Отправить статью по E-mail Secondary structure of Aβ(1–16) complexes with zinc: A study in the gas phase using deuterium/hydrogen exchange and ultra-high-resolution mass spectrometry
- Авторы: Kostyukevich Y.I.1,2, Kononikhin A.S.1,3,4, Indeykina M.I.3, Popov I.A.1,3, Bocharov K.V.1,4, Spassky A.I.3,4, Kozin S.A.5, Makarov A.A.5, Nikolaev E.N.1,2,3,4
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Учреждения:
- Moscow Institute of Physics and Technology (State University)
- Skolkovo Institute of Science and Technology
- Emanuel Institute of Biochemical Physics
- Talrose Institute for Energy Problems of Chemical Physics
- Engelhardt Institute of Molecular Biology
- Выпуск: Том 51, № 4 (2017)
- Страницы: 627-632
- Раздел: Structural and Functional Analysis of Biopolymers and Their Complexes
- URL: https://journals.rcsi.science/0026-8933/article/view/163193
- DOI: https://doi.org/10.1134/S0026893317030104
- ID: 163193
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Аннотация
Complexes of peptide fragment 1–16 of beta-amyloid with transition metals play an important role in the development of a broad class of neurodegenerative diseases, which determines the interest in investigating the structures of these complexes. In this work, we have applied the method of the deuterium/hydrogen exchange in combination with ultra-high-resolution mass spectrometry to study conformational changes in (1–16) beta-amyloid peptide induced by binding of zinc(II) atoms. The efficiency of the deuterium/hydrogen exchange depended on the number of zinc atoms bound to the peptide and on the temperature of the ionization source region. Deuterium/hydrogen exchange reactions have been performed directly in the ionization source. The number of exchanges decreased considerably with an increasing numbers of zinc atoms. The relationship has been described with a damped exponential curve, which indicated that the binding of zinc atoms altered the conformation of the peptide ion by making it less open, which limits the access to inner areas of the molecule.
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Об авторах
Yu. Kostyukevich
Moscow Institute of Physics and Technology (State University); Skolkovo Institute of Science and Technology
Email: alex.kononikhin@gmail.com
Россия, Dolgprudny, Moscow oblast, 141701; Moscow, 143026
A. Kononikhin
Moscow Institute of Physics and Technology (State University); Emanuel Institute of Biochemical Physics; Talrose Institute for Energy Problems of Chemical Physics
Автор, ответственный за переписку.
Email: alex.kononikhin@gmail.com
Россия, Dolgprudny, Moscow oblast, 141701; Moscow, 119334; Moscow, 119334
M. Indeykina
Emanuel Institute of Biochemical Physics
Email: alex.kononikhin@gmail.com
Россия, Moscow, 119334
I. Popov
Moscow Institute of Physics and Technology (State University); Emanuel Institute of Biochemical Physics
Email: alex.kononikhin@gmail.com
Россия, Dolgprudny, Moscow oblast, 141701; Moscow, 119334
K. Bocharov
Moscow Institute of Physics and Technology (State University); Talrose Institute for Energy Problems of Chemical Physics
Email: alex.kononikhin@gmail.com
Россия, Dolgprudny, Moscow oblast, 141701; Moscow, 119334
A. Spassky
Emanuel Institute of Biochemical Physics; Talrose Institute for Energy Problems of Chemical Physics
Email: alex.kononikhin@gmail.com
Россия, Moscow, 119334; Moscow, 119334
S. Kozin
Engelhardt Institute of Molecular Biology
Email: alex.kononikhin@gmail.com
Россия, Moscow, 119991
A. Makarov
Engelhardt Institute of Molecular Biology
Email: alex.kononikhin@gmail.com
Россия, Moscow, 119991
E. Nikolaev
Moscow Institute of Physics and Technology (State University); Skolkovo Institute of Science and Technology; Emanuel Institute of Biochemical Physics; Talrose Institute for Energy Problems of Chemical Physics
Email: alex.kononikhin@gmail.com
Россия, Dolgprudny, Moscow oblast, 141701; Moscow, 143026; Moscow, 119334; Moscow, 119334
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