Genome size of Myxococcus xanthus determined by pulsed-field gel electrophoresis.

Genomic DNA of the myxobacterium Myxococcus xanthus was digested with the rare cutting restriction endonuclease AseI or SpeI, and the restriction products were separated by pulsed-field gel electrophoresis. Transposons Tn5-132 and Tn5 lac, which contain AseI restriction sites, were used to determine the number of restriction fragments in each band. The size of the genome was determined by adding the molecular sizes of the restriction products. The genomes of strains DK101, MD2, and DZF1 have identical restriction patterns and were estimated to be 9,454 +/- 101 kilobase pairs from the AseI digestions and 9,453 +/- 106 kilobase pairs from the SpeI digestions. DK1622, which was derived from DK101 by treatment with UV light, has suffered a 220- to 222-kilobase-pair deletion that removed an AseI and an SpeI restriction site. The deleted DNA may consist exclusively of Mx alpha-associated sequences.     

Discovery of the autonomously replicating plasmid pMF1 from Myxococcus fulvus and development of a gene cloning system in Myxococcus xanthus

Myxobacteria are very important due to their unique characteristics, such as multicellular social behavior and the production of diverse and novel bioactive secondary metabolites. However, the lack of autonomously replicating plasmids has hindered genetic manipulation of myxobacteria for decades. To determine whether indigenous plasmids are present, we screened about 150 myxobacterial strains, and a circular plasmid designated pMF1 was isolated from Myxococcus fulvus 124B02. Sequence analysis showed that this plasmid was 18,634 bp long and had a G+C content of 68.7%. Twenty-three open reading frames were found in the plasmid, and 14 of them were not homologous to any known sequence. Plasmids containing the gene designated pMF1.14, which encodes a large unknown protein, were shown to transform Myxococcus xanthus DZ1 and DK1622 at high frequencies ( approximately 10(5) CFU/microg DNA), suggesting that the locus is responsible for the autonomous replication of pMF1. Shuttle vectors were constructed for both M. xanthus and Escherichia coli. The pilA gene, which is essential for pilus formation and social motility in M. xanthus, was cloned into the shuttle vectors and introduced into the pilA-deficient mutant DK10410. The transformants subsequently exhibited the ability to form pili and social motility. Autonomously replicating plasmid pMF1 provides a new tool for genetic manipulation in Myxococcus.     

粘球菌基因功能和表达情况分析质粒pZCY11的构建及其应用

【目的】旨在构建一个用于粘球菌基因插入失活、同时可通过报告基因分析插入位点基因表达情况的质粒载体,并应用该质粒对黄色粘球菌MXAN1334基因功能和表达情况进行分析。【方法】通过PCR、酶切和连接等方法构建质粒载体pZCY11。从黄色粘球菌DK1622基因组上PCR扩增MXAN1334基因内部部分片段,插入载体pZCY11上lacZ基因的上游,构建重组质粒pZCY13,将其转入DK1622菌株,获得MXAN1334基因插入失活突变株ZC16-18。【结果】基因功能和表达情况分析质粒载体pZCY11含有抗性标记基因aph、自杀性质粒复制子OriR6K和无启动子的报告基因lacZ。突变株ZC16-18在CTT软硬琼脂平板上菌落扩展结果显示,MXAN1334基因插入失活会造成黄色粘球菌S运动能力缺陷。通过X-gal检测突变株ZC16-18中β-半乳糖苷酶酶活,实验结果显示,含有X-gal的平板上培养的ZC16-18菌落呈现蓝色,表明MXAN1334基因能够表达;颜色呈现的时间分析结果显示,MXAN1334基因表达时间较早。【结论】构建的质粒载体pZCY11不仅能够对目的基因进行功能的分析,而且能够同时通过报告基因分析基因的表达情况,可简化粘球菌中基因功能及表达情况的研究。     

Characterization of a small heat shock protein, Mx Hsp16.6, of Myxococcus xanthus

A number of heat shock proteins in Myxococcus xanthus were previously identified by two-dimensional (2D) gel electrophoresis. One of these protein was termed Mx Hsp16.6, and the gene encoding Mx Hsp16.6 was isolated. Mx Hsp16.6 consists of 147 amino acid residues and has an estimated molecular weight of 16,642, in accordance with the apparent molecular mass in the 2D gel. An alpha-crystallin domain, typically conserved in small heat shock proteins, was found in Mx Hsp16.6. Mx Hsp16.6 was not detected during normal vegetative growth but was immediately induced after heat shock. Expression of the hsp16.6 gene was not induced by other stresses, such as starvation, oxidation, and high osmolarity. Mx Hsp16.6 was mostly localized in particles formed after heat shock and precipitated by low-speed centrifugation. Furthermore, Mx Hsp16.6 was detected in highly electron-dense particles in heat-shocked cells by immunoelectron microscopy, suggesting that it forms large complexes with heat-denatured proteins. An insertion mutation in the hsp16.6 gene resulted in lower viability during heat shock and lower acquired thermotolerance. Therefore, it is likely that Mx Hsp16.6 plays critical roles in the heat shock response in M. xanthus.     

