Functional analysis of the propeptides of subtilisin E and aqualysin I as intramolecular chaperones

Hiroshi Takagi; Mihoko Koga; Saori Katsurada; Yukihiro Yabuta; Ujwal Shinde; Masayori Inouye; Shigeru Nakamori

doi:10.1016/S0014-5793(01)03053-8

Functional analysis of the propeptides of subtilisin E and aqualysin I as intramolecular chaperones

Hiroshi Takagi, Mihoko Koga, Saori Katsurada, Yukihiro Yabuta, Ujwal Shinde, Masayori Inouye, Shigeru Nakamori

Chemical Physiology and Biochemistry

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

Several proteases require propeptides for the correct folding of their own protease domain. We have recently found that the propeptide from a thermostable subtilisin homolog aqualysin I can refold subtilisin BPN′ when added in trans. Here, we constructed chimeric genes with subtilisin E and aqualysin I to attempt the in cis folding of subtilisin E by means of the propeptide of aqualysin I. Our results indicate that the propeptide of aqualysin I can to some extent chaperone the intramolecular folding of the denatured subtilisin E. These results suggest that propeptides in the subtilisin family, despite their sequence diversity, have similar functions. Further, some enzymatic properties of some chimeras in which the subtilisin mature domain is partly swapped with that of aqualysin I were shown to be more similar to those of aqualysin I.

Original language	English (US)
Pages (from-to)	210-214
Number of pages	5
Journal	FEBS Letters
Volume	508
Issue number	2
DOIs	https://doi.org/10.1016/S0014-5793(01)03053-8
State	Published - Nov 16 2001

Keywords

Aqualysin I
Chimeric protease
Intramolecular chaperone
Propeptide
Protein folding
Subtilisin E

ASJC Scopus subject areas

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

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10.1016/S0014-5793(01)03053-8

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title = "Functional analysis of the propeptides of subtilisin E and aqualysin I as intramolecular chaperones",

abstract = "Several proteases require propeptides for the correct folding of their own protease domain. We have recently found that the propeptide from a thermostable subtilisin homolog aqualysin I can refold subtilisin BPN′ when added in trans. Here, we constructed chimeric genes with subtilisin E and aqualysin I to attempt the in cis folding of subtilisin E by means of the propeptide of aqualysin I. Our results indicate that the propeptide of aqualysin I can to some extent chaperone the intramolecular folding of the denatured subtilisin E. These results suggest that propeptides in the subtilisin family, despite their sequence diversity, have similar functions. Further, some enzymatic properties of some chimeras in which the subtilisin mature domain is partly swapped with that of aqualysin I were shown to be more similar to those of aqualysin I.",

keywords = "Aqualysin I, Chimeric protease, Intramolecular chaperone, Propeptide, Protein folding, Subtilisin E",

author = "Hiroshi Takagi and Mihoko Koga and Saori Katsurada and Yukihiro Yabuta and Ujwal Shinde and Masayori Inouye and Shigeru Nakamori",

note = "Funding Information: We thank Dr. Hiroshi Matsuzawa (Aomori University) for providing T. aquaticus YT-1 and the plasmid pNK006. The technical assistance of Ayumi Yoshizumi (Fukui Prefectural University) for enzyme purification was greatly appreciated. This work was supported in part by a grant from Takano Life Science Research Foundation to H.T. ",

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doi = "10.1016/S0014-5793(01)03053-8",

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pages = "210--214",

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T1 - Functional analysis of the propeptides of subtilisin E and aqualysin I as intramolecular chaperones

AU - Takagi, Hiroshi

AU - Koga, Mihoko

AU - Katsurada, Saori

AU - Yabuta, Yukihiro

AU - Shinde, Ujwal

AU - Inouye, Masayori

AU - Nakamori, Shigeru

N1 - Funding Information: We thank Dr. Hiroshi Matsuzawa (Aomori University) for providing T. aquaticus YT-1 and the plasmid pNK006. The technical assistance of Ayumi Yoshizumi (Fukui Prefectural University) for enzyme purification was greatly appreciated. This work was supported in part by a grant from Takano Life Science Research Foundation to H.T.

PY - 2001/11/16

Y1 - 2001/11/16

N2 - Several proteases require propeptides for the correct folding of their own protease domain. We have recently found that the propeptide from a thermostable subtilisin homolog aqualysin I can refold subtilisin BPN′ when added in trans. Here, we constructed chimeric genes with subtilisin E and aqualysin I to attempt the in cis folding of subtilisin E by means of the propeptide of aqualysin I. Our results indicate that the propeptide of aqualysin I can to some extent chaperone the intramolecular folding of the denatured subtilisin E. These results suggest that propeptides in the subtilisin family, despite their sequence diversity, have similar functions. Further, some enzymatic properties of some chimeras in which the subtilisin mature domain is partly swapped with that of aqualysin I were shown to be more similar to those of aqualysin I.

AB - Several proteases require propeptides for the correct folding of their own protease domain. We have recently found that the propeptide from a thermostable subtilisin homolog aqualysin I can refold subtilisin BPN′ when added in trans. Here, we constructed chimeric genes with subtilisin E and aqualysin I to attempt the in cis folding of subtilisin E by means of the propeptide of aqualysin I. Our results indicate that the propeptide of aqualysin I can to some extent chaperone the intramolecular folding of the denatured subtilisin E. These results suggest that propeptides in the subtilisin family, despite their sequence diversity, have similar functions. Further, some enzymatic properties of some chimeras in which the subtilisin mature domain is partly swapped with that of aqualysin I were shown to be more similar to those of aqualysin I.

KW - Aqualysin I

KW - Chimeric protease

KW - Intramolecular chaperone

KW - Propeptide

KW - Protein folding

KW - Subtilisin E

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ER -

Functional analysis of the propeptides of subtilisin E and aqualysin I as intramolecular chaperones

Abstract

Keywords

ASJC Scopus subject areas

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