摘要
溶酶体(lysosome)是真核细胞内重要的细胞器.近年来随着对溶酶体结构和功能研究的深入,溶酶体被认为是亚细胞水平上的有毒物质的靶点,在国外已广泛应用于海洋污染监测.本文概述了溶酶体标志酶、溶酶体-自噬系统和溶酶体膜的生物学特性,在此基础上介绍了利用溶酶体检测技术进行海洋污染监测的原理和方法.双壳贝类消化腺和鱼类肝脏最适于作为溶酶体检测的敏感器官;采用溶酶体膜稳定性测定(LMS)、溶酶体中性红保留时间测定(NRRT)、溶酶体形态测量(MM)、溶酶体标志酶免疫组化测定(Ih)和电镜(EM)观察等技术,能够指示海洋污染状况,因此溶酶体可作为生物标志物监测海洋环境污染.文中还分析了溶酶体检测的优缺点以及应注意问题,对其应用前景进行了展望.
Lysosome is an important organelle existing in eukaryotic cells. With the development ot the study on the structure and function of lysosome in recent years, lysosome is considered as a tar- get of toxic substances on subcellular level, and has been widely applied abroad in marine pollution monitoring. This paper summarized the biological characteristics of lysosomal marker enzyme, lyso- some-autophagy system, and lysosomal membrane, and introduced the principles and methods of applying lysosomal detection in marine pollution monitoring. Bivalve shellfish digestive gland and fish liver are the most sensitive organs for lysosomal detection. By adopting the lysosomal detection techniques such as lysosomal membrane stability (LMS) test, neutral red retention time (NRRT) assay, morphological measurement (MM) of lysosome, immunohistochemical (Ih) assay of lysoso- real marker enzyme, and electron microscopy (EM), the status of marine pollution can be evaluated. It was suggested that the lysosome could be used as a biomarker for monitoring marine environmental pollution. The advantages and disadvantages of lysosomal detection and some prob- lems worthy of attention were analyzed, and the application prospects of lysosomal detection were discussed.
出处
《应用生态学报》
CAS
CSCD
北大核心
2013年第11期3318-3324,共7页
Chinese Journal of Applied Ecology
基金
海洋公益性行业科研专项(201005016)资助
