Impact of Recombination on the Base Composition of Bacteria and Archaea.
about
Carbon limitation drives GC content evolution of a marine bacterium in an individual-based genome-scale model.Unifying the global phylogeny and environmental distribution of ammonia-oxidising archaea based on amoA genes.Tetrad analysis in plants and fungi finds large differences in gene conversion rates but no GC bias.Modeling of the GC content of the substituted bases in bacterial core genomes
P2860
Impact of Recombination on the Base Composition of Bacteria and Archaea.
description
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name
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@en
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@nl
type
label
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@en
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@nl
prefLabel
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@en
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@nl
P2860
P356
P1476
Impact of Recombination on the Base Composition of Bacteria and Archaea.
@en
P2093
Howard Ochman
Louis-Marie Bobay
P2860
P304
P356
10.1093/MOLBEV/MSX189
P577
2017-10-01T00:00:00Z