Microdiversity and evidence for high dispersal rates in the marine actinomycete 'Salinispora pacifica'.

In July of 2006 and January of 2008, a total of 671 marine sediment samples were collected at depths from 5 to 2012 m throughout the Fijian islands and selectively processed for the cultivation of marine actinomycetes belonging to the genus Salinispora. The primary objectives were to assess the diversity, distribution and phylogeny of 'S. pacifica', the least well studied of the three species in the genus. Employing a sequential screening method based on antibiotic sensitivity, RFLP patterns, and 16S rRNA and ITS sequence analyses, 42 of 750 isolates with Salinispora-like features were identified as 'S. pacifica'. These strains represent the first report of 'S. pacifica' from Fiji and include 15 representatives of 4 new 'S. pacifica' 16S rRNA sequence types. Among the 'S. pacifica' strains isolated, little evidence for geographical isolation emerged based on 16S, ITS or secondary metabolite biosynthetic gene fingerprinting. The inclusion of isolates from additional collection sites and other Salinispora spp. revealed a high degree of dispersal among 'S. pacifica' populations and phylogenetic support for the delineation of this lineage as a third species

Microdiversity and evidence for high dispersal rates in the marine actinomycete 'Salinispora pacifica'.

In July of 2006 and January of 2008, a total of 671 marine sediment samples were collected at depths from 5 to 2012 m throughout the Fijian islands and selectively processed for the cultivation of marine actinomycetes belonging to the genus Salinispora. The primary objectives were to assess the diversity, distribution and phylogeny of 'S. pacifica', the least well studied of the three species in the genus. Employing a sequential screening method based on antibiotic sensitivity, RFLP patterns, and 16S rRNA and ITS sequence analyses, 42 of 750 isolates with Salinispora-like features were identified as 'S. pacifica'. These strains represent the first report of 'S. pacifica' from Fiji and include 15 representatives of 4 new 'S. pacifica' 16S rRNA sequence types. Among the 'S. pacifica' strains isolated, little evidence for geographical isolation emerged based on 16S, ITS or secondary metabolite biosynthetic gene fingerprinting. The inclusion of isolates from additional collection sites and other Salinispora spp. revealed a high degree of dispersal among 'S. pacifica' populations and phylogenetic support for the delineation of this lineage as a third species

Multilocus sequence typing reveals evidence of homologous recombination linked to antibiotic resistance in the genus Salinispora.

The three closely related species that currently comprise the genus Salinispora were analyzed using a multilocus sequence typing approach targeting 48 strains derived from four geographic locations. Phylogenetic congruence and a well-supported concatenated tree provide strong support for the delineation of the three species as currently described and the basal relationship of Salinispora arenicola to the more recently diverged sister taxa S. tropica and S. pacifica. The phylogeny of the initial region of the rpoB gene sequenced was atypical, placing the related genera Micromonospora and Verrucosispora within the Salinispora clade. This phylogenetic incongruence was subsequently ascribed to a homologous-recombination event in a portion of the gene associated with resistance to compounds in the rifamycin class, which target RpoB. All S. arenicola strains produced compounds in this class and possessed resistance-conferring amino acid changes in RpoB. The phylogeny of a region of the rpoB gene that is not associated with rifamycin resistance was congruent with the other housekeeping genes. The link between antibiotic resistance and homologous recombination suggests that incongruent phylogenies provide opportunities to identify the molecular targets of secondary metabolites, an observation with potential relevance for drug discovery efforts. Low ratios of interspecies recombination to mutation, even among cooccurring strains, coupled with high levels of within-species recombination suggest that the three species have been described in accordance with natural barriers to recombination

Draft genome sequence of Lachancea lanzarotensis CBS 12615T, an ascomycetous yeast isolated from grapes

We report the genome sequencing of the yeast Lachancea lanzarotensis CBS 12615(T). The assembly comprises 24 scaffolds, for a total size of 11.46 Mbp. The annotation revealed 5,058 putative protein-coding genes. Detection of seven centromeres supports a chromosome fusion, which occurred after divergence from Lachancea thermotolerans and Lachancea kluyveri

Evolution of secondary metabolite genes in three closely related marine actinomycete species.

