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Macromolecular assembly of polycystin-2 intracytosolic C-terminal domain.


ABSTRACT: Mutations in PKD2 are responsible for approximately 15% of the autosomal dominant polycystic kidney disease cases. This gene encodes polycystin-2, a calcium-permeable cation channel whose C-terminal intracytosolic tail (PC2t) plays an important role in its interaction with a number of different proteins. In the present study, we have comprehensively evaluated the macromolecular assembly of PC2t homooligomer using a series of biophysical and biochemical analyses. Our studies, based on a new delimitation of PC2t, have revealed that it is capable of assembling as a homotetramer independently of any other portion of the molecule. Our data support this tetrameric arrangement in the presence and absence of calcium. Molecular dynamics simulations performed with a modified all-atoms structure-based model supported the PC2t tetrameric assembly, as well as how different populations are disposed in solution. The simulations demonstrated, indeed, that the best-scored structures are the ones compatible with a fourfold oligomeric state. These findings clarify the structural properties of PC2t domain and strongly support a homotetramer assembly of PC2.

SUBMITTER: Ferreira FM 

PROVIDER: S-EPMC3116388 | biostudies-literature | 2011 Jun

REPOSITORIES: biostudies-literature

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Macromolecular assembly of polycystin-2 intracytosolic C-terminal domain.

Ferreira Frederico M FM   Oliveira Leandro C LC   Germino Gregory G GG   Onuchic José N JN   Onuchic Luiz F LF  

Proceedings of the National Academy of Sciences of the United States of America 20110527 24


Mutations in PKD2 are responsible for approximately 15% of the autosomal dominant polycystic kidney disease cases. This gene encodes polycystin-2, a calcium-permeable cation channel whose C-terminal intracytosolic tail (PC2t) plays an important role in its interaction with a number of different proteins. In the present study, we have comprehensively evaluated the macromolecular assembly of PC2t homooligomer using a series of biophysical and biochemical analyses. Our studies, based on a new delim  ...[more]

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