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Genomic Diversity (genomic + diversity)
Selected AbstractsGenomic diversity of Staphylococcus epidermidis isolates from the intensive care unitCLINICAL MICROBIOLOGY AND INFECTION, Issue 7 2005S. F. FitzGerald No abstract is available for this article. [source] The evolution of reproductive and genomic diversity in ray-finned fishes: insights from phylogeny and comparative analysisJOURNAL OF FISH BIOLOGY, Issue 1 2006J. E. Mank Collectively, ray-finned fishes (Actinopterygii) display far more diversity in many reproductive and genomic features than any other major vertebrate group. Recent large-scale comparative phylogenetic analyses have begun to reveal the evolutionary patterns and putative causes for much of this diversity. Several such recent studies have offered clues to how different reproductive syndromes evolved in these fishes, as well as possible physiological and genomic triggers. In many cases, repeated independent origins of complex reproductive strategies have been uncovered, probably reflecting convergent selection operating on common suites of underlying genes and hormonal controls. For example, phylogenetic analyses have uncovered multiple origins and predominant transitional pathways in the evolution of alternative male reproductive tactics, modes of parental care and mechanisms of sex determination. They have also shown that sexual selection in these fishes is repeatedly associated with particular reproductive strategies. Collectively, studies on reproductive and genomic diversity across the Actinopterygii illustrate both the strengths and the limitations of comparative phylogenetic approaches on large taxonomic scales. [source] Cytoplasmic phylogeny and evidence of cyto-nuclear co-adaptation in Arabidopsis thalianaTHE PLANT JOURNAL, Issue 5 2010Michaël Moison Summary In recent years Arabidopsis thaliana has become a model species for genomic variability and adaptation studies. Although impressive quantities of data have been gathered on the nuclear genomic diversity of this species, little has been published regarding its cytoplasmic diversity. We analyzed the diversity of plastid (pt) and mitochondrial (mt) genomes among 95 accessions, covering most Arabidopsis geographic origins. Four intergenic regions of the pt genome were sequenced, and a total of 68 polymorphisms and 65 pt haplotypes were identified. Several strategies were developed to identify mt polymorphisms among a subset of 14 accessions. Fifteen polymorphisms were further developed as PCR-based markers and used to analyze the whole set of 95 accessions. Using statistical parsimony, we built pt and mt phylogenetic networks of haplotype groups. To root the pt network, the pt intergenic regions of two related Arabidopsis species, Arabidopsis lyrata and Arabidopsis arenosa, were also sequenced. The mt and pt phylogenies are highly congruent and could be combined into a single cytoplasmic phylogeny. To estimate whether co-adaptation between nuclear and cytoplasmic genomes exists in A. thaliana, we tested the germination capacity in challenging conditions of 27 pairs of reciprocal F2 families. We found that the cytoplasm donor had a significant effect on the germination capacity of some F2 families. [source] Sequence analysis of measles virus strains collected during the pre- and early-vaccination era in Denmark reveals a considerable diversity of ancient strainsAPMIS, Issue 2 2002L. Siig Christensen A total of 199 serum samples from patients with measles collected in Denmark, Greenland and the Faroe Islands from 1964 to 1983 were analysed by PCR. Measles virus (MV) RNA could be detected in 38 (19%) of the samples and a total of 18 strains were subjected to partial sequence analysis of the hemagglutinin gene. The strains exhibited a considerable genomic diversity, which is at odds with the assumption that one genome type prevailed among globally circulating MV strains prior to the advent of live-attenuated vaccines. Our data indicate that the similarity of the various vaccine strains is attributed to their having originated from the same primary isolate. Consequently, it is implied that a small number of clinical manifestations of MV worldwide from which strains similar to the vaccine strain were identified were vaccine related rather than being caused by members of a persistently circulating ancient genome type. The Danish pre- and early-vaccination era MV strains seem to change the evolutionary spectrum of genome types A, C2 and E into one coherent group, suggesting that the genome types of MV strains circulating in the world at present do not represent far ranging evolutionary lineages but merely members of an evolutionary continuum of pre-vaccination era MV strains which by chance or due to an improved capability survived the worldwide partial herd immunity accomplished through vaccination. [source] Genome-based insights into the evolution of enterococciCLINICAL MICROBIOLOGY AND INFECTION, Issue 6 2010W. Van Schaik Clin Microbiol Infect 2010; 16: 527,532 Abstract It is now 15 years since the first genome of a free-living organism was sequenced. Subsequent to this milestone, a veritable avalanche of genome sequence data has revolutionized many aspects of microbiology. In this review, we discuss recent progress on the genomics of Enterococcus faecalis and Enterococcus faecium, which are the two enterococcal species that cause the large majority of enterococcal infections. We focus on the genome-based analysis of enterococcal diversity and phylogeny. Studies based on comparative genome hybridization have shown that both species exhibit considerable inter-strain genomic diversity, which is mainly linked to the variable presence of phages, plasmids, pathogenicity islands and conjugative elements. We also discuss how the advent of next-generation sequencing technologies allows for a comprehensive characterization of the gene repertoire of multiple isolates, which can be used for extremely robust analyses of diversity and population structure. [source] | ||||||||||