Direct and adaptor-mediated substrate recognition by an essential AAA+ protease. Chien, P., Perchuk, B. S, Laub, M. T, Sauer, R. T, & Baker, T. A Proceedings of the National Academy of Sciences of the United States of America, 104(16):6590--6595, April, 2007.
Direct and adaptor-mediated substrate recognition by an essential AAA+ protease [link]Paper  doi  abstract   bibtex   
Regulated proteolysis is required to execute many cellular programs. In Caulobacter crescentus, timely degradation of the master regulator CtrA by ClpXP protease is essential for cell-cycle progression and requires the colocalization of CtrA and RcdA. Here, we establish a biochemical framework to understand regulated proteolysis in C. crescentus and show that RcdA is not an adaptor for CtrA degradation. CtrA is rapidly degraded without RcdA and is recognized with an affinity comparable with the best ClpXP substrates. In contrast, SspBalpha, the alpha-proteobacterial homolog of SspB, functions as an adaptor to enhance degradation of specific substrates. Cargo-free SspBalpha is also itself a substrate of ClpXP-mediated proteolysis. Thus, our analysis (i) reveals the consequences of both direct and adaptor-stimulated recognition in mediating substrate specificity in vitro, (ii) reveals a potential regulatory role of controlled adaptor stability, and (iii) suggests that cell-cycle regulation of CtrA stability depends on repression of its intrinsic degradation rather than adaptor-mediated enhancement.
@article{chien_direct_2007,
	title = {Direct and adaptor-mediated substrate recognition by an essential {AAA}+ protease},
	volume = {104},
	issn = {0027-8424},
	url = {http://www.ncbi.nlm.nih.gov/pubmed/17420450},
	doi = {10.1073/pnas.0701776104},
	abstract = {Regulated proteolysis is required to execute many cellular programs. In Caulobacter crescentus, timely degradation of the master regulator CtrA by ClpXP protease is essential for cell-cycle progression and requires the colocalization of CtrA and RcdA. Here, we establish a biochemical framework to understand regulated proteolysis in C. crescentus and show that RcdA is not an adaptor for CtrA degradation. CtrA is rapidly degraded without RcdA and is recognized with an affinity comparable with the best ClpXP substrates. In contrast, SspBalpha, the alpha-proteobacterial homolog of SspB, functions as an adaptor to enhance degradation of specific substrates. Cargo-free SspBalpha is also itself a substrate of ClpXP-mediated proteolysis. Thus, our analysis (i) reveals the consequences of both direct and adaptor-stimulated recognition in mediating substrate specificity in vitro, (ii) reveals a potential regulatory role of controlled adaptor stability, and (iii) suggests that cell-cycle regulation of CtrA stability depends on repression of its intrinsic degradation rather than adaptor-mediated enhancement.},
	number = {16},
	urldate = {2009-10-03TZ},
	journal = {Proceedings of the National Academy of Sciences of the United States of America},
	author = {Chien, Peter and Perchuk, Barrett S and Laub, Michael T and Sauer, Robert T and Baker, Tania A},
	month = apr,
	year = {2007},
	pmid = {17420450},
	keywords = {Amino Acid Sequence, Bacterial Proteins, Caulobacter crescentus, DNA-Binding Proteins, Endopeptidase Clp, Molecular Sequence Data, Substrate Specificity, Transcription Factors},
	pages = {6590--6595}
}
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