文章摘要
李根瑞,任利华,孙国华,杨建敏,韦秀梅,刘兆存,李尚俊,姜 汉.低溶氧胁迫对刺参(Apostichopus japonicus)氧化应激指标的影响.渔业科学进展,2016,37(5):133-139
低溶氧胁迫对刺参(Apostichopus japonicus)氧化应激指标的影响
Effects of Hypoxic Stress on Oxidative Stress Indices in Apostichopus japonicus
投稿时间:2015-07-08  修订日期:2015-09-06
DOI:10.11758/yykxjz.20150708001
中文关键词: 低氧胁迫  刺参  乳酸  丙二醛  抗氧化酶系
英文关键词: Hypoxia stress  Apostichopus japonicus  Lactic acid  Malondialdehyde  Antioxidant enzyme system
基金项目:山东省自然科学基金(ZR2013CM029)、山东省现代农业产业技术体系(SDAIT-22-02)、海洋经济创新发展区域示范项目(20130125)、山东省农业重大应用技术创新项目、黄河三角洲学者岗位、山东省良种工程“速生抗病耐高温刺参良种选育”和烟台市科技发展计划项目(2014NC054)共同资助
作者单位
李根瑞 上海海洋大学 上海 201306山东省海洋资源与环境研究院 烟台 264006 
任利华 山东省海洋资源与环境研究院 烟台 264006 
孙国华 山东省海洋资源与环境研究院 烟台 264006 
杨建敏 山东省海洋资源与环境研究院 烟台 264006 
韦秀梅 山东省海洋资源与环境研究院 烟台 264006 
刘兆存 山东华春渔业有限公司 东营 257236 
李尚俊 上海海洋大学 上海 201306 
姜 汉 海阳富瀚海洋科技有限公司 海阳 265116 
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中文摘要:
      为探明低氧胁迫对刺参(Apostichopus japonicus)抗氧化能力的影响以及刺参的低氧逆境响应机制,给低氧环境条件下的刺参养殖提供指导,本研究通过设置低氧胁迫实验,将刺参在水体低氧[(2.0±0.2) mg/L] 8 h处理后恢复常氧[(7.0±0.2) mg/L] 2.5 h,取低氧和常氧不同时间段的刺参肌肉、呼吸树和消化道组织,对各组织的乳酸(LD)、丙二醛(MDA)和抗氧化酶系等应激参数进行测定和变化趋势分析。结果显示,与对照组相比,在低氧胁迫8 h内,随着低氧暴露时间的延长,刺参肌肉、呼吸树和消化道等组织中的LD含量、抗氧化能力(T-AOC)、过氧化氢酶(CAT)、谷胱甘肽-S-转移酶(GST)活力显著上升;超氧化物歧化酶(SOD)活力显著下降;肌肉组织中的MDA含量显著降低,呼吸树和消化道中的MDA含量显著上升。在恢复常氧阶段,各氧化应激指标逐渐恢复到正常水平。低氧胁迫使刺参的有氧代谢减弱,无氧代谢增强,以维持机体能量需求。低氧胁迫造成刺参机体各种应激生化指标上升或下降,这是机体为适应低氧环境刺激而作出的一种抗氧化策略。
英文摘要:
      Apostichopus japonicus that usually habits in the temperate zone, is one of the important aquaculture species at northern China coast. Dissolved oxygen, known as the oxygen content in water, is necessary for the survival of aquatic organisms and directly affects the enzyme activity, metabolism, and growth of aquatic organisms. Therefore, low dissolved oxygen during the hot weather is very harmful for sea cucumber aquaculture and has become an urgent issue. Here we investigated the effects of hypoxic stress on antioxidant capacity of A. japonicus. The experimental group was exposed to hypoxia [(2.0±0.2) mg/L] for 8 h, followed by reoxygenation [(7.0±0.2) mg/L] for 2.5 h. Then tissues from the muscle, respiratory tree, and digestive tract were collected at different time points. Levels of lactic acid, malondialdehyde (MDA), and activities of the antioxidant enzyme system in different tissues and time points were analyzed. It was found that during the exposure to hypoxia, the lactic acid content and activities of total antioxidant capacity (T-AOC), catalase (CAT) and glutathione-S-transferase (GST) were significantly higher compared with the control group (P<0.05), whereas the activity of superoxide dismutase (SOD) became lower (P<0.05) with the extension of hypoxic exposure. The level of MDA in the muscle tissue was significantly lower than in the control group (P<0.05), however, was higher in the respiratory tree and digestive tract. All of the oxidative stress indices gradually returned to normal levels during reoxygenation. These results indicated that as the aerobic metabolism was inhibited during hypoxia, the anaerobic metabolism was increased to maintain the energy supply. The elevated T-AOC, CAT and GST activities and declined SOD activity caused by hypoxia might be an antioxidant strategy to adapt to the hypoxic environment. Our study may provide useful information for the control of hypoxic conditions in sea cucumber aquaculture.
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