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PDBsum entry 2e02
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References listed in PDB file
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Key reference
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Title
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Mutagenesis and crystallographic studies of the catalytic residues of the papain family protease bleomycin hydrolase: new insights into active-Site structure.
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Authors
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P.A.O'Farrell,
L.Joshua-Tor.
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Ref.
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Biochem J, 2007,
401,
421-428.
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PubMed id
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Abstract
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Bleomycin hydrolase (BH) is a hexameric papain family cysteine protease which is
involved in preparing peptides for antigen presentation and has been implicated
in tumour cell resistance to bleomycin chemotherapy. Structures of active-site
mutants of yeast BH yielded unexpected results. Replacement of the active-site
asparagine with alanine, valine or leucine results in the destabilization of the
histidine side chain, demonstrating unambiguously the role of the asparagine
residue in correctly positioning the histidine for catalysis. Replacement of the
histidine with alanine or leucine destabilizes the asparagine position,
indicating a delicate arrangement of the active-site residues. In all of the
mutants, the C-terminus of the protein, which lies in the active site, protrudes
further into the active site. All mutants were compromised in their catalytic
activity. The structures also revealed the importance of a tightly bound water
molecule which stabilizes a loop near the active site and which is conserved
throughout the papain family. It is displaced in a number of the mutants,
causing destabilization of this loop and a nearby loop, resulting in a large
movement of the active-site cysteine. The results imply that this water molecule
plays a key structural role in this family of enzymes.
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