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Birth and death of genes linked to chromosomal inversion.


ABSTRACT: The birth and death of genes is central to adaptive evolution, yet the underlying genome dynamics remain elusive. The availability of closely related complete genome sequences helps to follow changes in gene contents and clarify their relationship to overall genome organization. Helicobacter pylori, bacteria in our stomach, are known for their extreme genome plasticity through mutation and recombination and will make a good target for such an analysis. In comparing their complete genome sequences, we found that gain and loss of genes (loci) for outer membrane proteins, which mediate host interaction, occurred at breakpoints of chromosomal inversions. Sequence comparison there revealed a unique mechanism of DNA duplication: DNA duplication associated with inversion. In this process, a DNA segment at one chromosomal locus is copied and inserted, in an inverted orientation, into a distant locus on the same chromosome, while the entire region between these two loci is also inverted. Recognition of this and three more inversion modes, which occur through reciprocal recombination between long or short sequence similarity or adjacent to a mobile element, allowed reconstruction of synteny evolution through inversion events in this species. These results will guide the interpretation of extensive DNA sequencing results for understanding long- and short-term genome evolution in various organisms and in cancer cells.

SUBMITTER: Furuta Y 

PROVIDER: S-EPMC3029772 | biostudies-literature | 2011 Jan

REPOSITORIES: biostudies-literature

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Birth and death of genes linked to chromosomal inversion.

Furuta Yoshikazu Y   Kawai Mikihiko M   Yahara Koji K   Takahashi Noriko N   Handa Naofumi N   Tsuru Takeshi T   Oshima Kenshiro K   Yoshida Masaru M   Azuma Takeshi T   Hattori Masahira M   Uchiyama Ikuo I   Kobayashi Ichizo I  

Proceedings of the National Academy of Sciences of the United States of America 20110106 4


The birth and death of genes is central to adaptive evolution, yet the underlying genome dynamics remain elusive. The availability of closely related complete genome sequences helps to follow changes in gene contents and clarify their relationship to overall genome organization. Helicobacter pylori, bacteria in our stomach, are known for their extreme genome plasticity through mutation and recombination and will make a good target for such an analysis. In comparing their complete genome sequence  ...[more]

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