Developmental aggregation of Myxococcus xanthus requires frgA, an frz-related gene

Myxococcus xanthus is a gram-negative bacterium which has a complex life cycle that includes multicellular fruiting body formation. Frizzy mutants are characterized by the formation of tangled filaments instead of hemispherical fruiting bodies on fruiting agar. Mutations in the frz genes have been shown to cause defects in directed motility, which is essential for both vegetative swarming and fruiting body formation. In this paper, we report the discovery of a new gene, called frgA (for frz-related gene), which confers a subset of the frizzy phenotype when mutated. The frgA null mutant showed reduced swarming and the formation of frizzy aggregates on fruiting agar. However, this mutant still displayed directed motility in a spatial chemotaxis assay, whereas the majority of frz mutants fail to show directed movements in this assay. Furthermore, the frizzy phenotype of the frgA mutant could be complemented extracellularly by wild-type cells or strains carrying non-frz mutations. The phenotype of the frgA mutant is similar to that of the abcA mutant and suggests that both of these mutants could be defective in the production or export of extracellular signals required for fruiting body formation rather than in the sensing of such extracellular signals. The frgA gene encodes a large protein of 883 amino acids which lacks homologues in the databases. The frgA gene is part of an operon which includes two additional genes, frgB and frgC. The frgB gene encodes a putative histidine protein kinase, and the frgC gene encodes a putative response regulator. The frgB and frgC null mutants, however, formed wild-type fruiting bodies.     

Resistance of Escherichia coli to penicillins. IX. Genetics and physiology of class II ampicillin-resistant mutants that are galactose negative or sensitive to bacteriophage C21, or both

Ampicillin-resistant mutants of class II are determined by a doubling of chromosomally and episomally mediated ampicillin resistance on agar plates. Several mutants were isolated from a female as well as from an Hfr strain. The mutants differed from each other in various properties such as response to colicin E2 and sodium cholate, response to the phages T4 and C21, and fermentation of galactose. By conjugation and transduction experiments, it was shown that mutations in at least four loci gave the class II phenotype. The mutations were found to be in the galU gene, the ctr gene, and two new genes close to mtl denoted lpsA and lpsB. The carbohydrate compositions of the lipopolysaccharides of the mutants were investigated and found to be changed compared to the parent strains. GalU mutants lacked rhamnose and galactose and had 11% glucose compared to the parent strain. The lpsA mutant also lacked rhamnose and had only traces of galactose and 58% glucose, whereas the lpsB mutant contained 14% rhamnose, traces of galactose, and 81% glucose compared to the parent strain.     

The Sinorhizobium meliloti ntrX Gene Is Involved in Succinoglycan Production,Motility, and Symbiotic Nodulation on Alfalfa

Rhizobia establish a symbiotic relationship with their host legumes to induce the formation of nitrogen-fixing nodules. This process is regulated by many rhizobium regulators, including some two-component regulatory systems (TCSs). NtrY/NtrX, a TCS that was first identified in Azorhizobium caulinodans, is required for free-living nitrogen metabolism and symbiotic nodulation on Sesbania rostrata. However, its functions in a typical rhizobium such as Sinorhizobium meliloti remain unclear. Here we found that the S. meliloti response regulator NtrX but not the histidine kinase NtrY is involved in the regulation of exopolysaccharide production, motility, and symbiosis with alfalfa. A plasmid insertion mutant of ntrX formed mucous colonies, which overproduced succinoglycan, an exopolysaccharide, by upregulating its biosynthesis genes. This mutant also exhibited motility defects due to reduced flagella and decreased expression of flagellins and regulatory genes. The regulation is independent of the known regulatory systems of ExoR/ExoS/ChvI, EmmABC, and ExpR. Alfalfa plants inoculated with the ntrX mutant were small and displayed symptoms of nitrogen starvation. Interestingly, the deletion mutant of ntrY showed a phenotype similar to that of the parent strain. These findings demonstrate that the S. meliloti NtrX is a new regulator of succinoglycan production and motility that is not genetically coupled with NtrY.     

Penicillin-binding protein 2 is essential in wild-type Escherichia coli but not in lov or cya mutants.

