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Journal home Advance online publication Current issue Archive Press releases Supplements Focus Guide to authors Online submission Permissions For referees Free online issue Contact the journal Subscribe Advertising work@npg naturereprints About this site For librarians   NPG Resources Nature Nature Cell Biology Nature Reviews Molecular Cell Biology The EMBO Journal Nature Reports Avian Flu NPG Subject areas Biotechnology Cancer Chemistry Clinical Medicine Dentistry Development Drug Discovery Earth Sciences Evolution & Ecology Genetics Immunology Materials Science Medical Research Microbiology Molecular Cell Biology Neuroscience Pharmacology Physics Browse all publications Article Nature Structural & Molecular Biology  11, 338 - 345 (2004) Published online: 14 March 2004; | doi:10.1038/nsmb748 The Mad2 spindle checkpoint protein has two distinct natively folded states Xuelian Luo1, 2, 5, Zhanyun Tang1, 5, Guohong Xia1, 5, Katja Wassmann3, Tomohiro Matsumoto4, Josep Rizo1, 2 & Hongtao Yu1 1  Department of Pharmacology, The University of Texas Southwestern Medical Center, 5323 Harry Hines Boulevard, Dallas, Texas 75390, USA. 2  Department of Biochemistry, The University of Texas Southwestern Medical Center, 5323 Harry Hines Boulevard, Dallas, Texas 75390, USA. 3  Laboratoire de Biologie Cellulaire du Développement, UMR7622, CNRS, Université Pierre et Marie Curie, 9 Quai Saint Bernard, 75005 Paris, France. 4  Radiation Biology Center, Kyoto University, Yoshida-Konoe cho, Sakyo ku, Kyoto, Japan. 5  These authors contributed equally to this work. Correspondence should be addressed to Josep Rizo jose@arnie.swmed.edu or Hongtao Yu hongtao.yu@utsouthwestern.eduThe spindle checkpoint delays chromosome segregation in response to misaligned sister chromatids during mitosis, thus ensuring the fidelity of chromosome inheritance. Through binding to Cdc20, the Mad2 spindle checkpoint protein inhibits the target of this checkpoint, the ubiquitin protein ligase APC/CCdc20. We now show that without cofactor binding or covalent modification Mad2 adopts two distinct folded conformations at equilibrium (termed N1-Mad2 and N2-Mad2). The structure of N2-Mad2 has been determined by NMR spectroscopy. N2-Mad2 is much more potent in APC/C inhibition. Overexpression of a Mad2 mutant that specifically sequesters N2-Mad2 partially blocks checkpoint signaling in living cells. The two Mad2 conformers interconvert slowly in vitro, but interconversion is accelerated by a fragment of Mad1, an upstream regulator of Mad2. Our results suggest that the unusual two-state behavior of Mad2 is critical for spindle checkpoint signaling. MORE ARTICLES LIKE THIS These links to content published by NPG are automatically generated. NEWS AND VIEWS The kinetochore NUPtials Nature Cell Biology News and Views (01 Nov 2003) RASSF1A, the new guardian of mitosis Nature Genetics News and Views (01 Feb 2004) See all 3 matches for News And Views RESEARCH Conformation-specific binding of p31 comet antagonizes the function of Mad2 in the spindle checkpoint The EMBO Journal Article (04 Aug 2004) Determinants of conformational dimerization of Mad2 and its inhibition by p31 comet The EMBO Journal Article (22 Mar 2006) See all 72 matches for Research  Top Abstract Previous | Next Table of contents Full text Download PDF Send to a friend Open Innovation Challenges Optimizing Sub-cellular Localization Tags Deadline: Jan 31 2010 Reward: $20,000 USD The Seeker is looking for methods to optimize sub-cellular localization tags for protein expression.... Novel Approaches to Protecting Maize from Insect Damage Deadline: Jan 31 2010 Reward: $20,000 USD The Seeker is looking for novel approaches to protecting maize from insect damage. This Challenge re... More Challenges Powered by: nature jobs Environmental / Biotreatability Engineer Praj Matrix - Praj Industries Ltd Pune, Maharashtra Pune-411021 India Faculty Position Donald Danforth Plant Science Center St Louis, MO 63132 United States More science jobs Post a job for free Figures & Tables Supplementary info Export citation Search buyers guide:   ADVERTISEMENT

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