crystal structure and dimerization interface of GADD45γ

Gadd45 proteins are recognized as tumor and autoimmune suppressors whose expression can be induced by genotoxic stresses. These proteins are involved in cell cycle control, growth arrest, and apoptosis through interactions with a wide variety of binding partners. We report here the crystal structure...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2008-05, Vol.105 (18), p.6566-6571
Hauptverfasser:	Schrag, Joseph D, Jiralerspong, Sarn, Banville, Myriam, Jaramillo, Maria Luz, O'Connor-McCourt, Maureen D
Format:	Artikel
Sprache:	eng
Schlagworte:	APOPTOSIS Biological Sciences CELL CYCLE Cell growth CRYSTAL STRUCTURE Crystals DIMERIZATION DIMERS EVALUATION GROWTH Hep G2 cells INHIBITION MATERIALS SCIENCE MONOMERS MUTANTS national synchrotron light source NEOPLASMS Protein isoforms PROTEINS RESIDUES STRESSES SYMMETRY
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container_end_page	6571
container_issue	18
container_start_page	6566
container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Schrag, Joseph D Jiralerspong, Sarn Banville, Myriam Jaramillo, Maria Luz O'Connor-McCourt, Maureen D
description	Gadd45 proteins are recognized as tumor and autoimmune suppressors whose expression can be induced by genotoxic stresses. These proteins are involved in cell cycle control, growth arrest, and apoptosis through interactions with a wide variety of binding partners. We report here the crystal structure of Gadd45γ, which reveals a fold comprising an αβα sandwich with a central five-stranded mixed β-sheet with α-helices packed on either side. Based on crystallographic symmetry we identified the dimer interface of Gadd45γ dimers by generating point mutants that compromised dimerization while leaving the tertiary structure of the monomer intact. The dimer interface comprises a four-helix bundle involving residues that are the most highly conserved among Gadd45 isoforms. Cell-based assays using these point mutants demonstrate that dimerization is essential for growth inhibition. This structural information provides a new context for evaluation of the plethora of protein-protein interactions that govern the many functions of the Gadd45 family of proteins.
doi_str_mv	10.1073/pnas.0800086105
format	Article
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subjects	APOPTOSIS Biological Sciences CELL CYCLE Cell growth CRYSTAL STRUCTURE Crystals DIMERIZATION DIMERS EVALUATION GROWTH Hep G2 cells INHIBITION MATERIALS SCIENCE MONOMERS MUTANTS national synchrotron light source NEOPLASMS Protein isoforms PROTEINS RESIDUES STRESSES SYMMETRY
title	crystal structure and dimerization interface of GADD45γ
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