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.     

The extracellular proteases of Myxococcus xanthus

Abstract A zymogram technique was used to resolve the proteases from the culture supernatants of three strains derived from Myxococcus xanthus FB. Of the 8 bands obtained, 3 were possibly proteolytic artefacts, and another may be derived from membrane vesicles or fragments. 3 of the bands were tentatively identified as serine proteases by affinity labelling. A non-motile, non-fruiting strain, M. xanthus DZ1, differed from 2 wild-type strains, NCIB9412 and DK101, in the relative intensity of certain bands, and all 3 strains differed qualitatively from M. xanthus XK, which is not FB-derived.     

16S rRNA gene and 16S-23S rRNA gene internal transcribed spacer sequences analysis of the genus Myxococcus.

Phylogenetic relationships of the species belonging to the genus Myxococcus were elucidated based on the sequences of 16S rRNA genes and 16S-23S rRNA gene internal transcribed spacer (ITS) regions. The Myxococcus species were consequently classified into four distinct groups. The type strain of Myxococcus coralloides occupied an independent position (Group 1); it has been recently reclassified as Corallococcus coralloides. Group 2 comprised the type strains of both Myxococcus virescens and Myxococcus xanthus, and some strains assigned to Myxococcus flavescens. The type strain of M. flavescens was contained in Group 3 along with the strains of Myxococcus fulvus. Group 4 included the strains belonging to C. coralloides, M. fulvus, and M. stipitatus. The type strain of M. fulvus that was allocated outside Group 4 in the 16S rRNA gene tree belonged to Group 3 in the ITS tree. These results strongly suggest that the morphological characteristics of Myxococcus species are not consistent with the phylogenetic relationships. The Myxococcus species must therefore be redefined according to the phylogenetic relationships revealed in this study.     

Site-specific integration and expression of a developmental promoter in Myxococcus xanthus.

A series of intercellular signals are involved in the regulation of gene expression during fruiting body formation of Myxococcus xanthus. Mutations which block cell interactions, such as csgA (formerly known as spoC), also prevent expression of certain developmentally regulated promoters. csgA+ cells containing Tn5 lac omega DK4435, a developmentally regulated promoter fused to lacZ, began synthesizing lacZ mRNA 12 to 18 h into the developmental cycle. beta-Galactosidase specific activity increased about 12 h later. Neither lacZ mRNA nor beta-galactosidase activity was detected in a developing csgA mutant containing omega DK4435. The developmental promoter and its fused lacZ reporter gene were cloned into a pBR322-derived plasmid vector containing a portion of bacteriophage Mx8. These plasmids preferentially integrated into the M. xanthus chromosome by site-specific recombination at the bacteriophage Mx8 attachment site and maintained a copy number of 1 per chromosome. The integrated plasmids were relatively stable, segregating at a frequency of 0.0007% per generation in the absence of selection. The cloned and integrated promoter behaved like the native promoter, expressing beta-galactosidase at the proper time during wild-type development and failing to express the enzyme during development of a csgA mutant. The overall level of beta-galactosidase expression in merodiploid cells containing one native promoter and one promoter fused to lacZ was about half that of cells containing a single promoter fused to lacZ. These results suggest that the timing of developmentally regulated gene expression is largely independent of the location of this gene within the chromosome. Furthermore, they show that site-specific recombination can be a useful tool for establishing assays for promoter or gene function in M. xanthus.     

Comprehensive set of integrative plasmid vectors for copper-inducible gene expression in Myxococcus xanthus

Myxococcus xanthus is widely used as a model system for studying gliding motility, multicellular development, and cellular differentiation. Moreover, M. xanthus is a rich source of novel secondary metabolites. The analysis of these processes has been hampered by the limited set of tools for inducible gene expression. Here we report the construction of a set of plasmid vectors to allow copper-inducible gene expression in M. xanthus. Analysis of the effect of copper on strain DK1622 revealed that copper concentrations of up to 500 μM during growth and 60 μM during development do not affect physiological processes such as cell viability, motility, or aggregation into fruiting bodies. Of the copper-responsive promoters in M. xanthus reported so far, the multicopper oxidase cuoA promoter was used to construct expression vectors, because no basal expression is observed in the absence of copper and induction linearly depends on the copper concentration in the culture medium. Four different plasmid vectors have been constructed, with different marker selection genes and sites of integration in the M. xanthus chromosome. The vectors have been tested and gene expression quantified using the lacZ gene. Moreover, we demonstrate the functional complementation of the motility defect caused by lack of PilB by the copper-induced expression of the pilB gene. These versatile vectors are likely to deepen our understanding of the biology of M. xanthus and may also have biotechnological applications.     

