J].微生物学通报,1993,20(2):107-109. 被引量：3
7郭明章.生物工程进展[J].生物学教学,1994,19(3):3-5.
8莽克强.基因工程进展[J].中国科学院院刊,1991,6(2):99-106. 被引量：1
9钱凯先,张欣欣.蛋白质工程进展[J].生物技术,1994,4(5):1-3. 被引量：1
10陈玉芹,陈桂平,项慧新.植物耐盐性的信号传导途径及基因工程进展[J].唐山师范学院学报,2003,25(5):50-52.

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葡萄糖3-脱氢酶的研究进展被引量：2

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葡萄糖3-脱氢酶的研究进展 被引量：2

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葡萄糖3-脱氢酶的研究进展被引量：2