Effects of high pressure on the growth kinetics of orthorhombic lysozyme crystals

Yukiko Nagatoshi; Gen Sazaki; Yoshihisa Suzuki; Satoru Miyashita; Takuro Matsui; Toru Ujihara; Kozo Fujiwara; Noritaka Usami; Kazuo Nakajima

doi:10.1016/S0022-0248(03)01151-5

Effects of high pressure on the growth kinetics of orthorhombic lysozyme crystals

Yukiko Nagatoshi, Gen Sazaki, Yoshihisa Suzuki, Satoru Miyashita, Takuro Matsui, Toru Ujihara, Kozo Fujiwara, Noritaka Usami, Kazuo Nakajima

IMR - Collaborative Research Center on Energy Materials

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

19 Citations (Scopus)

Abstract

Growth processes of the (0 1 1) and (0 1̄ 1) faces of an orthorhombic lysozyme crystal were observed in situ under 0.1 and 100 M Pa. The growth rates of the (0 1 1) and (0 1̄ 1) faces were equal within an experimental error. From the comparison between the growth rates under 0.1 and 100 M Pa at the same supersaturation level, we found that the growth kinetics of the orthorhombic lysozyme crystals significantly decreases with an increase in pressure. Supersaturation dependencies of the growth rates under 0.1 and 100 M Pa were well fitted with a two-dimensional (2D) nucleation growth model of a birth-and-spread type. The fitting results show that the decrease in the growth kinetics with pressure can be explained by the increase activation energies in the incorporation processes of solute molecules.

Original language	English
Pages (from-to)	188-195
Number of pages	8
Journal	Journal of Crystal Growth
Volume	254
Issue number	1-2
DOIs	https://doi.org/10.1016/S0022-0248(03)01151-5
Publication status	Published - 2003 Jun

Keywords

A1. Biocrystallization
A1. High pressure
B1. Proteins

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10.1016/S0022-0248(03)01151-5

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title = "Effects of high pressure on the growth kinetics of orthorhombic lysozyme crystals",

abstract = "Growth processes of the (0 1 1) and (0 {\=1} 1) faces of an orthorhombic lysozyme crystal were observed in situ under 0.1 and 100 M Pa. The growth rates of the (0 1 1) and (0 {\=1} 1) faces were equal within an experimental error. From the comparison between the growth rates under 0.1 and 100 M Pa at the same supersaturation level, we found that the growth kinetics of the orthorhombic lysozyme crystals significantly decreases with an increase in pressure. Supersaturation dependencies of the growth rates under 0.1 and 100 M Pa were well fitted with a two-dimensional (2D) nucleation growth model of a birth-and-spread type. The fitting results show that the decrease in the growth kinetics with pressure can be explained by the increase activation energies in the incorporation processes of solute molecules.",

keywords = "A1. Biocrystallization, A1. High pressure, B1. Proteins",

author = "Yukiko Nagatoshi and Gen Sazaki and Yoshihisa Suzuki and Satoru Miyashita and Takuro Matsui and Toru Ujihara and Kozo Fujiwara and Noritaka Usami and Kazuo Nakajima",

note = "Funding Information: The authors would like to thank Mr. T. Asai for his valuable suggestions and Mr. A.C. Alguno for his English correction. The authors are grateful for the partial support by Grants-in-Aid (Nos. 10555001 and 12750006 (G.S.) and No. 11305001 (K.N.)) of Scientific Research of the Ministry of Education, Science and Culture Japan. The authors also wish to acknowledge the partial support by a fund from REIMEI Research Resources of Japan Atomic Energy Research Institute, as well as the support by a fund from The Inamori Foundation. This study was carried out as a part of “Ground Research Announcement for Space Utilization” promoted by NASDA and Japan Space Forum.",

year = "2003",

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doi = "10.1016/S0022-0248(03)01151-5",

language = "English",

volume = "254",

pages = "188--195",

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T1 - Effects of high pressure on the growth kinetics of orthorhombic lysozyme crystals

AU - Nagatoshi, Yukiko

AU - Sazaki, Gen

AU - Suzuki, Yoshihisa

AU - Miyashita, Satoru

AU - Matsui, Takuro

AU - Ujihara, Toru

AU - Fujiwara, Kozo

AU - Usami, Noritaka

AU - Nakajima, Kazuo

N1 - Funding Information: The authors would like to thank Mr. T. Asai for his valuable suggestions and Mr. A.C. Alguno for his English correction. The authors are grateful for the partial support by Grants-in-Aid (Nos. 10555001 and 12750006 (G.S.) and No. 11305001 (K.N.)) of Scientific Research of the Ministry of Education, Science and Culture Japan. The authors also wish to acknowledge the partial support by a fund from REIMEI Research Resources of Japan Atomic Energy Research Institute, as well as the support by a fund from The Inamori Foundation. This study was carried out as a part of “Ground Research Announcement for Space Utilization” promoted by NASDA and Japan Space Forum.

PY - 2003/6

Y1 - 2003/6

N2 - Growth processes of the (0 1 1) and (0 1̄ 1) faces of an orthorhombic lysozyme crystal were observed in situ under 0.1 and 100 M Pa. The growth rates of the (0 1 1) and (0 1̄ 1) faces were equal within an experimental error. From the comparison between the growth rates under 0.1 and 100 M Pa at the same supersaturation level, we found that the growth kinetics of the orthorhombic lysozyme crystals significantly decreases with an increase in pressure. Supersaturation dependencies of the growth rates under 0.1 and 100 M Pa were well fitted with a two-dimensional (2D) nucleation growth model of a birth-and-spread type. The fitting results show that the decrease in the growth kinetics with pressure can be explained by the increase activation energies in the incorporation processes of solute molecules.

AB - Growth processes of the (0 1 1) and (0 1̄ 1) faces of an orthorhombic lysozyme crystal were observed in situ under 0.1 and 100 M Pa. The growth rates of the (0 1 1) and (0 1̄ 1) faces were equal within an experimental error. From the comparison between the growth rates under 0.1 and 100 M Pa at the same supersaturation level, we found that the growth kinetics of the orthorhombic lysozyme crystals significantly decreases with an increase in pressure. Supersaturation dependencies of the growth rates under 0.1 and 100 M Pa were well fitted with a two-dimensional (2D) nucleation growth model of a birth-and-spread type. The fitting results show that the decrease in the growth kinetics with pressure can be explained by the increase activation energies in the incorporation processes of solute molecules.

KW - A1. Biocrystallization

KW - A1. High pressure

KW - B1. Proteins

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ER -

Effects of high pressure on the growth kinetics of orthorhombic lysozyme crystals

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