The effect of space flight on the protein composition of the exhaled breath condensate of cosmonauts

被引：0

作者：

K. Yu. Fedorchenko

A. M. Ryabokon’

A. S. Kononikhin

S. I. Mitrofanov

E. A. Mikhant’eva

A. I. Spasskii

I. R. Sukhodolov

I. A. Popov

A. V. Polyakov

I. M. Larina

E. N. Nikolaev

S. D. Varfolomeev

机构：

[1] Russian Academy of Sciences,N. M. Emanuel Institute of Biochemical Physics

[2] M. V. Lomonosov Moscow State University,V. L. Tal’roze Institute for Energy Problems of Chemical Physics

[3] Russian Academy of Sciences,Institute of Biomedical Problems

[4] Skolkovo Institute of Science and Technology,undefined

[5] Moscow Institute of Physics and Technology (State University),undefined

[6] Russian Academy of Sciences,undefined

来源：

Russian Chemical Bulletin | 2016年 / 65卷

关键词：

exhaled breath condensate; protein composition of exhaled breath condensate; GC/MS; cosmonauts;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

As a part of development of medicine for extreme situations, we determined, for the first time, the protein composition of the exhaled breath condensate (EBC) of cosmonauts before and after long-lasting orbital flights on the International Space Station (ISS). The analysis was performed by electrospray ionization ion cyclotron resonance mass spectrometry. The pattern of variation of the protein composition of the exhaled air during preflight preparation, at the time of landing, and seven days after landing was elucidated. Forty-four proteins, which appeared in the exhaled breath condensate of the cosmonauts after a long orbital flight and landing and were absent before the flight, were detected. These proteins included the immune response proteins, indicating cell and blood vessel damage. In some cases, a temporary appearance of cancer markers was noted.

引用

页码：2745 / 2750

页数：5

共 50 条

[1] The effect of space flight on the protein composition of the exhaled breath condensate of cosmonauts
Fedorchenko, K. Yu.
Ryabokon, A. M.
Kononikhin, A. S.
Mitrofanov, S. I.
Mikhant'eva, E. A.
Spasskii, A. I.
Sukhodolov, I. R.
Popov, I. A.
Polyakov, A. V.
Larina, I. M.
Nikolaev, E. N.
Varfolomeev, S. D.
RUSSIAN CHEMICAL BULLETIN, 2016, 65 (11) : 2745 - 2750
[2] Protein pattern of exhaled breath condensate and saliva
Griese, M
Noss, J
von Bredow, C
PROTEOMICS, 2002, 2 (06) : 690 - 696
[3] Exhaled breath condensate
Griese, M
PEDIATRIC PULMONOLOGY, 2004, : 14 - 15
[4] Exhaled breath condensate
Becher, G
DISEASE MARKERS IN EXHALED BREATH: BASIC MECHANISMS AND CLINICAL APPLICATIONS, 2002, 346 : 383 - 386
[5] Exhaled NO and breath condensate
Baraldi, Eugenio
Carraro, Silvia
PAEDIATRIC RESPIRATORY REVIEWS, 2006, 7 : S20 - S22
[6] The effect of temperature on exhaled breath condensate collection
Vyas, Aditya
Zhang, Qi
Gunaratne, Shyamini
Lee, Wei
Lin, Jiun-Lih
Lin, Jiun-Shiang
Warwick, Geoffrey
Thomas, Paul S.
JOURNAL OF BREATH RESEARCH, 2012, 6 (03)
[7] Effect of freezing on exhaled breath condensate pH
Kullmann, Tarnas
Barta, Irnre
Horvath, Idiko
RESPIRATORY MEDICINE, 2007, 101 (12) : 2566 - 2566
[8] The compositional space of exhaled breath condensate and its link to the human breath volatilome
Moritz, Franco
Janicka, Monika
Zygler, Agata
Forcisi, Sara
Kot-Wasik, Agata
Kot, Jacek
Gebefuegi, Istvan
Namiesnik, Jacek
Schmitt-Kopplin, Philippe
JOURNAL OF BREATH RESEARCH, 2015, 9 (02)
[9] Determination of Proteomic and Metabolic Composition of Exhaled Breath Condensate of Newborns
Kononikhin, A. S.
Chagovets, V. V.
Starodubtseva, N. L.
Ryndin, A. Y.
Bugrova, A. E.
Kostyukevich, Y. I.
Popov, I. A.
Frankevich, V. E.
Ionov, O. V.
Sukhikh, G. T.
Nikolaev, E. N.
MOLECULAR BIOLOGY, 2016, 50 (03) : 470 - 473
[10] Determination of proteomic and metabolic composition of exhaled breath condensate of newborns
A. S. Kononikhin
V. V. Chagovets
N. L. Starodubtseva
A. Y. Ryndin
A. E. Bugrova
Y. I. Kostyukevich
I. A. Popov
V. E. Frankevich
O. V. Ionov
G. T. Sukhikh
E. N. Nikolaev
Molecular Biology, 2016, 50 : 470 - 473

← 1 2 3 4 5 →