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Literature DB >> 26639779

Mechanistic insights into bacterial AAA+ proteases and protein-remodelling machines.

Adrian O Olivares¹, Tania A Baker¹, Robert T Sauer¹.

Abstract

To maintain protein homeostasis, AAA+ proteolytic machines degrade damaged and unneeded proteins in bacteria, archaea and eukaryotes. This process involves the ATP-dependent unfolding of a target protein and its subsequent translocation into a self-compartmentalized proteolytic chamber. Related AAA+ enzymes also disaggregate and remodel proteins. Recent structural and biochemical studies, in combination with direct visualization of unfolding and translocation in single-molecule experiments, have illuminated the molecular mechanisms behind these processes and suggest how remodelling of macromolecular complexes by AAA+ enzymes could occur without global denaturation. In this Review, we discuss the structural and mechanistic features of AAA+ proteases and remodelling machines, focusing on the bacterial ClpXP and ClpX as paradigms. We also consider the potential of these enzymes as antibacterial targets and outline future challenges for the field.

Entities: Chemical Disease Gene Mutation Species

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Year: 2015 PMID： 26639779 PMCID： PMC5458636 DOI： 10.1038/nrmicro.2015.4

Source DB: PubMed Journal: Nat Rev Microbiol ISSN： 1740-1526 Impact factor: 60.633

108 in total

Review 1. The tmRNA system for translational surveillance and ribosome rescue.

Authors: Sean D Moore; Robert T Sauer
Journal: Annu Rev Biochem Date: 2007 Impact factor: 23.643

2. Linkage between ATP consumption and mechanical unfolding during the protein processing reactions of an AAA+ degradation machine.

Authors: Jon A Kenniston; Tania A Baker; Julio M Fernandez; Robert T Sauer
Journal: Cell Date: 2003-08-22 Impact factor: 41.582

Review 3. Design principles of a universal protein degradation machine.

Authors: Mary E Matyskiela; Andreas Martin
Journal: J Mol Biol Date: 2012-11-09 Impact factor: 5.469

4. Redundant in vivo proteolytic activities of Escherichia coli Lon and the ClpYQ (HslUV) protease.

Authors: W F Wu; Y Zhou; S Gottesman
Journal: J Bacteriol Date: 1999-06 Impact factor: 3.490

5. Stepwise unfolding of a β barrel protein by the AAA+ ClpXP protease.

Authors: Andrew R Nager; Tania A Baker; Robert T Sauer
Journal: J Mol Biol Date: 2011-07-29 Impact factor: 5.469

6. Deciphering the Roles of Multicomponent Recognition Signals by the AAA+ Unfoldase ClpX.

Authors: Lorraine Ling; Sherwin P Montaño; Robert T Sauer; Phoebe A Rice; Tania A Baker
Journal: J Mol Biol Date: 2015-03-19 Impact factor: 5.469

7. Acyldepsipeptide antibiotics induce the formation of a structured axial channel in ClpP: A model for the ClpX/ClpA-bound state of ClpP.

Authors: Dominic Him Shun Li; Yu Seon Chung; Melanie Gloyd; Ebenezer Joseph; Rodolfo Ghirlando; Gerard D Wright; Yi-Qiang Cheng; Michael R Maurizi; Alba Guarné; Joaquin Ortega
Journal: Chem Biol Date: 2010-09-24

8. Stochastic but highly coordinated protein unfolding and translocation by the ClpXP proteolytic machine.

Authors: Juan Carlos Cordova; Adrian O Olivares; Yongdae Shin; Benjamin M Stinson; Stephane Calmat; Karl R Schmitz; Marie-Eve Aubin-Tam; Tania A Baker; Matthew J Lang; Robert T Sauer
Journal: Cell Date: 2014-07-31 Impact factor: 41.582

Review 9. Recognition and processing of ubiquitin-protein conjugates by the proteasome.

Authors: Daniel Finley
Journal: Annu Rev Biochem Date: 2009 Impact factor: 23.643

10. Co-evolution of multipartite interactions between an extended tmRNA tag and a robust Lon protease in Mycoplasma.

Authors: Zhiyun Ge; A Wali Karzai
Journal: Mol Microbiol Date: 2009-11-13 Impact factor: 3.501

114 in total

1. Population Distributions from Native Mass Spectrometry Titrations Reveal Nearest-Neighbor Cooperativity in the Ring-Shaped Oligomeric Protein TRAP.

Authors: Melody L Holmquist; Elihu C Ihms; Paul Gollnick; Vicki H Wysocki; Mark P Foster
Journal: Biochemistry Date: 2020-06-26 Impact factor: 3.162

2. Ratchet-like polypeptide translocation mechanism of the AAA+ disaggregase Hsp104.

Authors: Stephanie N Gates; Adam L Yokom; JiaBei Lin; Meredith E Jackrel; Alexandrea N Rizo; Nathan M Kendsersky; Courtney E Buell; Elizabeth A Sweeny; Korrie L Mack; Edward Chuang; Mariana P Torrente; Min Su; James Shorter; Daniel R Southworth
Journal: Science Date: 2017-06-15 Impact factor: 47.728

Review 3. Spiraling in Control: Structures and Mechanisms of the Hsp104 Disaggregase.

Authors: James Shorter; Daniel R Southworth
Journal: Cold Spring Harb Perspect Biol Date: 2019-08-01 Impact factor: 10.005

Review 4. Substrate selection by the proteasome through initiation regions.

Authors: Takuya Tomita; Andreas Matouschek
Journal: Protein Sci Date: 2019-05-23 Impact factor: 6.725

5. Proteolytic control of the mitochondrial calcium uniporter complex.

Authors: Chen-Wei Tsai; Yujiao Wu; Ping-Chieh Pao; Charles B Phillips; Carole Williams; Christopher Miller; Matthew Ranaghan; Ming-Feng Tsai
Journal: Proc Natl Acad Sci U S A Date: 2017-04-10 Impact factor: 11.205

6. Cell biology: Phosphate on, rubbish out.

Authors: Arti Tripathi; Susan Gottesman
Journal: Nature Date: 2016-11-03 Impact factor: 49.962

7. Reversible inhibition of the ClpP protease via an N-terminal conformational switch.

Authors: Siavash Vahidi; Zev A Ripstein; Massimiliano Bonomi; Tairan Yuwen; Mark F Mabanglo; Jordan B Juravsky; Kamran Rizzolo; Algirdas Velyvis; Walid A Houry; Michele Vendruscolo; John L Rubinstein; Lewis E Kay
Journal: Proc Natl Acad Sci U S A Date: 2018-06-25 Impact factor: 11.205