sinopotamon 中文意思是什麼
sinopotamon
解釋
華溪蟹屬-
From this result it can be concluded that the est isoenzyme was very sensitivity for the toxication of hg24 and can be used as a bioindicator of the environmental pollution. the same experiment had been done twice in 2003. scetion : from october in 2002 to october in 2003, by using random amplified polymorphic dna ( rapd ), the effects on ovary ' s dna under different concentration of mercury in freshwater crab ( sinopotamon yangtsekiense ) were detected for the first time
汞對長江華溪蟹卵巢總dna的影響汞對長江華溪蟹( sinopot胭onyangtsekiense )細胞及分子水平的影響以體外暴露的方法,對經汞體外暴露一周長江華溪蟹的卵巢總dna ,採用隨機引物擴增多態性dna ( rapd )技術對13條隨機引物的擴增圖譜用nei共享度公式進行分析。 -
The number of mitochondrion is more less than the endoplasmic reticulum, and the smooth endoplasmic reticulum is the main kind of the endoplasmic reticulum ; golgi bodies and lysosomes emerge in the secondary spermatocyte stage. finally, these organelles change into pre - acrosome vesicles which become acrosome at last. sinopotamon chekiangense during the spermatogenensis, chronmatins condense at different level until middle spermatid stage
在整個發生過程中細胞器數量較少,內質網數目在各細胞器中所佔比例最大,以滑面內質網為主,線粒體在初級精母細胞中最多,自次級精母細胞開始逐漸減少,高爾基體和溶酶體自次級精母細胞始出現,在發育過程中上述細胞器不斷分化,在精細胞階段形成前頂體腔,最後形成圓球形頂體。 -
The phylogenetic analysis of these two nonmarine crabs together with intertidal, supratidal and swimming crabs based on portions of mitochondrial 16s rdna sequences suggested that grapsioidea, ocypodoidea, potamoidea and portunoidea arose from a common marine ancestor, and the estimated divergence time are similar. the freshwater crab phylogeny suggested that the genus sinopotamon and the genus potamonautes arose from a common ancestor and the estimated divergence time is about 36 - 44 mya
基於線粒體16srdna部分序列,對這2個類型的非海洋蟹類與潮間帶蟹類、海洋蟹類之間的系統發生分析提示,方蟹總科( grapsioidea ) 、沙蟹總科( ocypodioidea ) 、溪蟹總科( potamoidea )和梭子蟹總科( portunoidea )的蟹類起源於一個共同的海洋蟹類祖先,它們彼此之間的歧異時間基本一致。 -
The freshwater crab is widely distributed in chinese freshwater area, while the sinopotamon yangtsekiensei is a kind of representative one of the freshwater crab
溪蟹廣泛分佈在我國的淡水水域中,而長江華溪蟹( sinopotamonyangtsekiense )是此類動物中的代表動物。 -
Section : laboratory experiment was carried out to determine mercury accumulation in four organs that were gills, heart, hepatopancreas and gonad of freshwater crab sinopotamon yangtsekiense by using atomic absorption method
汞在長江華溪蟹四種器官的積累以體外暴露的方式,採用還原氣化原子吸收的方法,測定了長江華溪蟹鰓、心臟、肝胰腺和性腺中汞的積累情況。 -
55mg / l [ hg2 ] ) for 48 days, the changes of hg2 + on ultrastructure of the myocardial cells of the freshwater crab sinopotamon yangtsekiense ( ) at three different times was studied. sixty freshwater crabs ( ) were divided into two groups : control ( n = 30 ) and test ( n = 30 ) groups
汞對長江華溪蟹心肌細胞超微結構的影響應用透射電鏡的方法,研究了汞在12天、 28天及48天內對長江華溪蟹心肌細胞超微結構的影響。 -
Section four : effects of copper and cadmium on ultrastructure of myocardial cell in sinopotamon yangtsekiense the effect of copper and cadmium on ultrastructure of myocardial cells of sinopotamon yangtsekiense was studied by us
銅、鎘聯合作用30d后,細胞核形態進一步改變,內外膜分離程度加大,異染色質疑集加重。線粒體膜破裂,內容物外流,嵴斷裂消失。 -
Section : this paper dealed with the effects at different concentrations of hg2 + on the esterase isoenzyme ( est ) of the gill, heart, hepatopancreas and gonad in freshwater crab sinopotamon yangtsekiense by using polyacrylamide gel electrophoresis ( page ). the crabs were exposed one week. the concentrations of mercury were omg / l, 0. 0547 mg / l, 0. 1727 mg / l, 0. 5457 mg / l and 1. 7244mg / l
汞對長江華溪蟹四種器官酯酶同工酶的影響採用聚丙烯酰胺凝膠電泳的方法,以體外暴露的方式,測定了長江華溪蟹鰓、心臟、肝胰腺、性腺四種器官酯酶同工酶的變化。 -
The result showed that muscle cells is damaged by exposure in low dosage of cd2 +. so cadmiun is a very important poison substance in the environment. section two : effects of lead on ultrastructure of myocardial cell in freshwater crab sinpotamon yangtsekiense from may to june in 2002, the effect of pb2 + on ultrastructure of myocardial cells of sinopotamon yangtsekiense was studied by using transmission electron microscopy ( tem )
體外暴露鉛對長江華溪蟹心肌細胞超微結構的影響於2002年5 6月,採用體外暴露鉛的方法處理長江華溪蟹( sinopotamonyangtsekiense ) ,應用透射電鏡技術( tem ) ,觀察了鉛對心肌細胞超微結構的影響。
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