Penicillin-binding protein 2 (PBP2), target of the beta-lactam mecillinam, is required for rod morphology and cell wall elongation in Escherichia coli. A new temperature-sensitive PBP2 allele and an in vitro-constructed insertion deletion allele were shown to be lethal in wild-type strains, establishing that the activity of this protein is essential. Mutations in the lov or cya genes, conferring mecillinam resistance, compensated for the deleterious effect of the absence of PBP2. The resulting double mutants grew as spheres. In a cya mutant lacking PBP2, the restoration of a Cya+ phenotype by addition of cyclic AMP caused lethality and a block in cell division. These results show that in wild-type cells, PBP2 is essential for growth and division.     

泛耐药鲍氏不动杆菌看家基因和水平转移基因样本聚类分析

目的了解20株泛耐药鲍氏不动杆菌的菌株亲缘性。方法完成该组泛耐药鲍氏不动杆菌2种与耐药相关的看家基因和54种水平转移获得与β-内酰胺类、氨基糖苷类、喹诺酮类耐药相关基因以及13种接合性质粒、转座子、插入序列、整合子等可移动遗传元件遗传标记检测,并对检测结果作样本聚类分析。结果20株泛耐药鲍氏不动杆菌已经发生演化,并存在2个克隆传播：1-4—6号菌株和2—5—7—8—9—10—11—12—13—14—15-16—17—18-19号菌株。结论与耐药相关的看家基因和水平转移获得的耐药基因均为显性遗传,本研究耐药菌所观察的表型与之相对应,为追溯耐药菌传播途径提供了方便。     

Identification of virulence markers in clinically relevant strains of Acinetobacter genospecies

Nine Acinetobacter strains from patients and hospital environment were analyzed for virulence markers, quorum sensing signal production, and the presence of luxI and luxR genes. The strains had several properties in common: growth in iron limited condition, biofilm formation, and no active protease secretion. Significantly higher catechol production was determined in patient isolates (P < 0.03), but other invasiveness markers, such as lipase secretion, amount of biofilm, cell motility, antibiotic resistance, and hemolysin production, showed large variability. Notably, all members of the so-called A. calcoaceticus-A. baumannii complex, regardless of whether the source was a patient or environmental, secreted mediumto long-chain N-acyl homoserine lactones (AHL) and showed blue light inhibition of cell motility. In these strains, a luxI homologue with a homoserine lactone synthase domain and a luxR putative regulator displaying the typical AHL binding domain were identified.     

Cryptococcus neoformans virulence gene discovery through insertional mutagenesis

Insertional mutagenesis was applied to Cryptococcus neoformans to identify genes associated with virulence attributes. Using biolistic transformation, we generated 4,300 nourseothricin (NAT)-resistant strains, of which 590 exhibited stable resistance. We focused on mutants with defects in established virulence factors and identified two with reduced growth at 37 degrees C, four with reduced production of the antioxidant pigment melanin, and two with an increased sensitivity to nitric oxide (NO). The NAT insertion and mutant phenotypes were genetically linked in five of eight mutants, and the DNA flanking the insertions was characterized. For the strains with altered growth at 37 degrees C and altered melanin production, mutations were in previously uncharacterized genes, while the two NO-sensitive strains bore insertions in the flavohemoglobin gene FHB1, whose product counters NO stress. Because of the frequent instability of nourseothricin resistance associated with biolistic transformation, Agrobacterium-mediated transformation was tested. This transkingdom DNA delivery approach produced 100% stable nourseothricin-resistant transformants, and three melanin-defective strains were identified from 576 transformants, of which 2 were linked to NAT in segregation analysis. One of these mutants contained a T-DNA insertion in the promoter of the LAC1 (laccase) gene, which encodes a key enzyme required for melanin production, while the second contained an insertion in the promoter of the CLC1 gene, encoding a voltage-gated chloride channel. Clc1 and its homologs are required for ion homeostasis, and in their absence Cu+ transport into the secretory pathway is compromised, depriving laccase and other Cu(+)-dependent proteins of their essential cofactor. The NAT resistance cassette was optimized for cryptococcal codon usage and GC content and was then used to disrupt a mitogen-activated protein kinase gene, a predicted gene, and two putative chloride channel genes to analyze their contributions to fungal physiology. Our findings demonstrate that both insertional mutagenesis methods can be applied to gene identification, but Agrobacterium-mediated transformation is more efficient and generates exclusively stable insertion mutations.     

