851 resultados para MYTILUS-EDULIS
Resumo:
Seit mehreren Jahren werden im Labor für Radioökologie der Gewässer regelmäßig Fische aus der Deutschen Bucht auf die Schwermetalle Kupfer, Zink, Cadmium, Blei, Quecksilber sowie auf die Organohalogene Hexachlorbenzol, Hexachlorcyclohexan und polychlorierte Biphenole untersucht. In dieses Untersuchungsspektrum wurden 1990 Miesmuscheln (Mytilus edulis) aus der inneren Deutschen Bucht einbezogen, um im Rahmen eines deutsch-dänischen Gemeinschaftsprogramms weitergehende Informationen über Schadstoffbelastungen küstennaher Areale zu gewinnen.
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The changes in chemical, bacteriological and organoleptic qualities of mussels and clams during freezing and subsequent frozen storage have been studied in relation to the holding time in ice prior to freezing and the shelf-life of the product is determined.
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许多天然物质和人为的外界生物化学因子对许多无脊椎动物附着变态有诱导作用,这为人工控制无脊椎动物幼虫的附着变态过程提供了重要手段,同时对于幼虫培养,特别是对于经济种类幼虫的培养和育苗,具有重要的意义。本文以青岛贻贝Mytilus edulis Linnaeus为研究对象,于1990年1991年分别就不同的海水离子条件、拟肾上腺素和抗肾上腺素、拟胆碱和抗胆碱类化合物以及促进生物新陈代谢类化合物对贻贝幼虫附着变态的诱导作用进行了研究,结果表明:升高K~+或Ca~++浓度以及降低Mg~++浓度均对贻贝幼虫有附着变态诱导作用。Mg~++浓度降低促进K~+的诱导作用。氨基酸类神经递质GABA和其同系物天冬氨酸、谷氨酸、苷氨酸、β-丙氨酸无明显附着变态诱导作用。短时间内,L-DOPA诱导水平(30%)贻贝幼虫不经过附着而直接变态,只作用于β-受体的拟肾上腺素、多巴胺和异丙肾上腺素诱导50%水平的幼虫变态。作用于α-受体的拟肾上腺素、间羟胺、麻黄碱、去氧肾上腺素、去甲肾上腺素和肾上腺素诱70-90%水平的幼虫变态。阻断β-受体的抗肾上腺素、噻吗心安和心得安无诱导作用。但阻断β-受体的抗肾上腺素、立其丁、酚苄明和妥拉苏林对幼虫附着变态有诱导作用。干扰肾上腺素能神经递质释放的化合物利血平无变态诱导作用,并有致死作用。拟胆碱类分合物苯海过、琥珀酰胆碱和阿托品对贻贝幼虫均有附着变态诱导作用。变态诱导率维持在30%水平。拟胆碱化合物加兰他敏有较高的变态诱导率(56.1% (10~(-3)M, 36h))。抗胆碱类化合物氯丙嗪无明显诱导作用。调节生物体代谢和机能类化合物甲状腺素、ATP、肌、VitB_6和氨茶碱对贻贝幼虫有显著的附着变诱导作用,变态诱导率分别为:甲状腺素84.6 (10~(-3)M, 36h);ATP 57.7% (10~(-3)M, 36h);肌苷74.0% (10~(-3)M, 36h); VitB_6 41.3% (10~(-5)M, 36h)和氨茶碱50.0% (10~(-4)M, 36h)。前列腺素无诱导作用,而氯化可的松有一定诱导作用。去甲肾上腺素和乙酰胆碱对幼虫变态的诱导作用被Na~+通道阻断剂普鲁卡因和利多卡因阻断。但ATP和氨茶碱的诱导作用不被其阻断。这表明去甲肾上腺素和乙酰胆碱对幼虫的附着变态的诱导作用是通过视经传递完成的。而神经传递并没有参与ATP和氨茶碱对幼虫变态的诱导过程。
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Anthropogenic pollutant chemicals pose a major threat to aquatic organisms. There is a need for more research on emerging categories of environmental chemicals such as nanomaterials, endocrine disruptors and pharmaceuticals. Proteomics offers options and advantages for early warning of alterations in environmental quality by detecting sub-lethal changes in sentinel species such as the mussel, Mytilus edulis. This thesis aimed to compare the potential of traditional biomarkers (such as enzyme activity measurement) and newer redox proteomic approaches. Environmental proteomics, especially a redox proteomics toolbox, may be a novel way to study pollutant effects on organisms which can also yield information on risks to human health. In particular, it can probe subtle biochemical changes at sub-lethal concentrations and thus offer novel insights to toxicity mechanisms. In the first instance, the present research involved a field-study in three stations in Cork Harbour, Ireland (Haulbowline, Ringaskiddy and Douglas) compared to an outharbour control site in Bantry Bay, Ireland. Then, further research was carried out to detect effects of anthropogenic pollution on selected chemicals. Diclofenac is an example of veterinary and human pharmaceuticals, an emerging category of chemical pollutants, with potential to cause serious toxicity to non-target organisms. A second chemical used for this study was copper which is a key source of contamination in marine ecosystems. Thirdly, bisphenol A is a major anthropogenic chemical mainly used in polycarbonate plastics manufacturing that is widespread in the environment. It is also suspected to be an endocrine disruptor. Effects on the gill, the principal feeding organ of mussels, were investigated in particular. Effects on digestive gland were also investigated to compare different outcomes from each tissue. Across the three anthropogenic chemicals studied (diclofenac, copper and bisphenol A), only diclofenac exposure did not show any significant difference towards glutathione transferase (GST) responses. Meanwhile, copper and bisphenol A significantly increased GST in gill. Glutathione reductase (GR) enzyme analysis revealed that all three chemicals have significant responses in gill. Catalase activity showed significant differences in digestive gland exposed to diclofenac and gills exposed to bisphenol A. This study focused then on application of redox proteomics; the study of the oxidative modification of proteins, to M. edulis. Thiol proteins were labelled with 5-iodoacetamidofluorescein prior to one-dimensional and two-dimensional electrophoresis. This clearly revealed some similarities on a portion of the redox proteome across chemical exposures indicating where toxicity mechanism may be common and where effects are unique to a single treatment. This thesis documents that proteomics is a robust tool to provide valuable insights into possible mechanisms of toxicity of anthropogenic contaminants in M. edulis. It is concluded that future research should focus on gill tissue, on protein thiols and on key individual proteins discovered in this study such as calreticulin and arginine kinase which have not previously been considered as biomarkers in aquatic toxicology prior to this study.
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info:eu-repo/semantics/published