野油菜黄单胞菌菜豆致病变种中烷基过氧化氢还原酶C基因(ahpC)以及过氧化物调节操纵子ahpF-oxyR-orfX的转录组织特征分析与独特表达模式解析
Characterization of transcription organization and analysis of unique expression patterns of an alkyl hydroperoxide reductase C gene (ahpC) and the peroxide regulator operon ahpF-oxyR-orfX from Xanthomonas campestris pv. phaseoli.
作者信息
Mongkolsuk S, Loprasert S, Whangsuk W, Fuangthong M, Atichartpongkun S
机构信息
Laboratory of Biotechnology, Chulabhorn Research Institute, Bangkok, Thailand.
出版信息
J Bacteriol. 1997 Jun;179(12):3950-5. doi: 10.1128/jb.179.12.3950-3955.1997.
Abstract
We have analyzed the transcription organization of ahpC, ahpF, oxyR, and orfX from Xanthomonas campestris pv. phaseoli. ahpC was transcribed as a monocistronic 0.6-kb mRNA, while ahpF-oxyR-orfX were transcribed as a polycistronic approximately 3.0-kb-long mRNA. The novel transcription organization of these genes has not observed in other bacteria. Western analysis showed that oxidants (peroxides and superoxide anions), a thiol reagent (N-ethylmaleimide), and CdCl2 caused large increases in the steady-state level of AhpC. Growth at alkaline pH also moderately induced AhpC accumulation. Thermal and osmotic stresses did not alter the levels of AhpC. Northern blotting results confirmed that oxidant- and CdCl2-induced AhpC accumulation was due to increased levels of ahpC transcripts. Analysis of oxyR expression revealed a unique pattern. Unlike other bacterial systems, peroxides and a superoxide generator induced accumulation of OxyR. Northern blotting results confirmed that these oxidants induced expression of oxyR operon. This novel regulatory pattern could be generally important. The transcription organization and patterns of chemicals and stress induction of ahpC and oxyR differed from those of other bacteria and are likely to be important for X. campestris pv. phaseoli survival during exposure to oxidants.
摘要
我们分析了野油菜黄单胞菌菜豆致病变种中ahpC、ahpF、oxyR和orfX的转录组织。ahpC转录为一条0.6 kb的单顺反子mRNA,而ahpF - oxyR - orfX转录为一条约3.0 kb长的多顺反子mRNA。这些基因的新型转录组织在其他细菌中尚未观察到。蛋白质免疫印迹分析表明,氧化剂(过氧化物和超氧阴离子)、一种硫醇试剂(N - 乙基马来酰亚胺)和CdCl₂导致AhpC的稳态水平大幅增加。在碱性pH条件下生长也适度诱导AhpC积累。热应激和渗透应激并未改变AhpC的水平。Northern印迹结果证实,氧化剂和CdCl₂诱导的AhpC积累是由于ahpC转录本水平增加。对oxyR表达的分析揭示了一种独特的模式。与其他细菌系统不同,过氧化物和一种超氧产生剂诱导OxyR积累。Northern印迹结果证实这些氧化剂诱导oxyR操纵子的表达。这种新型调控模式可能普遍重要。ahpC和oxyR的转录组织以及化学物质和应激诱导模式与其他细菌不同,并且可能对野油菜黄单胞菌菜豆致病变种在接触氧化剂期间的存活很重要。
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