铜绿假单胞菌PAO1中c-di-GMP代谢相关基因PA0575对表型的影响

【背景】铜绿假单胞菌PAO1中存在与环鸟苷二磷酸(cyclic-di-guanosine monophosphate,c-di-GMP)代谢相关基因PA0575。【目的】探讨铜绿假单胞菌PAO1中环鸟苷二磷酸代谢相关基因PA0575对运动能力及生物膜的影响。【方法】通过PCR对菌株遗传背景进行确认;利用刚果红结合实验及电转PcdrA-gfp质粒间接测量胞内c-di-GMP水平;利用泳动性(swimming)、蜂群泳动(swarming)、蹭行运动(twiching)和生物膜定量实验对细菌进行表型分析,并在运动培养基中添加抗生素研究其对运动能力的影响;针对PA0575基因进行融合蛋白表达载体的构建,并对蛋白进行原核诱导表达。【结果】3株突变体菌株的转座子插入突变位点不一致,胞内c-di-GMP水平检测结果显示,PA0575-1菌株的c-di-GMP含量高于野生型PAO1菌株(P0.05),PA0575-2、PA0575-3菌株胞内c-di-GMP水平与野生型PAO1菌株无差异(P0.05)。运动能力检测实验中,与野生型PAO1菌株相比,PA0575-1菌株泳动性增强(P0.05);PA0575-2、PA0575-3菌株的泳动性、蜂群运动均增强(P0.05);该基因不同位点的突变均导致氯霉素对菌株的运动能力产生抑制作用。生物膜定量结果显示,与野生型PAO1菌株相比,细菌培养18 h后PA0575-1的生物膜含量降低(P0.05),PA0575-2、PA0575-3菌株的生物膜含量升高。最后成功构建了PA0575基因不同结构域的8个表达载体,并获得了异源表达蛋白。【结论】PA0575基因降低铜绿假单胞菌胞内c-di-GMP的水平,影响表型的同时也抑制了氯霉素抗性基因的表达。以上研究为PA0575基因对表型的影响奠定了基础。     

The Myxococcus xanthus asgA gene encodes a novel signal transduction protein required for multicellular development.

The Myxococcus xanthus asgA gene is one of three known genes necessary for the production of extracellular A-signal, a cell density signal required early in fruiting body development. We determined the DNA sequence of asgA. The deduced 385-amino-acid sequence of AsgA was found to contain two domains: one homologous to the receiver domain of response regulators and the other homologous to the transmitter domain of histidine protein kinases. A kanamycin resistance (Kmr) gene was inserted at various positions within or near the asgA gene to determine the null phenotype. Those strains with the Kmr gene inserted upstream or downstream of asgA are able to form fruiting bodies, while strains containing the Kmr gene inserted within asgA fail to develop. The nature and location of the asgA476 mutation were determined. This mutation causes a leucine-to-proline substitution within a conserved stretch of hydrophobic residues in the N-terminal receiver domain. Cells containing the insertion within asgA and cells containing the asgA476 substitution have similar phenotypes with respect to development, colony color, and expression of an asg-dependent gene. An analysis of expression of a translational asgA-lacZ fusion confirms that asgA is expressed during growth and early development. Finally, we propose that AsgA functions within a signal transduction pathway that is required to sense starvation and to respond with the production of extracellular A-signal.     

Identification and characterization of Myxococcus xanthus mutants deficient in calcofluor white binding.

