Your search keyword '"Myxococcales classification"' showing total 5 results

1. Evolutionary diversity of ketoacyl synthases in cellulolytic myxobacterium Sorangium.

Author

Li ZF, Zhao JY, Xia ZJ, Shi J, Liu H, Wu ZH, Hu W, Liu WF, and Li YZ

Subjects

Genes, Bacterial, Molecular Sequence Data, Myxococcales classification, Phylogeny, Polymerase Chain Reaction, Evolution, Molecular, Myxococcales enzymology, Myxococcales genetics, Polyketide Synthases genetics

Abstract

The diversity of type I polyketide synthases (PKSs) in cellulolytic myxobacterium Sorangium was explored by assaying the ketoacyl synthases (KSs) in 10 Sorangium strains with two degenerate primer sets and 64 different KS fragments were obtained. For their deduced amino acid sequences, eight were identical to three known KSs from Sorangium and Magnetospirillum, while the others showed 54-83% identities to the modular KS domains reported from various microorganisms. Parts of the Sorangium KSs tightly share the clade with Actinobacteria excluding any other analyzed myxobacterial KSs, or with Cyanobacteria /Myxobacteria. Parts are widely located in the three functional groups - "Loading", "NRPS/PKS" and "Trans-AT". Sorangium KSs in the Actinobacteria, Cyanobacteria/Myxobacteria, or "Loading" clade further evolved independently on its own genus. Notably, the modular KSs from other Myxobacteria genera, i.e. Myxococcus, Stigmatella, Melittangium, Cystobacter and Angiococcus are often distributed crosswise and form non-Sorangium blend subgroups. "NRPS/PKS" and "Trans-AT" are two rather diverse groups and the Sorangium KSs in these clades evolved crosswise with other taxa lineages. The results presented in this paper suggest that the inherent genetic strategies, together with frequent gene importing from many organisms (HGT) have contributed to the evolution of modular PKSs in Sorangium. These findings reinforce that Sorangium strains are really excellent creators for novel and diverse polyketides.

Published

2007

2. Taxonomic characterization of members of the genus Corallococcus: molecular divergence versus phenotypic coherency.

Author

Stackebrandt E, Päuker O, Steiner U, Schumann P, Sträubler B, Heibei S, and Lang E

Subjects

Bacterial Typing Techniques, DNA, Bacterial chemistry, DNA, Bacterial genetics, Fatty Acids analysis, Fatty Acids isolation & purification, Molecular Sequence Data, Myxococcales chemistry, Myxococcales physiology, Myxococcus xanthus genetics, Nucleic Acid Hybridization, Phenotype, Phylogeny, RNA, Ribosomal, 16S genetics, Ribotyping, Sequence Analysis, DNA, Sequence Homology, Bacterial Proteins genetics, DNA Gyrase genetics, Myxococcales classification, Myxococcales genetics, Peptide Elongation Factor G genetics, Transcriptional Elongation Factors genetics

Abstract

Corallococcus coralloides DSM 2259(T), Corallococcus exiguus DSM 14696(T), Corallococcus macrosporus DSM 14697(T) and more than 35 strains identified as members of Corallococcus on the basis of morphology were subjected to partial sequences analysis of three housekeeping genes (lepA, fusA and rpoB), complementing a recent phylogenetic analysis based on genes coding for 16S rRNA and gyrB. Phylogenetic analysis of each gene, generated by maximum likelihood and two different additive treeing algorithms, resulted in the separate position of C. macrosporus DSM 14697(T) and a few Corallococcus strains that were more closely related to Myxococcus xanthus than to the other members of Corallococcus. The latter strains formed three clearly separate clusters by 16S rRNA gene phylogeny. This relationship, however, was only partially recovered by the other gene trees. Group 1, embracing the type strains of C. coralloides and C. exiguus, only emerged as a coherent cluster in the 16S rRNA gene tree. In all other gene trees this cluster embraced organisms of cluster 3, which either formed coherent subclusters (gyrB, lepA) or which appeared polyphyletic (fusA, rpoB). Group 2 organisms consistently constituted a monophyletic cluster, though their branching within the gene trees differed. A concatenated tree, based on the analysis of about 5400 nucleotides of all five partial genes was most similar to the 16S rRNA gene tree. In order to determine whether the individual clusters that emerged by 16S rRNA gene analysis (>99.1% intracluster similarities) show phenetic properties that would allow their description as new species, a few strains of each group were subjected to the analysis of whole cell fatty acid and physiological properties. Riboprint patterns were generated for some members of group 1. While the DNA-DNA reassociation values and riboprint patterns confirmed the genomic heterogeneity of members of cluster 1, none of the other properties investigated were sufficiently discriminative to allow the formal description of strain clusters as new species.

Published

2007

3. 16S-23S ribosomal DNA intergenic spacer regions in cellulolytic myxobacteria and differentiation of closely related strains.

