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中国博士后科学基金(2005038461)

作品数:2 被引量:5H指数:1
相关作者:李永君蔡宝立陈威赵化冰更多>>
相关机构:南开大学更多>>
发文基金:中国博士后科学基金国家自然科学基金更多>>
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恶臭假单胞菌ND6菌株中与萘降解相关的新型水杨醛脱氢酶NahV被引量:1
2007年
在大肠杆菌中表达了Pseudomonas putida ND6菌株中与萘降解有关的水杨醛脱氢酶同工酶NahV,并对其酶学性质进行了研究.结果表明,NahV与ND6菌株中经典的水杨醛脱氢酶NahF的氨基酸序列同源性较低,是一种新的水杨醛脱氢酶.对NahV和NahF的酶动力学研究结果表明,NahF具有更高的催化效率,而NahV对水杨醛和NAD+的亲和力更强.ND6菌株的NahV和NahF都有较宽的底物范围,可以催化水杨醛、5-氯水杨醛、甲醛、间硝基苯甲醛、邻硝基苯甲醛、邻甲氧基苯甲醛、戊二醛、辛醛和乙二醛的脱氢反应,但对不同底物的催化效率不同.Fe2+,Cu2+和Zn2+对NahV有激活作用,而NahF只能被Fe2+激活.NahF具有更好的热稳定性,在50℃保温30min仍有72.8%的酶活力,而NahV则丧失了88.8%的酶活力.DNA斑点杂交结果表明,类nahF基因在本研究检测的两种来源的萘降解细菌中都存在,而类nahV基因只存在于一种来源的萘降解细菌中.
赵化冰李永君陈威蔡宝立
关键词:PSEUDOMONASPUTIDADNA杂交
A novel salicylaldehyde dehydrogenase-NahV involved in catabolism of naphthalene from Pseudomonas putida ND6被引量:4
2007年
A novel salicylaldehyde dehydrogenase involved in catabolism of naphthalene from Pseudomonas putida ND6, NahV, has been identified. NahV exhibited lower identity in amino acid sequence with the classic salicylaldehyde dehydrogenase, NahF, from P. putida ND6. This is the first report of an isofunctional enzyme of bacterial salicylaldehyde dehydrogenase. Comparison of Km and Vmax values of NahV and NahF demonstrated that NahF has a more efficient catalytic reaction than NahV, while NahV has much higher affinity for salicylaldehyde and NAD+. Both enzymes exhibited broad substrate speci- ficities and catalyzed the oxidation of salicylaldehyde, 5-chlorosalicylaldehyde, formaldehyde, m-nitrobenzaldehyde, o-nitrobenzaldehyde, o-methoxybenxaldehyde, glutaraldehyde, caprylic aldehyde, and glyoxal. However, the relative rates at which the substituted analogs are transformed differ considerably. NahV activity could be enhanced by Fe2+, Cu2+ and Zn2+; whereas NahF activity could only be stimulated by Fe2+. NahF is more stable than NahV at elevated temperatures. Dot-blot hybridization analyses showed that nahF-like genes occurred in all naphthalene-degradation bacteria isolated in this study, whereas nahV-like genes were present in only some naphthalene-degrading bacteria.
ZHAO HuaBingLI YongJunCHEN WeiCAI BaoLi
关键词:水杨醛异化作用分解代谢
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