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PDBsum entry 4jp8
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References listed in PDB file
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Key reference
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Title
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Increase in activation rate of pro-Tk-Subtilisin by a single nonpolar-To-Polar amino acid substitution at the hydrophobic core of the propeptide domain.
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Authors
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K.Yuzaki,
Y.Sanda,
D.J.You,
R.Uehara,
Y.Koga,
S.Kanaya.
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Ref.
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Protein Sci, 2013,
22,
1711-1721.
[DOI no: ]
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PubMed id
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Abstract
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Tk-subtilisin (Gly70-Gly398) is a subtilisin homolog from Thermococcus
kodakarensis. Active Tk-subtilisin is produced from its inactive precursor,
Pro-Tk-subtilisin (Gly1-Gly398), by autoprocessing and degradation of the
propeptide (Tk-propeptide, Gly1-Leu69). This activation process is extremely
slow at moderate temperatures owing to high stability of Tk-propeptide.
Tk-propeptide is stabilized by the hydrophobic core. To examine whether a single
nonpolar-to-polar amino acid substitution at this core affects the activation
rate of Pro-Tk-subtilisin, the Pro-Tk-subtilisin derivative with the Phe17 →
His mutation (Pro-F17H), Tk-propeptide derivative with the same mutation
(F17H-propeptide), and two active-site mutants of Pro-F17H (Pro-F17H/S324A and
Pro-F17H/S324C) were constructed. The crystal structure of Pro-F17H/S324A was
nearly identical to that of Pro-S324A, indicating that the mutation does not
affect the structure of Pro-Tk-subtilisin. The refolding rate of Pro-F17H/S324A
and autoprocessing rate of Pro-F17H/S324C were also nearly identical to those of
their parent proteins (Pro-S324A and Pro-S324C). However, the activation rate of
Pro-F17H greatly increased when compared with that of Pro-Tk-subtilisin, such
that Pro-F17H is efficiently activated even at 40°C. The far-UV circular
dichroism spectrum of F17H-propeptide did not exhibit a broad trough at 205-230
nm, which is observed in the spectrum of Tk-propeptide. F17H-propeptide is more
susceptible to chymotryptic degradation than Tk-propeptide. These results
suggest that F17H-propeptide is unfolded in an isolated form and is therefore
rapidly degraded by Tk-subtilisin. Thus, destabilization of the hydrophobic core
of Tk-propeptide by a nonpolar-to-polar amino acid substitution is an effective
way to increase the activation rate of Pro-Tk-subtilisin.
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