Author

Nguimbi E, Li YZ, Gao BL, Li ZF, Wang B, Wu ZH, Yan BX, Qu YB, and Gao PJ

Subjects

Base Sequence, Molecular Sequence Data, Myxococcales classification, Operon, Ribotyping, Sequence Alignment, Sequence Homology, Nucleic Acid, Species Specificity, Bacterial Typing Techniques methods, DNA, Bacterial genetics, DNA, Intergenic genetics, DNA, Ribosomal genetics, DNA, Ribosomal Spacer, Myxococcales genetics, RNA, Bacterial genetics, RNA, Ribosomal, 16S genetics, RNA, Ribosomal, 23S genetics, RNA, Transfer, Ala genetics, RNA, Transfer, Ile genetics

Abstract

The diversity of 16S-23S rDNA intergenic spacer regions (ISR) among cellulolytic myxobacterial strains was assayed. Agarose gel electrophoresis of PCR amplification products from ten strains shows that there are at least four copies of rRNA operons in the genus Sorangium, based on their size and restriction enzymatic digest maps. There are two sequence organization patterns: tRNA(Ile)-tRNA(Ala)-containing ISR and tRNA-lacking ISR. The tRNA-containing ISRs are highly similar among strains and within a strain (more than 98% similarity) and contain the essential functional regions, such as a ribonuclease III recognition site and an antiterminator recognition site boxA. The tRNA-lacking ISR has no such functional sites that are important for yielding mature rRNA, which suggests that this type of rRNA operons might be degenerate. The tRNA-lacking ISR is divided into two types based on their sizes and sequences, which exhibits about 90% similarity within each type. Thus, the tRNA-lacking ISR polymorphisms can be used to discriminate among different strains of sorangial species.

Published

2003

4. Enhygromyxa salina gen. nov., sp. nov., a slightly halophilic myxobacterium isolated from the coastal areas of Japan.

Author

Iizuka T, Jojima Y, Fudou R, Tokura M, Hiraishi A, and Yamanaka S

Subjects

Bacterial Typing Techniques, Base Composition, Calcium pharmacology, DNA, Bacterial genetics, Fatty Acids analysis, Japan, Magnesium pharmacology, Molecular Sequence Data, Myxococcales chemistry, Myxococcales classification, Myxococcales drug effects, Myxococcales ultrastructure, Pacific Ocean, Phenotype, Phylogeny, Ribotyping, Seawater microbiology, Sodium Chloride pharmacology, Species Specificity, Vitamin K 2 analysis, Geologic Sediments microbiology, Myxococcales isolation & purification, Water Microbiology

Abstract

Six isolates of novel marine myxobacteria, designated strains SHK-1T, SMK-1-1, SMK-1-3, SMK-10, SKK-2, and SMP-6, were obtained from various coastal samples (mud, sands and algae) collected around Japan. All of the isolates had Gram-negative rod-shaped cells, motile by gliding and grew aerobically. They showed bacteriolytic action, fruiting body formation, and NaCl requirement for growth with an optimum concentration of 1.0-2.0% (w/v). In addition, divalent cationic components of seawater, such as Mg2+ or Ca2+, were also needed for growth. The major respiratory quinone was MK-7. The G+C content of genomic DNA ranged from 65.6 to 67.4 mol% (by HPLC). The isolates shared almost identical 16S rDNA sequences, and clustered with a recently described marine myxobacterium, Plesiocystis pacifica, as their closest relative on a phylogenetic tree (95.9-96.0% similarity). Physiological and chemotaxonomic differences between the new strains and strains of the genus Plesiocystis justify the proposal of a new genus. Therefore, we propose to classify the six isolates into a new taxon of marine myxobacteria with the name, Enhygromyxa salina gen. nov., sp. nov. The type strain is SHK-1(T) (JCM 11769(T) = DSM 15217(T) = AJ 110011(T)).

Published

2003

5. Morphologies and phylogenetic classification of cellulolytic myxobacteria.

Author

Yan ZC, Wang B, Li YZ, Gong X, Zhang HQ, and Gao PJ

Subjects

Cellulose metabolism, DNA, Bacterial genetics, Evolution, Molecular, Myxococcales genetics, Myxococcales metabolism, Myxococcales ultrastructure, Phenotype, RNA, Ribosomal, 16S analysis, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Myxococcales classification, Phylogeny

Abstract

The evolutionary distances of the 16S rDNA sequences in cellulolytic myxobacteria are less than 3%, which units all the strains into a single genus, Sorangium. The size of myxospores and the shape of sporangioles, rather than fruiting body colors or swarm morphologies are consistent with the changes of the 16S rDNA sequences. It is suggested that there are at least two species in the genus Sorangium: one includes strains with small myxospores and spherical sporangioles, and the color of the fruiting bodies is normally orange or brown, though sometimes yellow or black. The second species has large myxospores, polyhedral sporangioles with many inter-cystic substrates, and normally deep brown to black color.

Published

2003