30个枣树种质资源遗传多样性的ISSR分析

取30个枣树品种进行ISSR分子标记分析,其扩增条带分别进行琼脂糖和聚丙烯酰胺凝胶电泳检测,以期获得不同产地品种之间的遗传多态性。从100条选择扩增的ISSR引物中筛选出17条扩增清晰、重复性和稳定性好的引物,选取其中8条扩增条带多态性强的引物进行遗传聚类分析。结果表明：（1）1％琼脂糖凝胶电泳和5％聚丙烯酰胺凝胶电泳检测扩增总条带数分别为72和127条,其中多态性条带分别为51条和113条,多态性条带比率（PPB）分别为70．8％和88．9％。（2）基于UPGMA软件对30个品种的遗传差异性分析表明,8个ISSR引物可以将枣树品种之间遗传差异明显区分开来。两种电泳检测方法相比较,聚丙烯酰胺凝胶电泳检测可获得较为精细的枣树品种间遗传图谱。其遗传相似系数范围在0．56～1．00之间,以0．62为最低遗传相似系数,可将30个枣树品种分成3个大类,6个亚类,为进一步研究枣树品种间分类、起源进化关系和分子辅助育种奠定基础。     

甜樱桃品种SSR-PCR反应体系的优化

以甜樱桃品种那翁为试材,研究了樱桃SSR技术中PCR反应体系的主要成分对SSR扩增结果的影响,并比较了采用聚丙稀酰胺凝胶及琼脂糖电泳检测扩增产物多态性的差异.结果表明:在PCR反应体系中,DNA最适浓度30～45 ng;Mg2+的最适浓度范围为1.5～3.0 mmol/L;dNTP最适浓度为0.2～0.3 mmol/L;引物的最适浓度为0.3～0.4 μmol/L;Taq聚合酶在20 μl反应体系中宜加入0.5 U.利用此反应体系,对24份樱桃代表资源进行了SSR反应,用6%的非变性聚丙稀酰胺凝胶电泳检测,扩增产物在100～250 bp之间,不同品种间DNA谱带多态性丰富.琼脂糖电泳检测的DNA多态性不如聚丙稀酰胺凝胶丰富.     

晚疫病菌基因组SSR扩增产物两种检测方法的比较与改进

以32份马铃薯或番茄晚疫病菌基因组DNA为模板,分析了琼脂糖凝胶电泳法和聚丙烯酰胺凝胶电泳法对10对SSR引物多态性检测的影响,同时比较了聚丙烯酰胺凝胶电泳两种银染法(常规银染法和快速银染法)的差异。结果显示,聚丙烯酰胺凝胶电泳较琼脂糖凝胶电泳分离效果好,具有更高的多态性检出率,其中快速银染法与常规银染法的检出结果相同,但常规银染步骤繁琐,整个过程要用1-2h,而快速银染只需约15min,且染色背景较浅,条带清晰。聚类分析显示,聚丙烯酰胺凝胶电泳快速银染法可将供试晚疫病菌株分布于更多的聚类组,显示出更高的遗传变异度。可见,聚丙烯酰胺凝胶电泳快速银染法结合SSR分子标记技术,可有效地用于马铃薯或番茄晚疫病菌群体遗传多样性分析。     

16份石榴RAPD扩增产物的两种电泳方法检测及其序列特征

本实验以16个石榴品种为实验材料,筛选出10个重复性及多态性均较好的引物进行RAPD分析。分别采用琼脂糖凝胶以及聚丙烯酰胺凝胶(PAGE)电泳检测方法对PCR扩增结果进行检测并对其结果进行比较,结果显示,两种电泳方式均能得到较为清晰的扩增条带,且两种电泳方式获得的条带总数及多态性条带数均有所不同,琼脂糖凝胶电泳方法共检测出76条带,其中有43条为多态性谱带,多态性比率为56.4%;而在PAGE电泳方法共检测出123条谱带,多态性谱带数为87条,多态性比率为70.95%。PAGE电泳方法检测出的条带数约为琼脂糖凝胶电泳方法检测出条带数的1.5倍。基于两种电泳方法所得RAPD标记的多态性位点,利用NYSYS软件计算遗传相似系数,并构建遗传关系聚类图,分析结果显示,石榴遗传多样性丰富,两种电泳方法所得聚类结果大致相同,可以利用RAPD分子标记及两种电泳检测方法对不同数量的石榴进行分子水平的品种鉴定和遗传多样性的分析。同时通过对来自几个引物随机挑选的17个片段进行克隆,测序结果显示17个片段都是对应引物的RAPD扩增产物,其中有3条是编码蛋白的基因片段,表明了RAPD不仅扩增基因组上的非编码蛋白序列,同时也可以扩增编码蛋白的基因片段,这为更好地认识RAPD技术的实质以及促进石榴产业的发展提供了理论依据。     

