Lateral gene transfer and the nature of bacterial innovation
H Ochman, JG Lawrence, EA Groisman - nature, 2000 - nature.com
H Ochman, JG Lawrence, EA Groisman
nature, 2000•nature.comUnlike eukaryotes, which evolve principally through the modification of existing genetic
information, bacteria have obtained a significant proportion of their genetic diversity through
the acquisition of sequences from distantly related organisms. Horizontal gene transfer
produces extremely dynamic genomes in which substantial amounts of DNA are introduced
into and deleted from the chromosome. These lateral transfers have effectively changed the
ecological and pathogenic character of bacterial species.
information, bacteria have obtained a significant proportion of their genetic diversity through
the acquisition of sequences from distantly related organisms. Horizontal gene transfer
produces extremely dynamic genomes in which substantial amounts of DNA are introduced
into and deleted from the chromosome. These lateral transfers have effectively changed the
ecological and pathogenic character of bacterial species.
Abstract
Unlike eukaryotes, which evolve principally through the modification of existing genetic information, bacteria have obtained a significant proportion of their genetic diversity through the acquisition of sequences from distantly related organisms. Horizontal gene transfer produces extremely dynamic genomes in which substantial amounts of DNA are introduced into and deleted from the chromosome. These lateral transfers have effectively changed the ecological and pathogenic character of bacterial species.
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