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PDBsum entry 3afg
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References listed in PDB file
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Key reference
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Title
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Crystal structure of a subtilisin homologue, Tk-Sp, From thermococcus kodakaraensis: requirement of a c-Terminal beta-Jelly roll domain for hyperstability.
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Authors
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T.Foophow,
S.Tanaka,
C.Angkawidjaja,
Y.Koga,
K.Takano,
S.Kanaya.
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Ref.
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J Mol Biol, 2010,
400,
865-877.
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PubMed id
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Abstract
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Tk-SP is a hyperthermostable subtilisin-like serine protease from Thermococcus
kodakaraensis and is autoprocessed from its precursor (Pro-Tk-SP) with N- and
C-propeptides. The crystal structure of the active-site mutant of Pro-Tk-SP
lacking C-propeptide, ProN-Tk-S359A, was determined at 2.0 A resolution.
ProN-Tk-S359A consists of the N-propeptide, subtilisin, and beta-jelly roll
domains. Two Ca(2+) ions bind to the beta-jelly roll domain. The overall
structure of ProN-Tk-S359A without the beta-jelly roll domain is similar to that
of the bacterial propeptide:subtilisin complex, except that it does not contain
Ca(2+) ions. To analyze the role of the beta-jelly roll domain of Tk-SP, we
constructed a series of the active-site mutants of Tk-SP with (Tk-S359A/C) and
without (Tk-S359A/CDeltaJ) beta-jelly roll domain. Both Tk-S359C and
Tk-S359CDeltaJ exhibited protease activities in gel assay, indicating that the
beta-jelly roll domain is not required for folding or activity. However, the
T(m) value of Tk-S359ADeltaJ determined by far-UV CD spectroscopy in the
presence of 10-mM CaCl(2) was lower than that of Tk-S359A by 29.4 degrees C. The
T(m) value of Tk-S359A was decreased by 29.5 degrees C by the treatment with 10
mM ethylenediaminetetraacetic acid, indicating that the beta-jelly roll domain
contributes to the stabilization of Tk-S359A only in a Ca(2+)-bound form. Tk-SP
highly resembles subtilisin-like serine proteases from Pyrococcus furiosus,
Thermococcus gammatolerans, and Thermococcus onnurineus in size and amino acid
sequence. We propose that attachment of a beta-jelly roll domain to the
C-terminus is one of the strategies of the proteins from hyperthermophiles to
adapt to high-temperature environment.
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