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Plasticity of repetitive DNA sequences within a bacterial (Type IV) secretion system component.


ABSTRACT: DNA rearrangement permits bacteria to regulate gene content and expression. In Helicobacter pylori, cagY, which contains an extraordinary number of direct DNA repeats, encodes a surface-exposed subunit of a (type IV) bacterial secretory system. Examining potential DNA rearrangements involving the cagY repeats indicated that recombination events invariably yield in-frame open reading frames, producing alternatively expressed genes. In individual hosts, H. pylori cell populations include strains that produce CagY proteins that differ in size, due to the predicted in-frame deletions or duplications, and elicit minimal or no host antibody recognition. Using repetitive DNA, H. pylori rearrangements in a host-exposed subunit of a conserved bacterial secretion system may permit a novel form of antigenic evasion.

SUBMITTER: Aras RA 

PROVIDER: S-EPMC2194252 | biostudies-literature | 2003 Nov

REPOSITORIES: biostudies-literature

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Plasticity of repetitive DNA sequences within a bacterial (Type IV) secretion system component.

Aras Rahul A RA   Fischer Wolfgang W   Perez-Perez Guillermo I GI   Crosatti MariaLuisa M   Ando Takafumi T   Haas Rainer R   Blaser Martin J MJ  

The Journal of experimental medicine 20031027 9


DNA rearrangement permits bacteria to regulate gene content and expression. In Helicobacter pylori, cagY, which contains an extraordinary number of direct DNA repeats, encodes a surface-exposed subunit of a (type IV) bacterial secretory system. Examining potential DNA rearrangements involving the cagY repeats indicated that recombination events invariably yield in-frame open reading frames, producing alternatively expressed genes. In individual hosts, H. pylori cell populations include strains t  ...[more]

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