Yeast Cyclophilins Prevent Cold Denaturation of Proteins

Clyclophilins conferred freeze tolerance to yeast cells. Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae. Exposure to low temperatures reduces protein folding rates and induces the cold denaturation of proteins, necessitating aid from...

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Published inBulletin of the Korean Chemical Society Vol. 37; no. 3; pp. 366 - 371
Main Authors Naicker, Mahendran Chinnamara, Kim, Yang-Hee, Lee, Kyunghee, Im, Hana
Format Journal Article
LanguageEnglish
Published Weinheim Wiley-VCH Verlag GmbH & Co. KGaA 01.03.2016
Wiley‐VCH Verlag GmbH & Co. KGaA
대한화학회
Subjects
Chaperone
Cold stress
Peptidyl-prolyl isomerase
Protein folding
화학
Online AccessGet full text
ISSN1229-5949
0253-2964
1229-5949
DOI10.1002/bkcs.10685

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Abstract Clyclophilins conferred freeze tolerance to yeast cells. Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae. Exposure to low temperatures reduces protein folding rates and induces the cold denaturation of proteins, necessitating aid from chaperones. In a previous study, we identified 19 chaperone genes, the deletion of which makes the host more vulnerable to freeze‐and‐thaw treatments. Among those, peptidyl–prolyl cis–trans isomerases (PPIases) were the most frequently identified. At low temperatures, peptidyl–prolyl isomerization is a rate‐limiting step in protein folding, and folding intermediates, which are prone to protein aggregation, tend to accumulate. To characterize their mode of function, the identified PPIases were overexpressed in Escherichia coli. Not only did they increase the survival of E. coli during freeze‐and‐thaw treatment at –20 °C, but they also protected β‐galactosidase against freeze‐induced protein denaturation. Purified Cpr1p facilitated the refolding of a slow‐folding substrate protein in vitro. These results suggest that the identified PPIases enhance cold survival of cells by preventing cold‐induced protein denaturation and promoting protein folding.
AbstractList Clyclophilins conferred freeze tolerance to yeast cells. Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae. Exposure to low temperatures reduces protein folding rates and induces the cold denaturation of proteins, necessitating aid from chaperones. In a previous study, we identified 19 chaperone genes, the deletion of which makes the host more vulnerable to freeze‐and‐thaw treatments. Among those, peptidyl–prolyl cis–trans isomerases (PPIases) were the most frequently identified. At low temperatures, peptidyl–prolyl isomerization is a rate‐limiting step in protein folding, and folding intermediates, which are prone to protein aggregation, tend to accumulate. To characterize their mode of function, the identified PPIases were overexpressed in Escherichia coli. Not only did they increase the survival of E. coli during freeze‐and‐thaw treatment at –20 °C, but they also protected β‐galactosidase against freeze‐induced protein denaturation. Purified Cpr1p facilitated the refolding of a slow‐folding substrate protein in vitro. These results suggest that the identified PPIases enhance cold survival of cells by preventing cold‐induced protein denaturation and promoting protein folding.
Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae . Exposure to low temperatures reduces protein folding rates and induces the cold denaturation of proteins, necessitating aid from chaperones. In a previous study, we identified 19 chaperone genes, the deletion of which makes the host more vulnerable to freeze‐and‐thaw treatments. Among those, peptidyl–prolyl cis–trans isomerases ( PPIases ) were the most frequently identified. At low temperatures, peptidyl–prolyl isomerization is a rate‐limiting step in protein folding, and folding intermediates, which are prone to protein aggregation, tend to accumulate. To characterize their mode of function, the identified PPIases were overexpressed in Escherichia coli . Not only did they increase the survival of E. coli during freeze‐and‐thaw treatment at –20 °C, but they also protected β‐galactosidase against freeze‐induced protein denaturation. Purified Cpr1p facilitated the refolding of a slow‐folding substrate protein in vitro . These results suggest that the identified PPIases enhance cold survival of cells by preventing cold‐induced protein denaturation and promoting protein folding.
Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae. Exposure to low temperatures reduces protein folding rates and induces the cold denaturation of proteins, necessitating aid from chaperones. In a previous study, we identified 19 chaperone genes, the deletion of which makes the host more vulnerable to freeze-and-thaw treatments. Among those, peptidyl–prolyl cis–trans isomerases (PPIases) were the most frequently identified. At low temperatures, peptidyl–prolyl isomerization is a rate-limiting step in protein folding, and folding intermediates, which are prone to protein aggregation, tend to accumulate. To characterize their mode of function, the identified PPIases were overexpressed in Escherichia coli. Not only did they increase the survival of E. coli during freeze-and-thaw treatment at –20 °C, but they also protected β-galactosidase against freeze-induced protein denaturation. Purified Cpr1p facilitated the refolding of a slow-folding substrate protein in vitro. These results suggest that the identified PPIases enhance cold survival of cells by preventing cold-induced protein denaturation and promoting protein folding. KCI Citation Count: 1
Author Naicker, Mahendran Chinnamara
Im, Hana
Lee, Kyunghee
Kim, Yang-Hee
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Snippet Clyclophilins conferred freeze tolerance to yeast cells. Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces...
Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae . Exposure to low temperatures reduces...
Freezing environments are one of the major challenges faced by many organisms, including Saccharomyces cerevisiae. Exposure to low temperatures reduces protein...
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SubjectTerms Chaperone
Cold stress
Peptidyl-prolyl isomerase
Protein folding
화학
Title Yeast Cyclophilins Prevent Cold Denaturation of Proteins
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fbkcs.10685
https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART002089410
Volume 37
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ispartofPNX Bulletin of the Korean Chemical Society, 2016, 37(3), , pp.366-371
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