Mutational analysis of the Myxococcus xanthus Omicron4499 promoter region reveals shared and unique properties in comparison with other C-signal-dependent promoters

The bacterium Myxococcus xanthus undergoes multicellular development during times of nutritional stress and uses extracellular signals to coordinate cell behavior. C-signal affects gene expression late in development, including that of Omega4499, an operon identified by insertion of Tn5 lac into the M. xanthus chromosome. The Omega4499 promoter region has several sequences in common with those found previously to be important for expression of other C-signal-dependent promoters. To determine if these sequences are important for Omega4499 promoter activity, the effects of mutations on expression of a downstream reporter gene were tested in M. xanthus. Although the promoter resembles those recognized by Escherichia coli sigma(54), mutational analysis implied that a sigma(70)-type sigma factor likely recognizes the promoter. A 7-bp sequence known as a C box and a 5-bp element located 6 bp upstream of the C box have been shown to be important for expression of other C-signal-dependent promoters. The Omega4499 promoter region has C boxes centered at -33 and -55 bp, with 5-bp elements located 7 and 8 bp upstream, respectively. A multiple-base-pair mutation in any of these sequences reduced Omega4499 promoter activity more than twofold. Single base-pair mutations in the C box centered at -33 bp yielded a different pattern of effects on expression than similar mutations in other C boxes, indicating that each functions somewhat differently. An element from about -81 to -77 bp exerted a twofold positive effect on expression but did not appear to be responsible for the C-signal dependence of the Omega4499 promoter. Mutations in sigD and sigE, which are genes that encode sigma factors, reduced expression from the Omega4499 promoter. The results provide further insight into the regulation of C-signal-dependent genes, demonstrating both shared and unique properties among the promoter regions so far examined.     

Mutational analysis of the Myxococcus xanthus Omega4400 promoter region provides insight into developmental gene regulation by C signaling

Myxococcus xanthus utilizes extracellular signals during development to coordinate cell movement, differentiation, and changes in gene expression. One of these signals, the C signal, regulates the expression of many genes, including Omega4400, a gene identified by an insertion of Tn5 lac into the chromosome. Expression of Tn5 lac Omega4400 is reduced in csgA mutant cells, which fail to perform C signaling, and the promoter region has several sequences similar to sequences found in the regulatory regions of other C-signal-dependent genes. One such gene, Omega4403, depends absolutely on the C signal for expression, and its promoter region has been characterized previously by mutational analysis. To determine if the similar sequences within the Omega4400 and Omega4403 regulatory regions function in the same way, deletion analysis and site-directed mutagenesis of the Omega4400 promoter region were performed. A 7-bp sequence centered at -49 bp, termed a C box, is identical in the Omega4400 and Omega4403 promoter regions, yet mutations in the individual base pairs affected expression from the two promoters very differently. Also, a single-base-pair change within a similar 5-bp element, which is centered at -61 bp in both promoter regions, had very different effects on the activities of the two promoters. Further mutational analysis showed that two regions are important for Omega4400 expression; one region, from -63 to -31 bp, is required for Omega4400 expression, and the other, from -86 to -81 bp, exerts a two- to fourfold effect on expression and is at least partially responsible for the C signal dependence of the Omega4400 promoter. Mutations in sigD and sigE, which are genes that encode sigma factors, abolished and reduced Omega4400 expression, respectively. Expression of Omega4400 in actB or actC mutants correlated well with the altered levels of C signal produced in these mutants. Our results provide the first detailed analysis of an M. xanthus regulatory region that depends partially on C signaling for expression and indicate that similar DNA sequences in the Omega4400 and Omega4403 promoter regions function differently.     

黄色黏细菌转录因子FruA对自身基因的表达不具自调节作用

 粘细菌是研究多细胞结构形态发生机制的良好模型.FruA是粘细菌发育所必需的一种 关键性转录因子, 调节一系列发育相关基因的表达,本文研究FruA对自身基因是否存在反馈调节从而导致发育后期fruA表达水平的下调.以野生型粘细菌模式菌株DK1622为基础构建fruA基因敲除突变株DK1622ΔfruA,再将fruA-lacZ转录融合载体pMF1A整合入fruA突变株染色体attB, 获得重组菌株DK1622ΔfruA/pMF1A,通过检测β-半乳糖苷酶活性来确认FruA对自身基因的表达水平是否有影响. 结果表明fruA调控序列完整的fruA-lacZ转录融合体β-半乳糖苷酶活性在DK1622/pMF1A和DK1622ΔfruA/pMF1A之间无明显差异, 即fruA表达产物作为一种转录因子对自身基因的转录没有调节作用,黏细菌发育后期fruA表达水平的下降存在其它调节机制.     

Analysis of dofA,a fruA-dependent developmental gene,and its homologue,dofB, in Myxococcus xanthus

The developmentally regulated gene dofA, identified from pulse-labeling experiments by two-dimensional gel electrophoresis, and its homologue, dofB, were cloned and characterized in Myxococcus xanthus. Deletion of dofA and dofB did not affect the vegetative growth and development of M. xanthus. dofA was specifically expressed during development, while dofB expression was observed during vegetative growth and development. The dofA-lacZ fusion was introduced into a fruA mutant and A, B, C, D, and E extracellular signal mutants. The pattern of dofA expression in the C signal mutant was similar to that of the wild-type strain, while dofA expression was not detected in the fruA mutant. These results are consistent with those of the pulse-labeling experiments. dofA expression was reduced in A and E signal mutants, whereas dofA expression was delayed in B and D signal mutants. The patterns of expression of the dofA gene in the fruA mutant and the five signal mutants are strikingly similar to that of the tps gene, which encodes protein S, a major component of the outer surface of the myxospore; this result suggests that the dofA and tps genes are similarly regulated. The involvement of a highly GC-rich inverted repeat sequence (underlined), CGGCCCCCGATTCGTCGGGGGCCG, in developmentally regulated dofA expression is suggested.     

Regulation of dev, an operon that includes genes essential for Myxococcus xanthus development and CRISPR-associated genes and repeats

Expression of dev genes is important for triggering spore differentiation inside Myxococcus xanthus fruiting bodies. DNA sequence analysis suggested that dev and cas (CRISPR-associated) genes are cotranscribed at the dev locus, which is adjacent to CRISPR (clustered regularly interspaced short palindromic repeats). Analysis of RNA from developing M. xanthus confirmed that dev and cas genes are cotranscribed with a short upstream gene and at least two repeats of the downstream CRISPR, forming the dev operon. The operon is subject to strong, negative autoregulation during development by DevS. The dev promoter was identified. Its -35 and -10 regions resemble those recognized by M. xanthus sigma(A) RNA polymerase, the homolog of Escherichia coli sigma(70), but the spacer may be too long (20 bp); there is very little expression during growth. Induction during development relies on at least two positive regulatory elements located in the coding region of the next gene upstream. At least two positive regulatory elements and one negative element lie downstream of the dev promoter, such that the region controlling dev expression spans more than 1 kb. The results of testing different fragments for dev promoter activity in wild-type and devS mutant backgrounds strongly suggest that upstream and downstream regulatory elements interact functionally. Strikingly, the 37-bp sequence between the two CRISPR repeats that, minimally, are cotranscribed with dev and cas genes exactly matches a sequence in the bacteriophage Mx8 intP gene, which encodes a form of the integrase needed for lysogenization of M. xanthus.