Negative thermal expansibility change for dissociation of lysozyme variant amyloid protofibril
A disulfide‐deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20–35°C) and pressures (0.1–200 MPa), to characterize the dissociation equilibr...
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| Published in: | Electrophoresis Vol. 36; no. 6; pp. 893 - 901 |
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| Main Authors: | , , , , |
| Format: | Journal Article |
| Language: | English |
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Blackwell Publishing Ltd
01.03.2015
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| ISSN: | 0173-0835, 1522-2683, 1522-2683 |
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| Abstract | A disulfide‐deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20–35°C) and pressures (0.1–200 MPa), to characterize the dissociation equilibrium of disulfide‐deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, ΔvD and ΔeD, were obtained to be −74 cm3/mol at 25°C and −2.3 cm3 mol−1 K−1, respectively. The dissociation of amyloid fibril destroys the cross β‐structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. |
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| AbstractList | A disulfide-deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20-35 degree C) and pressures (0.1-200 MPa), to characterize the dissociation equilibrium of disulfide-deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, Delta v sub(D) and Delta e sub(D), were obtained to be -74 cm super(3)/mol at 25 degree C and -2.3 cm super(3) mol super(-1) K super(-1), respectively. The dissociation of amyloid fibril destroys the cross beta -structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. A disulfide‐deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20–35°C) and pressures (0.1–200 MPa), to characterize the dissociation equilibrium of disulfide‐deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, Δ v D and Δ e D , were obtained to be −74 cm 3 /mol at 25°C and −2.3 cm 3 mol −1 K −1 , respectively. The dissociation of amyloid fibril destroys the cross β‐structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. A disulfide-deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20-35°C) and pressures (0.1-200 MPa), to characterize the dissociation equilibrium of disulfide-deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, ΔvD and ΔeD , were obtained to be -74 cm(3) /mol at 25°C and -2.3 cm(3) mol(-1) K(-1) , respectively. The dissociation of amyloid fibril destroys the cross β-structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril.A disulfide-deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20-35°C) and pressures (0.1-200 MPa), to characterize the dissociation equilibrium of disulfide-deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, ΔvD and ΔeD , were obtained to be -74 cm(3) /mol at 25°C and -2.3 cm(3) mol(-1) K(-1) , respectively. The dissociation of amyloid fibril destroys the cross β-structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. A disulfide‐deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20–35°C) and pressures (0.1–200 MPa), to characterize the dissociation equilibrium of disulfide‐deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, ΔvDand ΔeD, were obtained to be −74 cm³/mol at 25°C and −2.3 cm³mol⁻¹K⁻¹, respectively. The dissociation of amyloid fibril destroys the cross β‐structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. A disulfide-deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20-35°C) and pressures (0.1-200 MPa), to characterize the dissociation equilibrium of disulfide-deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, ΔvD and ΔeD , were obtained to be -74 cm(3) /mol at 25°C and -2.3 cm(3) mol(-1) K(-1) , respectively. The dissociation of amyloid fibril destroys the cross β-structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. A disulfide‐deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic pressure. We carried out native PAGE at various temperatures (20–35°C) and pressures (0.1–200 MPa), to characterize the dissociation equilibrium of disulfide‐deficient variant of hen lysozyme amyloid protofibril. Based on the density profiles, the partial molar volume and thermal expansibility changes for dissociation, ΔvD and ΔeD, were obtained to be −74 cm3/mol at 25°C and −2.3 cm3 mol−1 K−1, respectively. The dissociation of amyloid fibril destroys the cross β‐structure, and such conformational destruction in native protein fold rarely accompanies negative thermal expansibility change. We discussed the negative thermal expansibility change in terms of hydration and structural packing of the amyloid protofibril. |
| Author | Kameyama, Keiichi Tachibana, Hideki Fujisawa, Tetsuro Matsuo, Hiroshi Ishiguro, Ryo |
| Author_xml | – sequence: 1 givenname: Ryo surname: Ishiguro fullname: Ishiguro, Ryo organization: Department of Chemistry and Biomolecular Science, Faculty of Engineering, Gifu University, Gifu, Japan – sequence: 2 givenname: Hiroshi surname: Matsuo fullname: Matsuo, Hiroshi organization: Niigata Industrial Creation Organization, Niigata, Japan – sequence: 3 givenname: Keiichi surname: Kameyama fullname: Kameyama, Keiichi organization: Department of Chemistry and Biomolecular Science, Faculty of Engineering, Gifu University, Gifu, Japan – sequence: 4 givenname: Hideki surname: Tachibana fullname: Tachibana, Hideki organization: Graduate School of Biology-Oriented Science and Technology, Kinki University, Wakayama, Japan – sequence: 5 givenname: Tetsuro surname: Fujisawa fullname: Fujisawa, Tetsuro email: fujisawa@gifu-u.ac.jp organization: Department of Chemistry and Biomolecular Science, Faculty of Engineering, Gifu University, Gifu, Japan |
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| Keywords | Dissociation equilibrium High-pressure native polyacrylamide gel electro-phoresis Thermal expansibility Partial molar volume |
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| References_xml | – reference: Akasaka, K., Latif, A. R. A., Nakamura, A., Matsuo, K., Tachibana, H., Gekko, K., Biochemistry 2007, 46, 10444-10450. – reference: Rafaee, M., Tezuka, T., Akasaka, K., Williamson, M. P., J. Mol. Biol. 2003, 327, 857-865. – reference: Knowles, T. P. J., White, D. A., Abate, A. R., Agresti, J. J., Cohen, S. I. A., Sperling, R. A., De Genst, E. J., Dobson, C. M., Weitz, D. A., Proc. Natl. Acad. Sci. USA 2011. 108, 14746-14751. – reference: Masson, P., Reybaud, J., Electrophoresis 1988, 9, 157-161. – reference: Gillam, J. E., MacPhee, C. E., J. Phys. Condens. Matter 2013, 25, 373101. – reference: Lynch, T. W., Kosztin, D., McLean, M. A., Schulten, K., Sligar, S. G., Biophys. J. 2002, 82, 93-98. – reference: Kharakoz, D. P., Biochemistry 1997, 36, 10276-10285. – reference: Stefani, M., Dobson, C. M., J. Mol. Med. 2003, 81, 678-699. – reference: Knowles, T. P. J., Waudby, C. A., Devlin, G. L., Cohen, S. I. A., Aguzzi, A., Vendruscolo, M., Terentjev, E. 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| Snippet | A disulfide‐deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic... A disulfide-deficient variant of hen lysozyme, 0SS, is known to form an amyloid protofibril spontaneously, and to dissociate into monomers at high hydrostatic... |
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| SubjectTerms | amyloid Amyloid - chemistry Amyloid - metabolism Animals Chickens Density Destruction dissociation Dissociation equilibrium Electrophoresis Electrophoresis, Polyacrylamide Gel hens high pressure treatment High-pressure native polyacrylamide gel electro-phoresis Hot Temperature Hydration Hydrostatic pressure Lysozyme Molar volume Monomers Muramidase - chemistry Muramidase - metabolism Partial molar volume polyacrylamide gel electrophoresis Protein Unfolding Proteins temperature Thermal expansibility Thermodynamics |
| Title | Negative thermal expansibility change for dissociation of lysozyme variant amyloid protofibril |
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