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Comparative promoter analysis allows de novo identification of specialized cell junction-associated proteins.


ABSTRACT: Shared transcription factor binding sites that are conserved in distance and orientation help control the expression of gene products that act together in the same biological context. New bioinformatics approaches allow the rapid characterization of shared promoter structures and can be used to find novel interacting molecules. Here, these principles are demonstrated by using molecules linked to the unique functional unit of the glomerular slit diaphragm. An evolutionarily conserved promoter model was generated by comparative genomics in the proximal promoter regions of the slit diaphragm-associated molecule nephrin. Phylogenetic promoter fingerprints of known elements of the slit diaphragm complex identified the nephrin model in the promoter region of zonula occludens-1 (ZO-1). Genome-wide scans using this promoter model effectively predicted a previously unrecognized slit diaphragm molecule, cadherin-5. Nephrin, ZO-1, and cadherin-5 mRNA showed stringent coexpression across a diverse set of human glomerular diseases. Comparative promoter analysis can identify regulatory pathways at work in tissue homeostasis and disease processes.

SUBMITTER: Cohen CD 

PROVIDER: S-EPMC1421338 | biostudies-literature | 2006 Apr

REPOSITORIES: biostudies-literature

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Comparative promoter analysis allows de novo identification of specialized cell junction-associated proteins.

Cohen Clemens D CD   Klingenhoff Andreas A   Boucherot Anissa A   Nitsche Almut A   Henger Anna A   Brunner Bodo B   Schmid Holger H   Merkle Monika M   Saleem Moin A MA   Koller Klaus-Peter KP   Werner Thomas T   Gröne Hermann-Josef HJ   Nelson Peter J PJ   Kretzler Matthias M  

Proceedings of the National Academy of Sciences of the United States of America 20060331 15


Shared transcription factor binding sites that are conserved in distance and orientation help control the expression of gene products that act together in the same biological context. New bioinformatics approaches allow the rapid characterization of shared promoter structures and can be used to find novel interacting molecules. Here, these principles are demonstrated by using molecules linked to the unique functional unit of the glomerular slit diaphragm. An evolutionarily conserved promoter mod  ...[more]

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