Campoy Susana, Mazón Gerard, Fernández de Henestrosa Antonio R, Llagostera Montserrat, Monteiro Patricia Brant, Barbé Jordi
Department of Genetics and Microbiology, Universitat Autònoma de Barcelona, Bellaterra, 08193 Barcelona, Spain1.
Centre de Recerca en Sanitat Animal (CReSA), Universitat Autònoma de Barcelona-Institut de Recerca i Tecnologia Agroalimentària (UAB-IRTA), Bellaterra, 08193 Barcelona, Spain3.
Microbiology (Reading). 2002 Nov;148(Pt 11):3583-3597. doi: 10.1099/00221287-148-11-3583.
Escherichia coli LexA protein is the repressor of a gene network whose members are directly involved in the repair of damaged DNA and in the survival of bacterial cells until DNA lesions have been eliminated. The lexA gene is widely present in bacteria, although the sequences of only three LexA-binding sites are known: Gram-positive, alpha Proteobacteria and some members of gamma Proteobacteria represented by E. coli. Taking advantage of the fact that the genome sequence of the plant-pathogenic bacterium Xylella fastidiosa has been determined, its lexA gene has been cloned and overexpressed in E. coli to purify its product. After demonstration that X. fastidiosa lexA and recA genes are co-transcribed, gel mobility shift assays and directed mutagenesis experiments using the promoter of the lexA-recA transcriptional unit demonstrated that the X. fastidiosa LexA protein specifically binds the imperfect palindrome TTAGN(6)TACTA. This is the first LexA binding sequence identified in the gamma Proteobacteria differing from the E. coli-like LexA box. Although a computational search has revealed the presence of TTAGN(6)TACTA-like motifs upstream of X. fastidiosa genes other than lexA, X. fastidiosa LexA only binds the promoter of one of them, XF2313, encoding a putative DNA-modification methylase. Moreover, X. fastidiosa LexA protein does not bind any of the other genes whose homologues are regulated by the LexA repressor in E. coli (uvrA, uvrB, ssb, ruvAB, ftsK, dinG, recN and ybfE). RT-PCR quantitative analysis has also demonstrated that lexA-recA and XF2313 genes, as well as the X. fastidiosa genes which are homologues to those of E. coli belonging to the LexA regulon, with the exception of ssb, are DNA damage-inducible in X. fastidiosa.
大肠杆菌LexA蛋白是一个基因网络的阻遏物,该基因网络的成员直接参与受损DNA的修复以及细菌细胞在DNA损伤消除之前的存活。lexA基因广泛存在于细菌中,尽管目前仅知晓三个LexA结合位点的序列:革兰氏阳性菌、α-变形菌以及以大肠杆菌为代表的γ-变形菌中的一些成员。利用植物致病细菌木质部难养菌的基因组序列已被测定这一事实,其lexA基因已被克隆并在大肠杆菌中过表达以纯化其产物。在证明木质部难养菌lexA和recA基因是共转录之后,利用lexA-recA转录单元的启动子进行凝胶迁移率变动分析和定向诱变实验表明,木质部难养菌LexA蛋白特异性结合不完全回文序列TTAGN(6)TACTA。这是在γ-变形菌中鉴定出的首个不同于大肠杆菌样LexA框的LexA结合序列。尽管通过计算搜索发现在lexA之外的木质部难养菌基因上游存在TTAGN(6)TACTA样基序,但木质部难养菌LexA仅结合其中一个基因XF2313的启动子,该基因编码一种假定的DNA修饰甲基化酶。此外,木质部难养菌LexA蛋白不结合大肠杆菌中受LexA阻遏物调控的任何其他基因的同源基因(uvrA、uvrB、ssb、ruvAB、ftsK、dinG、recN和ybfE)。RT-PCR定量分析还表明,lexA-recA和XF2313基因,以及木质部难养菌中与大肠杆菌属于LexA调控子的那些基因同源的基因(除ssb外),在木质部难养菌中是DNA损伤诱导型的。