Production of an extracellular milk-clotting activity during development in Myxococcus xanthus.

We describe here an extracellular proteolytic activity secreted during both growth and submerged development by Myxococcus xanthus DK1622. This activity yields the clotting of kappa-casein at pH 6 and is inhibited by specific inhibitors of aspartic proteases. Secretion of this milk-clotting proteolytic activity (of Mcp) is time regulated during the developmental cycle, with a large increase near 9 h poststarvation, but its production does not require cell-cell contact. The lack of secretion of this activity by several developmental mutants in submerged development conditions shows that Mcp production is developmentally regulated.     

Transfer of plasmid RP4 to Myxococcus xanthus and evidence for its integration into the chromosome.

The broad-host-range plasmid RP4 and its derivative R68.45 were transferred to Myxococcus xanthus DK101 and DZ1; RP4 was maintained integrated in the chromosome. Loss of plasmid markers occurred during the growth of the transconjugants, which could be prevented by selective pressure with oxytetracycline. The integrated plasmid was transferred back to Escherichia coli often as RP4-prime plasmids carrying various segments of the M. xanthus chromosome. It also mediated chromosomal transfer between M. xanthus strains.     

Temperate Myxococcus xanthus phage Mx8 encodes a DNA adenine methylase, Mox.

Temperate bacteriophage Mx8 of Myxococcus xanthus encapsidates terminally repetitious DNA, packaged as circular permutations of its 49-kbp genome. During both lytic and lysogenic development, Mx8 expresses a nonessential DNA methylase, Mox, which modifies adenine residues in occurrences of XhoI and PstI recognition sites, CTCGAG and CTGCAG, respectively, on both phage DNA and the host chromosome. The mox gene is necessary for methylase activity in vivo, because an amber mutation in the mox gene abolishes activity. The mox gene is the only phage gene required for methylase activity in vivo, because ectopic expression of mox as part of the M. xanthus mglBA operon results in partial methylation of the host chromosome. The predicted amino acid sequence of Mox is related most closely to that of the methylase involved in the cell cycle control of Caulobacter crescentus. We speculate that Mox acts to protect Mx8 phage DNA against restriction upon infection of a subset of natural M. xanthus hosts. One natural isolate of M. xanthus, the lysogenic source of related phage Mx81, produces a restriction endonuclease with the cleavage specificity of endonuclease BstBI.     

Genetic analysis of Myxococcus xanthus and isolation of gene replacements after transduction under conditions of limited homology.

Genetic analysis of Myxococcus xanthus is greatly facilitated by the ability to introduce cloned DNA into M. xanthus to generate gene replacement and merodiploid strains. However, gene replacement strains are difficult to obtain when the region(s) of homology between the cloned DNA and the M. xanthus chromosome is limited (less than 1 kilobase). We found that gene replacements can be obtained at an increased frequency by a two-step procedure involving the use of bacteriophage P1 to isolate merodiploid strains followed by generalized transduction to another M. xanthus strain by using phage Mx4.     

Integration of bacteriophage Mx8 into the Myxococcus xanthus chromosome causes a structural alteration at the C-terminal region of the IntP protein.

Mx8 is a generalized transducing phage that infects Myxococcus xanthus cells. This phage is lysogenized in M. xanthus cells by the integration of its DNA into the host chromosome through site-specific recombination. Here, we characterize the mechanism of Mx8 integration into the M. xanthus chromosome. The Mx8 attachment site, attP, the M. xanthus chromosome attachment site, attB, and two phage-host junctions, attL and attR, were cloned and sequenced. Sequence alignments of attP, attB, attL, and attR sites revealed a 29-bp segment that is absolutely conserved in all four sequences. The intP gene of Mx8 was found to encode a basic protein that has 533 amino acids and that carries two domains conserved in site-specific recombinases of the integrase family. Surprisingly, the attP site was located within the coding sequence of the intP gene. Hence, the integration of Mx8 into the M. xanthus chromosome results in the conversion of the intP gene to a new gene designated intR. As a result of this conversion, the 112-residue C-terminal sequence of the intP protein is replaced with a 13-residue sequence. A 3-base deletion within the C-terminal region had no effect on Mx8 integration into the chromosome, while a frameshift mutation with the addition of 1 base at the same site blocked integration activity. This result indicates that the C-terminal region is required for the enzymatic function of the intP product.     