Calcofluor white is a fluorescent dye that binds to glycans and can be used to detect extracellular polysaccharide in Myxococcus xanthus and many other bacteria. We observed that an esg mutant showed less binding to calcofluor white than wild-type cells. Unlike S-motility mutants that share this phenotypic characteristic, the esg mutant exhibited S motility. This led us to identify a collection of nine new transposon insertion mutants, designated Cds (for calcofluor white binding deficient and S motile), which exhibited a phenotype similar to that of the esg strain. The Cds phenotype was found in 0.6% of the random insertion mutants that were screened. The Cds mutants were also found to be defective in cell-cell agglutination and developmental aggregation. Extracellular matrix fibrils composed of roughly equal amounts of polysaccharide and protein have been shown to be involved in agglutination, and electron microscopic examination showed that esg and the other Cds mutants lack the wild-type level of fibrils. Analysis of total M. xanthus carbohydrate demonstrated that polysaccharide content increased by about 50% when wild-type cells entered stationary phase. This induction was reduced or eliminated in all of the Cds mutants. The degree of polysaccharide deficiency in the Cds mutants correlated with the degree of loss of agglutination and dye binding as well as with the severity of the developmental aggregation defect. Preliminary genetic characterization demonstrated that the transposon insertion mutations in three of the Cds mutants (SR53, SR171, and SR200) were loosely linked. The results of this study suggest that many genes are involved in the production of calcofluor white binding polysaccharide material found in the extracellular matrix and that the polysaccharide is fibrillar. These results are also consistent with the findings of earlier studies which indicated that fibrils function to join agglutinating cells and to form multicellular fruiting aggregates.     

鲍曼不动杆菌对碳青霉烯类抗生素的耐药性分析

目的了解鲍曼不动杆菌的耐药情况,并检测耐碳青霉烯类鲍曼不动杆菌的耐药基因,为指导临床合理用药、控制院内感染提供依据。方法利用K-B法检测45株鲍曼不动杆菌临床分离株的耐药情况,通过改良Hodge试验、Carba NP试验和EDTA协同试验对多重耐药鲍曼不动杆菌的碳青霉烯酶进行表型检测,并采用PCR技术检测鲍曼不动杆菌携带OXA-23和NDM-1型耐药基因的情况。结果 45株鲍曼不动杆菌临床分离株中共筛出42株多重耐药菌株;利用改良Hodge试验和Carba NP试验检出36株碳青霉烯酶阳性菌株;采用PCR扩增出OXA-23,未扩增出NDM-1。结论鲍曼不动杆菌耐药情况严重,且耐药基因OXA-23携带率高,治疗时应根据药敏试验结果合理用药。     

Global analysis of the genes involved in the thermotolerance mechanism of thermotolerant Acetobacter tropicalis SKU1100

Acetobacter tropicalis SKU1100 is a thermotolerant acetic acid bacterium that grows even at 42 °C, a much higher temperature than the limit for the growth of mesophilic strains. To elucidate the mechanism underlying the thermotolerance of this strain, we attempted to identify the genes essential for growth at high temperature by transposon (Tn10) mutagenesis followed by gene or genome analysis. Among the 4,000 Tn10-inserted mutants obtained, 32 exhibited a growth phenotype comparable to that of the parent strain at 30 °C but not at higher temperatures. We identified the insertion site of Tn10 on the chromosomes of all the mutant strains by TAIL (Thermal Asymmetric Interlaced)-PCR, and found 24 genes responsible for thermotolerance. The results also revealed a partial overlap between the genes required for thermotolerance and those required for acetic acid resistance. In addition, the origin and role of these thermotolerant genes are discussed.     

Cloning of wild-type Pseudomonas solanacearum phcA, a gene that when mutated alters expression of multiple traits that contribute to virulence.

