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Literature DB >> 15475965

A mutant chaperonin with rearranged inter-ring electrostatic contacts and temperature-sensitive dissociation.

B Trevor Sewell¹, Robert B Best, Shaoxia Chen, Alan M Roseman, George W Farr, Arthur L Horwich, Helen R Saibil.

Abstract

The chaperonin GroEL assists protein folding through ATP-dependent, cooperative movements that alternately create folding chambers in its two rings. The substitution E461K at the interface between these two rings causes temperature-sensitive, defective protein folding in Escherichia coli. To understand the molecular defect, we have examined the mutant chaperonin by cryo-EM. The normal out-of-register alignment of contacts between subunits of opposing wild-type rings is changed in E461K to an in-register one. This is associated with loss of cooperativity in ATP binding and hydrolysis. Consistent with the loss of negative cooperativity between rings, the cochaperonin GroES binds simultaneously to both E461K rings. These GroES-bound structures were unstable at higher temperature, dissociating into complexes of single E461K rings associated with GroES. Lacking the allosteric signal from the opposite ring, these complexes cannot release their GroES and become trapped, dead-end states.

Entities: Chemical Gene Mutation Species

Mesh：

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Year: 2004 PMID： 15475965 DOI： 10.1038/nsmb844

Source DB: PubMed Journal: Nat Struct Mol Biol ISSN： 1545-9985 Impact factor: 15.369

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Cited

18 in total

1. Crystal structures of a group II chaperonin reveal the open and closed states associated with the protein folding cycle.

Authors: Jose H Pereira; Corie Y Ralston; Nicholai R Douglas; Daniel Meyer; Kelly M Knee; Daniel R Goulet; Jonathan A King; Judith Frydman; Paul D Adams
Journal: J Biol Chem Date: 2010-06-23 Impact factor: 5.157

2. Ionic interactions at both inter-ring contact sites of GroEL are involved in transmission of the allosteric signal: a time-resolved infrared difference study.

Authors: Begoña Sot; Fritzthof von Germar; Werner Mäntele; Jose María Valpuesta; Stefka G Taneva; Arturo Muga
Journal: Protein Sci Date: 2005-08-04 Impact factor: 6.725

3. Global aggregation of newly translated proteins in an Escherichia coli strain deficient of the chaperonin GroEL.

Authors: Eli Chapman; George W Farr; Renata Usaite; Krystyna Furtak; Wayne A Fenton; Tapan K Chaudhuri; Elise R Hondorp; Rowena G Matthews; Sharon G Wolf; John R Yates; Marc Pypaert; Arthur L Horwich
Journal: Proc Natl Acad Sci U S A Date: 2006-10-16 Impact factor: 11.205

4. Allosteric transitions in the chaperonin GroEL are captured by a dominant normal mode that is most robust to sequence variations.

Authors: Wenjun Zheng; Bernard R Brooks; D Thirumalai
Journal: Biophys J Date: 2007-06-08 Impact factor: 4.033

5. Inter-ring communication allows the GroEL chaperonin complex to distinguish between different substrates.

Authors: Esther van Duijn; Albert J R Heck; Saskia M van der Vies
Journal: Protein Sci Date: 2007-05 Impact factor: 6.725

6. Essential function of the built-in lid in the allosteric regulation of eukaryotic and archaeal chaperonins.

Authors: Stefanie Reissmann; Charles Parnot; Christopher R Booth; Wah Chiu; Judith Frydman
Journal: Nat Struct Mol Biol Date: 2007-04-29 Impact factor: 15.369

7. Ring Separation Highlights the Protein-Folding Mechanism Used by the Phage EL-Encoded Chaperonin.

Authors: Sudheer K Molugu; Zacariah L Hildenbrand; David Gene Morgan; Michael B Sherman; Lilin He; Costa Georgopoulos; Natalia V Sernova; Lidia P Kurochkina; Vadim V Mesyanzhinov; Konstantin A Miroshnikov; Ricardo A Bernal
Journal: Structure Date: 2016-03-17 Impact factor: 5.006