A bacteriophage for Myxococcus xanthus: isolation, characterization and relation of infectivity to host morphogenesis

Burchard, Robert P. (University of Minnesota, Minneapolis), and M. Dworkin. A bacteriophage for Myxococcus xanthus: isolation, characterization and relation of infectivity to host morphogenesis. J. Bacteriol. 91:1305-1313. 1966.-A bacteriophage (MX-1) infecting Myxococcus xanthus FB(t) has been isolated from cow dung. The bacteriophage particle is approximately 175 mmu long. A tail about 100 mmu in length is encased in a contractile sheath and terminates in a tail plate. The head is polyhedral with a width of about 75 mmu. The nucleic acid of the bacteriophage is deoxyribonucleic acid and has a guanine plus cytosine content of 55.5%. The bacteriophage requires 10(-3)m Ca(++) and 10(-2)m monovalent cation for optimal adsorption. Grown on vegetative cells of M. xanthus FB(t) at 30 C in 2% Casitone medium, the bacteriophage has a latent period of 120 min and a burst size of approximately 100. Host range studies indicate that three strains of M. xanthus including a morphogenetic mutant are sensitive to the bacteriophage, whereas M. fulvus, Cytophaga, Sporocytophaga myxococcoides, and a fourth strain of M. xanthus are not. Of the two cellular forms characteristic of the Myxococcus life cycle, the bacteriophage infect only the vegetative cells; they do not adsorb to microcysts. Ability to adsorb bacteriophage is lost between 65 and 75 min after initiation of the relatively synchronous conversion of vegetative cells to microcysts. The bacteriophage does not adsorb to spheroplasts. After the appearance of visible morphogenesis and before the loss of bacteriophage receptor sites, addition of bacteriophage results in the formation of microcysts which give rise to infective centers only upon germination. The possibility that the infected microcysts are harboring intact bacteriophages has been eliminated.     

Natural variation of gliding motility in a centimetre-scale population of Myxococcus xanthus

A major challenge in microbial evolutionary ecology is to understand how fitness-related traits vary in natural populations of microorganisms at defined spatial scales and subsequently to identify the forces that maintain such variation. The Gram-negative soil bacterium Myxococcus xanthus is a model system for the study of gliding motility, which is driven by two complementary motility systems in this species and is central to its social lifestyle. We tested whether the ecological context of a centimetre-scale M. xanthus population allows the coexistence of diverse motility-related phenotypes. Swarming rates among 26 clones isolated at the centimetre scale were found to vary greatly in multiple laboratory environments. This variation appears to be motility-specific, as it is not explained by a correlated variation in intrinsic growth rate. In contrast to the common reference strain DK1622, most isolates swarmed faster on hard agar than on soft agar, highlighting the difficulty of inferring species characteristics from laboratory reference strains. These isolates also varied greatly in swarm morphology and in the effect of nutrient limitation on swarming rate. Our results show that diverse swarming phenotypes can coexist in a small-scale bacterial population.     

The structure of the carbohydrate backbone of the LPS from Myxococcus xanthus strain DK1622

Gram-negative rod shaped bacterium Myxococcus xanthus DK1622 produces a smooth-type LPS. The structure of the polysaccharide O-chain and the core-lipid A region of the LPS has been determined by chemical and spectroscopic methods. The O-chain was built up of disaccharide repeating units having the following structure: -->6)-alpha-D-Glcp-(1-->4)-alpha-D-GalpNAc6oMe*-(1--> with partially methylated GalNAc residue. The core region consisted of a phosphorylated hexasaccharide, containing one Kdo residue, unsubstituted at O-4, and no heptose residues. The lipid A component consisted of beta-GlcN-(1-->6)-alpha-GlcN1P disaccharide, N-acylated with 13-methyl-C14-3OH (iso-C15-3OH), C16-3OH, and 15-methyl-C16-3OH (iso-C17-3OH) acids. The lipid portion contained O-linked iso-C16 acid.     

The IntP C-terminal segment is not required for excision of bacteriophage Mx8 from the Myxococcus xanthus chromosome

During lysogenization of myxophage Mx8, phage DNA can be integrated into the attB site of the Myxococcus xanthus chromosome through site-specific recombination. We previously demonstrated that the Mx8 attP site is located within the coding sequence of the Mx8 intP gene. Hence, the integration of Mx8 into the M. xanthus chromosome results in the conversion of the 112-amino-acid C-terminal segment of the IntP protein into a 13-amino-acid C-terminal segment of a new protein, IntR. To examine whether IntR is active for Mx8 excision, we have constructed a series of plasmids carrying various lengths of the intP-attP or intR-attR regions as well as the lacZ gene. The integrated Mx8 was excised at a high frequency, indicating that IntR is active for the excision. For Mx8 excision, a gene designated xis was shown to be required in addition to intR.