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Please use this identifier to cite or link to this item: https://elib.bsu.by/handle/123456789/259540
Title: Nonspecific stress response to temperature increase in Gammarus lacustris Sars with respect to oxygen-limited thermal tolerance concept
Authors: Vereshchagina, K.
Kondrateva, E.
Axenov-Gribanov, D.
Shatilina, Z.
Khomich, A.
Bedulina, D.
Zadereev, E.
Timofeyev, M.
Keywords: ЭБ БГУ::МЕЖОТРАСЛЕВЫЕ ПРОБЛЕМЫ::Охрана окружающей среды. Экология человека
Issue Date: 2018
Publisher: PeerJ Inc.
Citation: PeerJ 2018;2018(9).
Abstract: The previously undescribed dynamics of the heat shock protein HSP70 and subsequent lipid peroxidation products have been assessed alongside lactate dehydrogenase activity for Gammarus lacustris Sars, an amphipod species from the saltwater Lake Shira (Republic of Khakassia). Individuals were exposed to a gradual temperature increase of 1-C/hour (total exposure duration of 26 hours) starting from the mean annual temperature of their habitat (7-C) up to 33-C. A complex of biochemical reactions occurred when saltwater G. Lactustris was exposed to the gradual changes in temperature. This was characterized by a decrease in lactate dehydrogenase activity and the launching of lipid peroxidation. The HSP70 level did not change significantly during the entire experiment. In agreement with the concept of oxygen-limited thermal tolerance, an accumulation of the most toxic lipid peroxides (triene conjugates and Schiff bases) in phospholipids occurred at the same time and temperature as the accumulation of lactate. The main criterion overriding the temperature threshold was, therefore, the transition to anaerobiosis, confirmed by the elevated lactate levels as observed in our previous associated study, and by the development of cellular stress, which was expressed by an accumulation of lipid peroxidation products. An earlier hypothesis, based on freshwater individuals of the same species, has been confirmed whereby the increased thermotolerance of G. Lacustris from the saltwater lake was caused by differences in energy metabolism and energy supply of nonspecific cellular stressresponse mechanisms. With the development of global climate change, these reactions could be advantageous for saltwater G. Lacustris. The studied biochemical reactions can be used as biomarkers for the stress status of aquatic organisms when their habitat temperature changes.
Description: Russian Science Foundation: 17-14-01063. Russian Foundation for Basic Research: 16-34-00687, 16-34-60060, 17-34-50012. Goszadanie project: 6.9654.2017/8.9. DAAD and Ministry of education and Science: 6.12735.2018/12.2. Lake Baikal Foundation: FOB_02-3/05.
URI: https://elib.bsu.by/handle/123456789/259540
Scopus: 10.7717/peerj.5571
metadata.dc.identifier.scopus: 85053426273
Sponsorship: Russian Science Foundation grant 17-14-01063, with the partial financial support of Russian Foundation for Basic Research grants 16-34-00687, 16-34-60060, 17-34-50012, the base part of Goszadanie project 6.9654.2017/8.9, joint program of DAAD and Ministry of education and Science M. Lomonosov (6.12735.2018/12.2) and Lake Baikal Foundation (FOB_02-3/05). There was no additional external funding received for this study. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Appears in Collections:Научные публикации, проиндексированные в SCOPUS и WoS

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