Pseudomonas syringae pv. actinidiae is the causal agent of bacterial canker of kiwifruit, a disease that has rapidly spread worldwide. We have fully sequenced and assembled the chromosomal and plasmid DNA from P. syringae pv. actinidiae ICMP 18884 using the PacBio RS II platform. Copyright © 2015 Templeton et al.
The complete genome sequence of 6.45 Mb is reported here for Pseudomonas trivialis strain IHBB745 (MTCC 5336), which is an efficient, stress-tolerant, and broad-spectrum plant growth-promoting rhizobacterium. The gene-coding clusters predicted the genes for phosphate solubilization, siderophore production, 1-aminocyclopropane-1-carboxylate (ACC) deaminase activity, indole-3-acetic acid (IAA) production, and stress response. Copyright © 2015 Gulati et al.
Secondary metabolite genes are often clustered together and situated in particular genomic regions, like the subtelomere, that can facilitate niche adaptation in fungi. Solanapyrones are toxic secondary metabolites produced by fungi occupying different ecological niches. Full-genome sequencing of the ascomycete Ascochyta rabiei revealed a solanapyrone biosynthesis gene cluster embedded in an AT-rich region proximal to a telomere end and surrounded by Tc1/Mariner-type transposable elements. The highly AT-rich environment of the solanapyrone cluster is likely the product of repeat-induced point mutations. Several secondary metabolism-related genes were found in the flanking regions of the solanapyrone cluster. Although the solanapyrone cluster appears to be resistant to repeat-induced point mutations, a P450 monooxygenase gene adjacent to the cluster has been degraded by such mutations. Among the six solanapyrone cluster genes (sol1 to sol6), sol4 encodes a novel type of Zn(II)2Cys6 zinc cluster transcription factor. Deletion of sol4 resulted in the complete loss of solanapyrone production but did not compromise growth, sporulation, or virulence. Gene expression studies with the sol4 deletion and sol4-overexpressing mutants delimited the boundaries of the solanapyrone gene cluster and revealed that sol4 is likely a specific regulator of solanapyrone biosynthesis and appears to be necessary and sufficient for induction of the solanapyrone cluster genes. Despite the dynamic surrounding genomic regions, the solanapyrone gene cluster has maintained its integrity, suggesting important roles of solanapyrones in fungal biology. Copyright © 2015, American Society for Microbiology. All Rights Reserved.
Streptococcus suis is a major swine pathogen and a zoonotic agent. Serotype 2 strains are the most frequently associated with disease. However, not all serotype 2 lineages are considered virulent. Indeed, sequence type (ST) 28 serotype 2 S. suis strains have been described as a homogeneous group of low virulence. However, ST28 strains are often isolated from diseased swine in some countries, and at least four human ST28 cases have been reported. Here, we used whole-genome sequencing and animal infection models to test the hypothesis that the ST28 lineage comprises strains of different genetic backgrounds and different virulence. We used 50 S. suis ST28 strains isolated in Canada, the United States and Japan from diseased pigs, and one ST28 strain from a human case isolated in Thailand. We report a complex population structure among the 51 ST28 strains. Diversity resulted from variable gene content, recombination events and numerous genome-wide polymorphisms not attributable to recombination. Phylogenetic analysis using core genome single-nucleotide polymorphisms revealed four discrete clades with strong geographic structure, and a fifth clade formed by US, Thai and Japanese strains. When tested in experimental animal models, strains from this latter clade were significantly more virulent than a Canadian ST28 reference strain, and a closely related Canadian strain. Our results highlight the limitations of MLST for both phylogenetic analysis and virulence prediction and raise concerns about the possible emergence of ST28 strains in human clinical cases.
Photorhabdus temperata subsp. thracensis 39-8(T), a symbiotic bacterium from an entomopathogenic nematode Heterorhabditis bacteriophora, is a novel bacterium harboring insect pathogenicity. Herein, we present the complete genome sequence of strain 39-8(T), which consists of one circular chromosome of 5,147,098bp with a GC content of 44.10%. This genetic information will provide insights into biotechnological applications of the genus Photorhabdus producing insecticidal toxins, leading to the enhanced commercial bioinsecticide in agricultural pest control. Copyright © 2015 Elsevier B.V. All rights reserved.
Here, we present the first complete genome sequence of Serratia fonticola DSM 4576(T), a potential plant growth promoting (PGP) bacterium which confers solubilization of inorganic phosphate, indole-3-acetic acid production, hydrogen cyanideproduction, siderophore production and assimilation of ammonia through the glutamate synthase (GS/GOGAT) pathway. This genome sequence is valuable for functional genomics and ecological studies which are related to PGP and biocontrol activities. Copyright © 2015 Elsevier B.V. All rights reserved.
Lactobaillus paracasei L9 (CGMCC No. 9800) is a new strain with probiotic properties originating from healthy human intestine. Previous studies evidenced that the strain regulates immune modulation and contributes to the production of high amounts of lactic acid. The genome of L. paracasei L9 contains a circular 3076,437-bp chromosome, encoding 3044 CDSs, 15 rRNA genes and 59 tRNA genes. Copyright © 2015. Published by Elsevier B.V.
The Gram-positive Actinobacterium Clavibacter michiganensis strain PF008 produces a cellulase of biotechnological interest, which is used for degradation of cellulose, a major component of plant cell walls. Here we report the complete genome sequence of this bacterium for better understanding of cellulase production and its virulence mechanism. Copyright © 2015 Elsevier B.V. All rights reserved.