Pseudomonas solanacearum undergoes a spontaneous mutation that pleiotropically reduces extracellular polysaccharide (EPS) production, endoglucanase activity, and virulence and increases motility. We refer to the process that coordinately affects these traits as phenotype conversion (PC) and the resulting mutants as PC types. Previous research with the wild-type strain AW1 suggested that inactivation of a single locus could mimic phenotype conversion (T. P. Denny, F. W. Makini, and S. M. Brumbley, Mol. Plant-Microbe Interact. 1:215-223, 1988). Additional Tn5 mutagenesis of AW1 generated three more mutants (AW1-81, AW1-82, and AW1-84) that were indistinguishable from the PC type and one slightly leaky mutant (AW1-87); all four had single insertions in the same 4.0-kilobase (kb) EcoRI fragment that were responsible for the PC-like phenotype. Another insertion mutant, AW1-83, which lacks an insertion in this 4.0-kb fragment, resembled the PC type except that it was reversibly induced to produce wild-type levels of EPS when cultured adjacent to AW1. The wild-type region containing the gene that controls traits affected by phenotype conversion in AW1, designated phcA, was cloned on a 2.2-kb DNA fragment that restored all the phcA::Tn5 mutants and 11 independent spontaneous PC-type derivatives of AW1 to wild-type status. Homology with the phcA region was found in diverse wild-type strains of P. solanacearum, although restriction fragment length polymorphisms were seen. No major DNA alterations were observed in the phcA homologous region of PC types from strain AW1 or 82N. PC types from 7 of 11 conjugal strains of P. solanacearum were restored to EPS+ by phcA from AW1; however, only some PC types of strain K60 were restored, whereas others were not. We believe that a functional phcA gene is required to maintain the wild-type phenotype in P. solanacearum, and for most strains phenotype conversion results from a loss of phcA gene expression or the function of its gene product.     

CorA, the magnesium/nickel/cobalt transporter, affects virulence and extracellular enzyme production in the soft rot pathogen Pectobacterium carotovorum

Pectobacterium carotovorum (formerly Erwinia carotovora ssp. carotovora) is a phytopathogenic bacterium that causes soft rot disease, characterized by water-soaked soft decay, resulting from the action of cell wall-degrading exoenzymes secreted by the pathogen. Virulence in soft rot bacteria is regulated by environmental factors, host and bacterial chemical signals, and a network of global and gene-specific bacterial regulators. We isolated a mini-Tn5 mutant of P. carotovorum that is reduced in the production of extracellular pectate lyase, protease, polygalacturonase and cellulase. The mutant is also decreased in virulence as it macerates less host tissues than its parent and is severely impaired in multiplication in planta. The inactivated gene responsible for the reduced virulent phenotype was identified as corA. CorA, a magnesium/nickel/cobalt membrane transporter, is the primary magnesium transporter for many bacteria. Compared with the parent, the CorA(-) mutant is cobalt resistant. The mutant phenotype was confirmed in parental strain P. carotovorum by marker exchange inactivation of corA. A functional corA(+) DNA from P. carotovorum restored exoenzyme production and pathogenicity to the mutants. The P. carotovorum corA(+) clone also restored motility and cobalt sensitivity to a CorA(-) mutant of Salmonella enterica. These data indicate that CorA is required for exoenzyme production and virulence in P. carotovorum.     

Synthesis of the flavonoid-induced lipopolysaccharide of Rhizobium Sp. strain NGR234 requires rhamnosyl transferases encoded by genes rgpF and wbgA

In the presence of flavonoids, Rhizobium sp. strain NGR234 synthesizes a new lipopolysaccharide (LPS), characterized by a rhamnan O-antigen. The presence of this rhamnose-rich LPS is important for the establishment of competent symbiotic interactions between NGR234 and many species of leguminous plants. Two putative rhamnosyl transferases are encoded in a cluster of genes previously shown to be necessary for the synthesis of the rhamnose-rich LPS. These two genes, wbgA and rgpF, were mutated. The resulting mutant strains synthesized truncated rough LPS species rather than the wild-type rhamnose-rich LPS when grown with flavonoids. Based on the compositions of these purified mutant LPS species, we inferred that RgpF is responsible for adding the first one to three rhamnose residues to the flavonoid-induced LPS, whereas WbgA is necessary for the synthesis of the rest of the rhamnan O-antigen. The NGR234 homologue of lpsB, which, in other bacteria, encodes a glycosyl transferase acting early in synthesis of the core portion of LPS, was identified and also mutated. LpsB was required for all the LPS species produced by NGR234, in the presence or absence of flavonoids. Mutants (i.e., of lpsB and rgpF) that lacked any portion of the rhamnan O-antigen of the induced LPS were severely affected in their symbiotic interaction with Vigna unguiculata, whereas the NGR?wbgA mutant, although having very few rhamnose residues in its LPS, was able to elicit functional nodules.