Horn J M, Ohman D E
Department of Microbiology and Immunology, University of California, Berkeley 94720.
J Bacteriol. 1988 Apr;170(4):1637-50. doi: 10.1128/jb.170.4.1637-1650.1988.
Recombinant plasmids containing the recA gene from Pseudomonas aeruginosa were used in complementation, transcriptional, and translational studies to examine the nature of rec-102 and rec-2, mutations which confer a recA-like mutant phenotype on P. aeruginosa PAO strains. For comparison, recA7::Tn501 mutants of strain PAO were constructed by gene replacement. The rec-2 and rec-102 alleles were shown to be recA alleles; plasmids containing the recA gene complemented the three rec mutant strains for defects associated with recA mutation. Northern blot analyses indicated that the recA gene in P. aeruginosa was transcribed as two distinct mRNAs of approximately 1.2 and 1.4 kilobases (kb). A plasmid encoding both transcripts of recA complemented all defects associated with the three recA mutations rec-2, rec-102, and recA7. However, a 2.4-kb subclone (pJH13) encoding only the smaller transcript of the recA gene was expressed differently in the three recA allele backgrounds and served as a tool to distinguish the nature of the rec-2 and rec-102 mutations in recA. A minicell analysis showed that a plasmid expressing both of the recA gene transcripts or one that expressed only the smaller transcript both produced the same 42-kilodalton recA protein. A chloramphenicol acetyltransferase gene fusion in the 3' end of the recA transcript showed that the recA gene of P. aeruginosa was induced following treatment with a DNA-damaging agent (methyl methanesulfonate). The recA7 mutant constructed here showed no recA-related transcript or protein under inducing conditions, and pJH13 in this host produced only low levels of the smaller recA transcript and low levels of recA protein. The rec-2 mutant produced a detectable transcript but no recA protein following induction. The presence of low levels of activated recA protein encoded by pJH13 in the rec-2 mutant resulted in wild-type transcriptional levels of chromosomally encoded recA, but no recA protein was detectable. Thus, the rec-2 allele of recA was normal with respect to induction of mRNA, but these transcripts were defective in either translation or synthesis of a stable protein. The rec-102 mutant also produced a detectable transcript and no recA protein following induction, but having pJH13 in the cell to produce low levels of activated recA protein resulted in overproduction of chromosomally encoded recA transcripts and active recA protein. Thus, the recA defect in the rec-102 mutant is apparently in the interaction between recA and a lexA-like repressor.
含有铜绿假单胞菌recA基因的重组质粒被用于互补、转录和翻译研究,以探究rec - 102和rec - 2突变的本质,这些突变赋予铜绿假单胞菌PAO菌株recA样突变表型。为作比较,通过基因置换构建了PAO菌株的recA7::Tn501突变体。结果表明,rec - 2和rec - 102等位基因是recA等位基因;含有recA基因的质粒弥补了三种rec突变菌株与recA突变相关的缺陷。Northern印迹分析表明,铜绿假单胞菌中的recA基因转录为两种不同的mRNA,大小约为1.2和1.4千碱基(kb)。编码recA两种转录本的质粒弥补了与recA的三种突变rec - 2、rec - 102和recA7相关的所有缺陷。然而,一个仅编码recA基因较小转录本的2.4 - kb亚克隆(pJH13)在三种recA等位基因背景下表达不同,可作为区分recA中rec - 2和rec - 102突变本质的工具。小细胞分析表明,表达recA基因两种转录本的质粒或仅表达较小转录本的质粒都产生相同的42千道尔顿recA蛋白。recA转录本3'端的氯霉素乙酰转移酶基因融合表明,铜绿假单胞菌的recA基因在用DNA损伤剂(甲基磺酸甲酯)处理后被诱导。此处构建的recA7突变体在诱导条件下未显示与recA相关的转录本或蛋白,该宿主中的pJH13仅产生低水平的较小recA转录本和低水平的recA蛋白。rec - 2突变体在诱导后产生可检测到的转录本,但未产生recA蛋白。rec - 2突变体中由pJH13编码的低水平活化recA蛋白导致染色体编码的recA转录水平为野生型,但未检测到recA蛋白。因此,recA的rec - 2等位基因在mRNA诱导方面正常,但这些转录本在翻译或稳定蛋白合成方面存在缺陷。rec - 102突变体在诱导后也产生可检测到的转录本且未产生recA蛋白,但细胞中含有pJH13以产生低水平的活化recA蛋白会导致染色体编码的recA转录本和活性recA蛋白过量产生。因此,rec - 102突变体中的recA缺陷显然在于recA与类lexA阻遏物之间的相互作用。
