Results 281 to 290 of about 39,725 (303)
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Phylogenomic Networks of Microbial Genome Evolution
2015Phylogenomics is aimed at studying functional and evolutionary aspects of genome biology using phylogenetic analysis of whole genomes. Current approaches to genome phylogenies are commonly founded in terms of phylogenetic trees. However, several evolutionary processes are non tree-like in nature, including recombination and lateral gene transfer (LGT).
Tal Dagan +3 more
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Genomics and Evolution of Microbial Eukaryotes
2006Abstract Genomics and Evolution of Eukaryotic Microbes synthesizes the rapidly emerging fields of eukaryotic diversity and genome evolution. Eukaryotes (cells with nuclei) evolved as microbes and have existed on Earth for approximately two billion years. The tremendous diversity of eukaryotic microbes (protists) is often overlooked by
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Microbial genome analysis: insights into virulence, host adaptation and evolution
Nature Reviews Genetics, 2000Genome analysis of microbial pathogens has provided unique insights into their virulence, host adaptation and evolution. Common themes have emerged, including lateral gene transfer among enteric pathogens, genome decay among obligate intracellular pathogens and antigenic variation among mucosal pathogens.
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Analyzing Patterns of Microbial Evolution Using the Mauve Genome Alignment System
2007During the course of evolution, genomes can undergo large-scale mutation events such as rearrangement and lateral transfer. Such mutations can result in significant variations in gene order and gene content among otherwise closely related organisms.
Aaron E, Darling +3 more
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Genetica, 2000
Computational analysis of complete genomes, followed by experimental testing of emerging hypotheses--the area of research often referred to as 'functional genomics'--aims at deciphering the wealth of information contained in genome sequences and at using it to improve our understanding of the mechanisms of cell function.
M Y, Galperin, E V, Koonin
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Computational analysis of complete genomes, followed by experimental testing of emerging hypotheses--the area of research often referred to as 'functional genomics'--aims at deciphering the wealth of information contained in genome sequences and at using it to improve our understanding of the mechanisms of cell function.
M Y, Galperin, E V, Koonin
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Evolution of microbial genomics: conceptual shifts over a century
Ramya Manjunath +2 moreexaly +2 more sources
How can microbial population genomics inform community ecology?
Philosophical Transactions of the Royal Society B: Biological Sciences, 2020David Vaninsberghe +2 more
exaly
Evolution of genomic diversity in natural microbial populations
Life on Earth is immensely diverse. The largest fraction of genomic diversity is encoded in the uncultivated and understudied microbial populations that inhabit every corner of the planet. Because of the elusive nature of uncultivated microbes, the evolutionary processes that govern the generation and maintenance of genomic diversity in their genomes ...openaire +1 more source
Integrating sequence, evolution and functional genomics in regulatory genomics
Genome Biology, 2009Martin Vingron +2 more
exaly