Formation of Oligomeric Cytochrome c during Folding by Intermolecular Hydrophobic Interaction between N- and C‑Terminal α‑Helices

Formation of Oligomeric Cytochrome c during Folding by Intermolecular Hydrophobic Interaction between N- and C‑Terminal α‑Helices

We have previously shown that horse cytochrome c (cyt c) forms oligomers by domain swapping its C-terminal α-helix when interacting with ethanol. Although folding of cyt c has been studied extensively, formation of domain-swapped oligomers of cyt c during folding has never been reported. We found th...

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Veröffentlicht in:Biochemistry (Easton) 2013-12, Vol.52 (48), p.8732-8744
Hauptverfasser: Parui, Partha Pratim, Deshpande, Megha Subhash, Nagao, Satoshi, Kamikubo, Hironari, Komori, Hirofumi, Higuchi, Yoshiki, Kataoka, Mikio, Hirota, Shun
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Animals
Crystallography, X-Ray
Cytochromes c - chemistry
Horses
Humans
Hydrophobic and Hydrophilic Interactions
Models, Molecular
Protein Folding
Protein Interaction Domains and Motifs - physiology
Protein Multimerization - physiology
Protein Structure, Secondary
Saccharomyces cerevisiae
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container_end_page 8744
container_issue 48
container_start_page 8732
container_title Biochemistry (Easton)
container_volume 52
creator Parui, Partha Pratim
Deshpande, Megha Subhash
Nagao, Satoshi
Kamikubo, Hironari
Komori, Hirofumi
Higuchi, Yoshiki
Kataoka, Mikio
Hirota, Shun
description We have previously shown that horse cytochrome c (cyt c) forms oligomers by domain swapping its C-terminal α-helix when interacting with ethanol. Although folding of cyt c has been studied extensively, formation of domain-swapped oligomers of cyt c during folding has never been reported. We found that domain-swapped oligomeric cyt c is produced during refolding from its guanidinium ion-induced unfolded state at high protein concentrations and low temperatures. The obtained dimer exhibited a domain-swapped structure exchanging the C-terminal α-helical region between molecules. The extent of dimer formation decreased significantly for the folding of C-terminal cyt c mutants with reduced hydrophobicity achieved by replacement of hydrophobic residues with Gly in the C-terminal region, whereas a large amount of heterodimers was generated for the folding of a mixture of N- and C-terminal mutants. These results show that cyt c oligomers are formed through intermolecular hydrophobic interaction between the N- and C-terminal α-helices during folding. A slow phase (4–5 s) was observed in addition to a 400–500 ms phase during folding of a high concentration of cyt c in the presence of 1.17 M guanidine hydrochloride. The fast phase is attributed to the intramolecular ligand exchange process, and we attribute the slow phase to the ligand exchange process in oligomers. These results show that it is important to consider formation of domain-swapped oligomeric proteins when folding at high protein concentrations.
doi_str_mv 10.1021/bi400986g
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Although folding of cyt c has been studied extensively, formation of domain-swapped oligomers of cyt c during folding has never been reported. We found that domain-swapped oligomeric cyt c is produced during refolding from its guanidinium ion-induced unfolded state at high protein concentrations and low temperatures. The obtained dimer exhibited a domain-swapped structure exchanging the C-terminal α-helical region between molecules. The extent of dimer formation decreased significantly for the folding of C-terminal cyt c mutants with reduced hydrophobicity achieved by replacement of hydrophobic residues with Gly in the C-terminal region, whereas a large amount of heterodimers was generated for the folding of a mixture of N- and C-terminal mutants. These results show that cyt c oligomers are formed through intermolecular hydrophobic interaction between the N- and C-terminal α-helices during folding. A slow phase (4–5 s) was observed in addition to a 400–500 ms phase during folding of a high concentration of cyt c in the presence of 1.17 M guanidine hydrochloride. The fast phase is attributed to the intramolecular ligand exchange process, and we attribute the slow phase to the ligand exchange process in oligomers. 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A slow phase (4–5 s) was observed in addition to a 400–500 ms phase during folding of a high concentration of cyt c in the presence of 1.17 M guanidine hydrochloride. The fast phase is attributed to the intramolecular ligand exchange process, and we attribute the slow phase to the ligand exchange process in oligomers. 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A slow phase (4–5 s) was observed in addition to a 400–500 ms phase during folding of a high concentration of cyt c in the presence of 1.17 M guanidine hydrochloride. The fast phase is attributed to the intramolecular ligand exchange process, and we attribute the slow phase to the ligand exchange process in oligomers. These results show that it is important to consider formation of domain-swapped oligomeric proteins when folding at high protein concentrations.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>24206001</pmid><doi>10.1021/bi400986g</doi><tpages>13</tpages></addata></record>
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subjects Animals
Crystallography, X-Ray
Cytochromes c - chemistry
Horses
Humans
Hydrophobic and Hydrophilic Interactions
Models, Molecular
Protein Folding
Protein Interaction Domains and Motifs - physiology
Protein Multimerization - physiology
Protein Structure, Secondary
Saccharomyces cerevisiae
title Formation of Oligomeric Cytochrome c during Folding by Intermolecular Hydrophobic Interaction between N- and C‑Terminal α‑Helices
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