The marine actinomycete genus Salinispora is composed of three closely related species. These bacteria are a rich source of secondary metabolites, which are produced in species-specific patterns. This study examines the distribution and phylogenetic relationships of genes involved in the biosynthesis of secondary metabolites in the salinosporamide and staurosporine classes, which have been reported for S. tropica and S. arenicola, respectively. The focus is on "Salinispora pacifica," the most recently discovered and phylogenetically diverse member of the genus. Of 61 S. pacifica strains examined, 15 tested positive for a ketosynthase (KS) domain linked to the biosynthesis of salinosporamide K, a new compound in the salinosporamide series. Compound production was confirmed in two strains, and the domain phylogeny supports vertical inheritance from a common ancestor shared with S. tropica, which produces related compounds in the salinosporamide series. There was no evidence for interspecies recombination among salA KS sequences, providing further support for the geographic isolation of these two salinosporamide-producing lineages. In addition, staurosporine production is reported for the first time for S. pacifica, with 24 of 61 strains testing positive for staD, a key gene involved in the biosynthesis of this compound. High levels of recombination were observed between staD alleles in S. pacifica and the cooccurring yet more distantly related S. arenicola, which produces a similar series of staurosporines. The distributions and phylogenies of the biosynthetic genes examined provide insight into the complex processes driving the evolution of secondary metabolism among closely related bacterial species

Genome Sequence of the Yeast Cyberlindnera fabianii (Hansenula fabianii).

The yeast Cyberlindnera fabianii is used in wastewater treatment, fermentation of alcoholic beverages, and has caused blood infections. To assist in the accurate identification of this species, and to determine the genetic basis for properties involved in fermentation and water treatment, we sequenced and annotated the genome of C. fabianii (YJS4271)

High Complexity and Degree of Genetic Variation in Brettanomyces bruxellensis Population

Genome-wide characterization of genetic variants of a large population of individuals within the same species is essential to have a deeper insight into its evolutionary history as well as the genotype-phenotype relationship. Population genomic surveys have been performed in multiple yeast species, including the two model organisms, Saccharomyces cerevisiae and Schizosaccharomyces pombe. In this context, we sought to characterize at the population level the Brettanomyces bruxellensis yeast species, which is a major cause of wine spoilage and can contribute to the specific flavor profile of some Belgium beers. We have completely sequenced the genome of 53 B. bruxellensis strains isolated worldwide. The annotation of the reference genome allowed us to define the gene content of this species. As previously suggested, our genomic data clearly highlighted that genetic diversity variation is related to ploidy level, which is variable in the B. bruxellensis species. Genomes are punctuated by multiple loss-of-heterozygosity regions, whereas aneuploidies as well as segmental duplications are uncommon. Interestingly, triploid genomes are more prone to gene copy number variation than diploids. Finally, the pangenome of the species was reconstructed and was found to be small with few accessory genes compared with S. cerevisiae. The pangenome is composed of 5,409 ORFs (open reading frames) among which 5,106 core ORFs and 303 ORFs that are variable within the population. All these results highlight the different trajectories of species evolution and consequently the interest of establishing population genomic surveys in more populations

Salinispora pacifica sp. nov., an actinomycete from marine sediments.

A polyphasic analysis was carried out to clarify the taxonomic status of four marine actinomycete strains that share a phylogenetic relationship and phenotypic characteristics with the genus Salinispora. These strains formed a distinct lineage within the Salinispora 16S rRNA and gyrB trees and were found to possess a range of phenotypic properties and DNA:DNA hybridization values that distinguished them from the type strains of the two validly named species in this genus, Salinispora tropica (CNB-440(T), ATCC BAA-916(T)) and Salinispora arenicola (CNH-643(T), ATCC BAA-917(T)). The combined genotypic and phenotypic data support this conclusion. It is proposed that the strains be designated as Salinispora pacifica sp. nov., the type strain of which is CNR-114(T) (DSMZ YYYYT = KACC 17160(T))

Spatial and temporal dynamics of SAR11 marine bacteria across a nearshore to offshore transect in the tropical Pacific Ocean

Surveys of microbial communities across transitions coupled with contextual measures of the environment provide a useful approach to dissect the factors determining distributions of microorganisms across ecological niches. Here, monthly time-series samples of surface seawater along a transect spanning the nearshore coastal environment within Kāneʻohe Bay on the island of Oʻahu, Hawaiʻi, and the adjacent offshore environment were collected to investigate the diversity and abundance of SAR11 marine bacteria (order Pelagibacterales) over a 2-year time period. Using 16S ribosomal RNA gene amplicon sequencing, the spatiotemporal distributions of major SAR11 subclades and exact amplicon sequence variants (ASVs) were evaluated. Seven of eight SAR11 subclades detected in this study showed distinct subclade distributions across the coastal to offshore environments. The SAR11 community was dominated by seven (of 106 total) SAR11 ASVs that made up an average of 77% of total SAR11. These seven ASVs spanned five different SAR11 subclades (Ia, Ib, IIa, IV, and Va), and were recovered from all samples collected from either the coastal environment, the offshore, or both. SAR11 ASVs were more often restricted spatially to coastal or offshore environments (64 of 106 ASVs) than they were shared among coastal, transition, and offshore environments (39 of 106 ASVs). Overall, offshore SAR11 communities contained a higher diversity of SAR11 ASVs than their nearshore counterparts, with the highest diversity within the little-studied subclade IIa. This study reveals ecological differentiation of SAR11 marine bacteria across a short physiochemical gradient, further increasing our understanding of how SAR11 genetic diversity partitions into distinct ecological units