This study examines the patterns of gene integration of gfp-bsd upon stable transfection into the T3Bo strain of Babesia bovis using a plasmid designed to integrate homologous sequences of the parasite’s two identical ef-1a A and B genes. While the transfected BboTf-149-6 cell line displayed two distinct patterns of gene integration, clonal lines derived from this strain by cell sorting contained only single gfp-bsd insertions. Whole genome sequencing of two selected clonal lines, E9 and C6, indicated two distinct patterns of gfp-bsd insertion occurring by legitimate homologous recombination mechanisms: one into the expected ef-1a orf B, and another into the ef-1a B promoter. The data suggest that expression of the ef-1a orf B is not required for development of B. bovis in cultured erythrocyte stages. Use of legitimate homologous recombination mechanisms in transfected B. bovis supports the future use of transfection methods for developing efficient gene function assignment experiments using gene knockout techniques. Published by Elsevier B.V.
Ralstonia solanacearum is an important phytopathogen that attacks over 400 plant species, including Zingiberaceae plants. Here, we report the complete genome sequence of strain YC45, which was isolated from Rhizoma kaempferiae in southern China. Copyright © 2015 She et al.
Of the two cultivated species of allopolyploid cotton, Gossypium barbadense produces extra-long fibers for the production of superior textiles. We sequenced its genome (AD)2 and performed a comparative analysis. We identified three bursts of retrotransposons from 20 million years ago (Mya) and a genome-wide uneven pseudogenization peak at 11-20 Mya, which likely contributed to genomic divergences. Among the 2,483 genes preferentially expressed in fiber, a cell elongation regulator, PRE1, is strikingly At biased and fiber specific, echoing the A-genome origin of spinnable fiber. The expansion of the PRE members implies a genetic factor that underlies fiber elongation. Mature cotton fiber consists of nearly pure cellulose. G. barbadense and G. hirsutum contain 29 and 30 cellulose synthase (CesA) genes, respectively; whereas most of these genes (>25) are expressed in fiber, genes for secondary cell wall biosynthesis exhibited a delayed and higher degree of up-regulation in G. barbadense compared with G. hirsutum, conferring an extended elongation stage and highly active secondary wall deposition during extra-long fiber development. The rapid diversification of sesquiterpene synthase genes in the gossypol pathway exemplifies the chemical diversity of lineage-specific secondary metabolites. The G. barbadense genome advances our understanding of allopolyploidy, which will help improve cotton fiber quality.
The genome sequence of Bacillus amyloliquefaciens strain Co1-6, a plant growth-promoting rhizobacterium (PGPR) with broad-spectrum antagonistic activity against plant-pathogenic fungi, bacteria, and nematodes, consists of a single 3.9-Mb circular chromosome. The genome reveals genes putatively responsible for its promising biocontrol and PGP properties. Copyright © 2015 Köberl et al.
The genus Brachypodium contains annual and perennial species with both diploid and polyploid genomes. Like the annual species B. distachyon, some of the perennial and polyploid species have traits compatible with use as a model system (e.g. small genomes, rapid generation time, self-fertile and easy to grow). Thus, there is an opportunity to leverage the resources and knowledge developed for B. distachyon to use other Brachypodium species as models for perenniality and the regulation and evolution of polyploid genomes. There are two factors driving an increased interest in perenniality. First, several perennial grasses are being developed as biomass crops for the sustainable production of biofuel and it would be useful to have a perennial model system to rapidly test biotechnological crop improvement strategies for undesirable impacts on perenniality and winter hardiness. In addition, a deeper understanding of the molecular mechanisms underlying perenniality could be used to design strategies for improving energy crops, for example, by changing resource allocation during growth or by altering the onset of dormancy. The second factor driving increased interest in perenniality is the potential environmental benefits of developing perennial grain crops. B. sylvaticum is a perennial with attributes suitable for use as a perennial model system. A high efficiency transformation system has been developed and a genome sequencing project is underway. Since many important crops, including emerging biomass crops, are polyploid, there is a pressing need to understand the rules governing the evolution and regulation of polyploid genomes. Unfortunately, it is difficult to study polyploid crop genomes because of their size and the difficulty of manipulating those plants in the laboratory. By contrast, B. hybridum has a small polyploid genome and is easy to work with in the laboratory. In addition, analysis of the B. hybridum genome, will be greatly aided by the genome sequences of the two extant diploid species (B. distachyon and B. stacei) that apparently gave rise to B. hybridum. Availability of high quality reference genomes for these three species will be a powerful resource for the study of polyploidy.
Here we report the draft genome sequence of perennial ryegrass (Lolium perenne), an economically important forage and turf grass species that is widely cultivated in temperate regions worldwide. It is classified along with wheat, barley, oats and Brachypodium distachyon in the Pooideae sub-family of the grass family (Poaceae). Transcriptome data was used to identify 28 455 gene models, and we utilized macro-co-linearity between perennial ryegrass and barley, and synteny within the grass family, to establish a synteny-based linear gene order. The gametophytic self-incompatibility mechanism enables the pistil of a plant to reject self-pollen and therefore promote out-crossing. We have used the sequence assembly to characterize transcriptional changes in the stigma during pollination with both compatible and incompatible pollen. Characterization of the pollen transcriptome identified homologs to pollen allergens from a range of species, many of which were expressed to very high levels in mature pollen grains, and are potentially involved in the self-incompatibility mechanism. The genome sequence provides a valuable resource for future breeding efforts based on genomic prediction, and will accelerate the development of new varieties for more productive grasslands.© 2015 The Authors The Plant Journal © 2015 John Wiley & Sons Ltd.
Campylobacter lari is frequently isolated from shore birds and can cause illness in humans. Here, we report the draft whole-genome sequence of a urease-positive strain of C. lari that was isolated in estuarial water on the coast of Delaware, USA. Copyright © 2015 Meinersmann et al.
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