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首页> 外文期刊>Marine Environmental Research >Isolation-hypoxia and re-oxygenation of the pallial cavity of female Crepipatella dilatata during estuarine salinity changes requires increased glyoxylase activity and antioxidant metabolism to avoid oxidative damage to female tissues and developing embryos
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Isolation-hypoxia and re-oxygenation of the pallial cavity of female Crepipatella dilatata during estuarine salinity changes requires increased glyoxylase activity and antioxidant metabolism to avoid oxidative damage to female tissues and developing embryos

机译:在河口盐度变化期间,雌性克雷伯氏菌的腹腔的隔离缺氧和再充氧需要增加乙醛酸酶活性和抗氧化剂代谢,以避免对女性​​组织和发育中的胚胎的氧化损伤

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摘要

The estuarine slipper limpet Crepipatella dilatata is a gastropod that can survive prolonged periods of low salinities (< 24 PSU) caused by tidal changes and/or prolonged periods of rain. During low salinity events, C dilatata can isolate its body from the outside environment, by sealing its shell against the substrate on which it grows. Prolonged isolation periods from the surrounding environment can greatly lower available oxygen levels inside of the pallial cavity, impacting on the physiology of both females and their incubated encapsulated embryos. When salinity levels return to normal, isolation is terminated and the inflow of seawater results in re-oxygenation. In this study we show that when re-oxygenation of the pallial cavity takes place, oxidative damage, in the form of increased levels of lipid peroxides and protein carbonyls, occurs in both maternal tissues and in incubated embryos. To avoid terminal oxidative damage both females and their embryos increase their levels of the glyoxalase pathway enzymes (GLX-I and GLX-II) and general antioxidant metabolism (SOD, CAT, GR, GPDX and GST). As a result the levels of oxidative damage decline to basal levels within 24 h of reoxygenation. Thus the combination of isolation, a behavioural strategy, combined with encapsulation of embryos and a capacity to up regulate relatively rapidly the glyoxylase pathway and general antioxidant metabolism, play major roles in facilitating the survival of C dilatata in the small estuaries of Southern Chile. (C) 2016 Published by Elsevier Ltd.
机译:河口拖鞋帽贝Crepipatella dilatata是一种腹足动物,可以在潮汐变化和/或长时间降雨引起的低盐度(<24 PSU)的情况下长期生存。在低盐度事件中,C。dilatata可以通过将其外壳密封在其生长的基质上,从而使其身体与外部环境隔离。与周围环境的隔离时间过长会大大降低眼睑腔内的可用氧气水平,从而影响雌性及其孵化的包囊胚胎的生理。当盐度水平恢复正常时,隔离被终止,海水的流入导致重新充氧。在这项研究中,我们表明,当对胆囊腔进行再充氧时,母体组织和孵化的胚胎中均会发生脂质过氧化物和蛋白质羰基蛋白含量升高的氧化损伤。为了避免最终的氧化损伤,雌性和它们的胚胎都增加了乙二醛酶途径酶(GLX-I和GLX-II)和一般抗氧化剂代谢(SOD,CAT,GR,GPDX和GST)的水平。结果,氧化损伤水平在复氧后24小时内降至基础水平。因此,分离,行为策略,胚胎包封以及相对较快地调节乙醛酸酶途径和一般抗氧化剂代谢的能力相结合,在促进智利南部小河口C dilatata的生存中起着重要作用。 (C)2016由Elsevier Ltd.出版

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  • 来源
    《Marine Environmental Research》 |2016年第8期|59-71|共13页
  • 作者

    Cubillos Victor; Chaparro Oscar; Segura Cristian; Montory Jaime; Cruces Edgardo; Burritt David;

  • 作者单位

    Univ Austral Chile, Inst Ciencias Marinas & Limnol, Valdivia, Chile|Univ Austral Chile, Lab Costero Recursos Acuat Calfuco, Valdivia, Chile;

    Univ Austral Chile, Inst Ciencias Marinas & Limnol, Valdivia, Chile;

    Univ Austral Chile, Inst Ciencias Marinas & Limnol, Valdivia, Chile;

    Univ Austral Chile, Inst Ciencias Marinas & Limnol, Valdivia, Chile;

    Univ Santiago Chile, Ctr Dev Nanosci & Nanotechnol CEDENNA, Santiago, Chile;

    Univ Otago, Dept Bot, Dunedin, New Zealand;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Brooding; Encapsulated embryos; Re-oxygenation; Oxidative damage; Antioxidants;

    机译:育雏;包囊的胚胎;再充氧;氧化损伤;抗氧化剂;

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