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3LPD

Crystal structure of a subtilisin-like protease

Summary for 3LPD
Entry DOI10.2210/pdb3lpd/pdb
Related3LPA 3LPC
DescriptorAcidic extracellular subtilisin-like protease AprV2, CALCIUM ION (3 entities in total)
Functional Keywordsprotease, subtilase, virulence factor, hydrolase, serine protease
Biological sourceDichelobacter nodosus
Total number of polymer chains1
Total formula weight35950.57
Authors
Porter, C.J.,Wong, W.,Whisstock, J.C.,Rood, J.I.,Kennan, R.M. (deposition date: 2010-02-05, release date: 2010-12-08, Last modification date: 2024-11-13)
Primary citationKennan, R.M.,Wong, W.,Dhungyel, O.P.,Han, X.,Wong, D.,Parker, D.,Rosado, C.J.,Law, R.H.P.,McGowan, S.,Reeve, S.B.,Levina, V.,Powers, G.A.,Pike, R.N.,Bottomley, S.P.,Smith, A.I.,Marsh, I.,Whittington, R.J.,Whisstock, J.C.,Porter, C.J.,Rood, J.I.
The Subtilisin-Like Protease AprV2 Is Required for Virulence and Uses a Novel Disulphide-Tethered Exosite to Bind Substrates
Plos Pathog., 6:e1001210-e1001210, 2010
Cited by
PubMed Abstract: Many bacterial pathogens produce extracellular proteases that degrade the extracellular matrix of the host and therefore are involved in disease pathogenesis. Dichelobacter nodosus is the causative agent of ovine footrot, a highly contagious disease that is characterized by the separation of the hoof from the underlying tissue. D. nodosus secretes three subtilisin-like proteases whose analysis forms the basis of diagnostic tests that differentiate between virulent and benign strains and have been postulated to play a role in virulence. We have constructed protease mutants of D. nodosus; their analysis in a sheep virulence model revealed that one of these enzymes, AprV2, was required for virulence. These studies challenge the previous hypothesis that the elastase activity of AprV2 is important for disease progression, since aprV2 mutants were virulent when complemented with aprB2, which encodes a variant that has impaired elastase activity. We have determined the crystal structures of both AprV2 and AprB2 and characterized the biological activity of these enzymes. These data reveal that an unusual extended disulphide-tethered loop functions as an exosite, mediating effective enzyme-substrate interactions. The disulphide bond and Tyr92, which was located at the exposed end of the loop, were functionally important. Bioinformatic analyses suggested that other pathogenic bacteria may have proteases that utilize a similar mechanism. In conclusion, we have used an integrated multidisciplinary combination of bacterial genetics, whole animal virulence trials in the original host, biochemical studies, and comprehensive analysis of crystal structures to provide the first definitive evidence that the extracellular secreted proteases produced by D. nodosus are required for virulence and to elucidate the molecular mechanism by which these proteases bind to their natural substrates. We postulate that this exosite mechanism may be used by proteases produced by other bacterial pathogens of both humans and animals.
PubMed: 21124876
DOI: 10.1371/journal.ppat.1001210
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.1 Å)
Structure validation

229380

数据于2024-12-25公开中

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