杂色曲霉在人胃液中体外培养产生杂色曲霉素的研究

本文用正交实验设计法探讨了杂色曲霉(Aspergillus versicolr)在加有两类不同性质营养物的人胃液中产生杂色曲霉素(Sterigmatocystin,简称ST)的条件。发现在26℃斜面静置培养12天后可产生ST。加入半合成物质的最佳配伍是:蔗糖1,000.0mg;蛋白胨50.0mg;KH_2PO_4 7.5mg;MgSO_4·7H_2O_2.5mg;人胃液10.0ml,称之为SPKM人胃液培养基。加入天然物质的最佳配伍是:玉米粉0.5g;豆腐粉0.25g,人胃液10.0ml,称之为CS人胃液培养基。还进一步研究了pH值和培养时间对杂色曲霉产毒菌株在SPKM和CS人胃液培养基中生长及产生ST的影响。根据临床胃酸缺乏程度分级标准,分为pH 1.0,3.0,6.5,8.0四个组。发现在两种人胃液培养基中,无论是杂色曲霉生长,还是产生ST,pH3.0到6.5是发生质变的范围。在两种人胃液培养基pH为6.5时,37℃静置培养8天有痕量ST产生,10天后就明显增加。所以杂色曲霉产生的ST可能是慢性萎缩性胃炎易癌变的原因之一。     

点叶绵枣叶片培养及器官分化的研究

点叶绵枣叶外植体培养于MS 6-BA 1 PPm IBA 0.5 ppm培养基中,一月后不定芽仅从近轴面的叶表面产生。组织学的观察表明,不定芽起源于表皮细胞。     

体外培养周期型马来丝虫感染期幼虫

关于体外培养周期型马来丝虫(periodic Brugia malayi)感染期幼虫(L_3),近年来国内外有一些报道,系应用含哺乳动物组织细胞系或原代细胞的培养系统培养彭亨丝虫和马来丝虫L_3,可使其幼虫发育至Ⅳ期蚴(L-4)或早期成虫(Chen and Howells,1979; Wong et al.,1982;Mak et al.,1983;郑惠君等,1984)。但未见应用含人体组织细胞系的体外培养系统培养布鲁属丝虫L_3的报道。本研究     

在被小泡参与突触前后膜特化增厚的形态学研究

Our object was to characterize the morphological changes of coated vesicles and synaptic membranes during synaptogenesis. Neurons from spinal cords of fetal mice were established as isolated cells in primary culture. After a few days in vitro, the neurons extended their neurites and started their interaction. At timed intervals thereafter, cultures were fixed for electron microscopic observation. Coated vesicles were prominent in the neuronal cytoplasm at the time of synaptogenesis (about 7-10 days in vitro). Similar vesicles were seen in continuity with some cisternae in the Golgi regions and there was an increase in number during the synaptogenic period. Indeed it is not established whether the coated vesicles were exocytotic or pinocytotic in nature, but the cisternae which were in continuity with coated vesicles could be labelled by glucose-6-phosphatase (G6Pase) but not by thiamine pyrophosphatase (TPPase). Such vesicles were also seen in continuity with the neuronal plasmalemma near the closest contact site and contributed their undercoating to pre- and postsynaptic densities. The formation of bilateral membrane specialization was described as being structurally similar to synaptic active zones and appeared to be the first definitive sign of synapseformation. It has been suggested that the synaptic dense material may derive wholly or in part from the exocytic coated vesicles which apparently budding off from endoplasmic reticulum cisternae. This incorporation could provide the mechanism for confining specific characteristics of neuronal membrane to the synaptic region.