Long-term hypothermic storage of oocytes of the European common frog Rana temporaria at various pressure regimes in gas mixtures based on oxygen, carbon monoxide, and nitrous oxide

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-22 DOI:10.1016/j.cryobiol.2024.104952
Evgeniy L. Gagarinskiy, Viktor K. Uteshev, Eugeny E. Fesenko Jr.
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Abstract

In recent years, the challenge of preserving amphibian biodiversity has increasingly been addressed through technologies for the short-term storage of unfertilized spawn at low positive temperatures. Previously the possibility of using a 6.5 atm gaseous mixture of carbon monoxide and oxygen for prolonged hypothermic preservation of unfertilized oocytes for more than 4 days was shown. This study aimed to investigate the viability of oocytes R. temporaria preserved under conditions of hypothermia at 2.5, 3 and 6.5 excess atm pressure in the various gas mixture compositions (CO, N2O, O2) and pure oxygen. The use of pressure up to 3 excess atmospheres was significantly beneficial compared to 6.5 atm at the 7 days storage period. The results indicate that oxygen pressure is a critical factor in maintaining oocyte viability. Admixing CO or N2O to oxygen reduced variability in the results but did not significantly affect the measured indicators (fertilization, hatching) in the experimental groups. The composition CO + O2 (0.5/3.5 ratio, 3 excess atm) reliably extended the shelf life of viable oocytes, indistinguishable from native controls by fertilization and hatching rates, to 4 days. After 7 days, oocytes exhibited fertilization and hatching rates that were 79 % and 48 % compared to native control. Reducing the pressure of the preserving gas mixture to 3 atm, as utilized in this study, simplifies the practical implementation of gas preservation technology for maintaining endangered amphibian species during breeding in laboratory conditions.

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在基于氧气、一氧化碳和一氧化二氮的混合气体中,在不同压力条件下对欧洲普通蛙Rana temporaria的卵母细胞进行长期低温储存。
近年来,通过在低正温度下短期保存未受精卵的技术,越来越多地解决了保存两栖动物生物多样性的难题。此前曾有研究表明,使用 6.5 atm 的一氧化碳和氧气混合气体可将未受精卵母细胞长时间低温保存 4 天以上。本研究旨在调查在 2.5、3 和 6.5 个大气压过剩压力下,在不同混合气体成分(一氧化碳、一氧化二氮、氧气)和纯氧中低温保存的 R. temporaria 卵母细胞的存活率。与 6.5 个大气压相比,在 7 天的保存期内,使用 3 个过剩大气压的压力明显有益。结果表明,氧气压力是维持卵母细胞活力的关键因素。在氧气中加入一氧化碳或一氧化二氮降低了结果的变异性,但对实验组的测量指标(受精率、孵化率)没有明显影响。CO+O2(0.5/3.5 比率,3 个过量大气压)能可靠地延长有活力卵母细胞的保存期至 4 天,其受精率和孵化率与原生对照组无异。7 天后,卵母细胞的受精率和孵化率分别为本地对照的 79% 和 48%。本研究将保存气体混合物的压力降低到 3 atm,简化了气体保存技术在实验室条件下繁殖濒危两栖动物时的实际应用。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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