大熊猫多态性微卫星标记筛选

选用前人分离得到的42对大熊猫微卫星引物,分别用圈养大熊猫的血液DNA和野生大熊猫的粪便DNA对其进行PCR扩增,并比较琼脂糖凝胶电泳和变性聚丙烯酰胺凝胶电泳的检测结果。结果表明,不同标记的多态性差异较大,筛选出13对能较好地应用于大熊猫遗传多样性研究的微卫星引物。     

SRFA法构建水稻DNA指纹图谱

水稻基因组DNA用PstⅠ酶切同时与人工接头连接后,使用选择性引物进行PCR扩增,琼脂糖凝胶电泳检测所构建的水稻DNA指纹图谱。结果表明在JX17和ZYQ8间以及5种野生稻间均存在DNA多态性片段。     

RFA法构建水稻DNA指纹图谱

水稻基因组DNA用Psf I酶切同时与人工接头连接后,使用选择性引物进行PCR扩增,琼脂糖凝胶电泳检测所构建的水稻DNA指纹图谱。结果表明在JXl7和ZYQ8问以及5种野生稻间均存在DNA多态性片段。     

我国七个民族的C3多态性及一例C3-Se座位重组家庭研究

1968年Alper等使用琼脂糖凝胶电泳技术首先检出补体第三组分(C3)的遗传变异体。现在已知决定C3多态性的遗传座位在第19号染色体短臂上,与控制分泌HAB血型物质的Se座位连锁。C3座位上的常见等位     

中国人补体第3成份(C3)和备解素因子B(Bf)的遗传多态性

使用琼脂糖凝胶电泳和免疫结合琼脂糖凝胶电泳方法分别调查了补体第3成份(C3)和备解素因子B(Bf)在中国人中的多态性。在388名无关个体中,有两种常见的C3表现型SS和FS,基因频率为C3~F=0.0039,C3~S=0.9961。未发现稀少的C3变异型。在200例无关个体中,Bf表现型为S155人,FS 38人,F 6人以及1例FS0.7。基因频率为Bf~s=0.8700,Bf~F=0.1275,Bf~(S0.7)=0.0025。C3和Bf表现型分布与Hardy-Weinberg平衡相一致。     

菠菜性别相关SRAP分子标记的筛选及分析

菠菜(2n=2x=12)是研究雌雄异株植物性别分化的一种理想材料。本研究利用SRAP (sequence re-lated amplified polymorphism)分子标记方法,采用256对引物组合对菠菜雌、雄基因池进行筛选,后利用聚丙烯酰胺凝胶电泳和琼脂糖凝胶电泳进行检测。结果表明,经过对256对引物组合进行筛选,其中20对引物组合扩增效果较好,共获得47个雌性特异片段和29个雄性特异片段,其多态性达到19.9%;在这20对引物组合中,引物对em11+me14、em10+me10经琼脂糖凝胶电泳验证扩增效果最好,可以扩增出菠菜雄、雌稳定的分子标记。本研究获得的性别特异标记可以用于菠菜幼苗期性别鉴定,同时为菠菜性别相关基因的克隆奠定了基础。     

Investigation of the mechanism of temperature sensitivity of the electroreceptors of ampullae of lorenzini

In experiments on Black Sea skates (Raja clavata), the potential of the receptor epithelium of the ampullae of Lorenzini and spike activity of single nerve fibers connected to them were investigated during electrical and temperature stimulation. Usually the potential within the canal was between 0 and –2 mV, and the input resistance of the ampulla 250–400 k. Heating of the region of the receptor epithelium was accompanied by a negative wave of potential, an increase in input resistance, and inhibition of spike activity. With worsening of the animal's condition the transepithelial potential became positive (up to +10 mV) but the input resistance of the ampulla during stimulation with a positive current was nonlinear in some cases: a regenerative spike of positive polarity appeared in the channel. During heating, the spike response was sometimes reversed in sign. It is suggested that fluctuations of the transepithelial potential and spike responses to temperature stimulation reflect changes in the potential difference on the basal membrane of the receptor cells, which is described by a relationship of the Nernst's or Goldman's equation type.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. I. M. Sechenov, Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Pacific Institute of Oceanology, Far Eastern Scientific Center, Academy of Sciences of the USSR, Vladivostok. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 67–74, January–February, 1980.     

Principles of organization and evolution of systems of regulation of functions

Evolution of living organisms is closely connected with evolution of structure of the system of regulations and its mechanisms. The functional ground of regulations is chemical signalization. As early as in unicellular organisms there is a set of signal mechanisms providing their life activity and orientation in space and time. Subsequent evolution of ways of chemical signalization followed the way of development of delivery pathways of chemical signal and development of mechanisms of its regulation. The mechanism of chemical regulation of the signal interaction is discussed by the example of the specialized system of transduction of signal from neuron to neuron, of effect of hormone on the epithelial cell and modulation of this effect. These mechanisms are considered as the most important ways of the fine and precise adaptation of chemical signalization underlying functioning of physiological systems and organs of the living organism