流式细胞计的研制

流式细胞计是近年发展起来的一种综合应用光学机械,电子学,流体动力学,激光和计算机的高技术生物医学仪器。它在生物学基础研究和临床医学研究中有广泛的应用。我们最近研制成功国内首台多参数流式细胞计,并已通过中国科学院院级鉴定。本文介绍该仪器的原理,主要结构与技术要点和使用结果等,它将有助于我国流式细胞术及其应用研究工作的开展。     

毛枝南蛇藤根皮中南蛇藤素的分离鉴定及含量测定

从卫矛科南蛇藤属植物毛枝南蛇藤(Celastrus hookeri Prain)根皮中首次分离出一个红色立方体形结晶,经紫外、红外、高分辨质谱和~(13)C核磁共振谱分析,并与有关文献数据对照,确认是南蛇藤素。作者用薄层扫描和高效液相两种方法初步测定了毛枝南蛇藤根皮和根的木栓化表皮的南蛇藤素含量,结果表明南蛇藤素主要集中在根的木栓化表皮,含量在12%以上,而在整个根皮中的含量大约为1%。     

垂体后叶素和加压素对离体心肌的直接作用

本实验采用大鼠离体右心房和右心室肌条模型,观察了垂体后叶素和加压素对右心房和右心室肌的直接作用。结果表明:垂体后叶素对右心房的自主性收缩频率和幅度及右心室肌的收缩幅度均有剂量依赖性抑制作用;加压素对右心房和右心室肌收缩幅度也有剂量依赖性抑制作用,但对右心房自主节律无影响;催产素对右心房的收缩频率和幅度则均无影响。加压素V_1、V_2受体拮抗剂d(CH_2)_5Tyr(Me)AVP和d(CH_2)_5(D-Ile~2,Ile~4,Ala(NH_2)~9)AVP对垂体后叶素的负性变力作用具有不同程度的阻断作用,但对垂体后叶素的负性变时作用无阻断作用。以上结果提示,垂体后叶素的负性变力作用主要是由加压素产生的,加压素对心肌有直接的负性变力作用;垂体后叶素的负性变时作用可能是非加压素和催产素成分的作用结果。     

生态因子对中药甘草质量影响的初步研究

甘草是一种常用中药,由于具有“调和诸药”之功效而成为方剂中最常用的一味药。古有“十方九草”之说,可见对甘草的需求量之大;目前,对甘草的需求不仅仅限于医药界,在食品、轻工、畜牧等行业也有广泛的应用。然而,由于长期滥采、滥挖,只挖不种,使得甘草的蕴藏量急剧下降,有些地区的甘草资源濒临枯竭。例如,东北松嫩平原,原是我国“东草”商品的主产区之一,并大量出口国外,     

Stimulation of n-alkane conversion to dicarboxylic acid by organic-solvent- and detergent-treated microbes

Summary A wild-type strain of Cryptococcus neoformans and Pseudomonas aeruginosa were used to convert n-pentadecane to the corresponding dioic acid, tridecane 1,13-dicarboxylic acid (DC-15). Altering the cell permeability by treating C. neoformans with 1% (v/v) toluene or 7% (v/v) Triton X-100 stimulated production of DC-15 by 1.5-fold and fourfold, respectively. Furthermore, DC-15 productivity was increased from 2.5 mg/l per hour to 18 or 30 mg/l per hour, respectively. If 10% (v/v) hexane was used to treat the yeast culture, stimulation of DC-15 production could reach 200% and more viable cells remained compared to the toluene-treated culture. Data from the organic solvent treatment experiment indicated that the solvent with a higher polarity showed a more adverse effect on DC-15 production. P. aeruginosa was vulnerable to most organic solvents; however, Tween 80 could greatly stimulate the conversion of n-pentadecane to DC-15. Although organic solvents and non-ionic detergents could enhance DC-15 formation by microbial conversion, it was inhibited by elevated levels of DC-15.Offprint requests to: E.-C. Chan     

Phosphorylation ofEscherichia coli NADP+-specific glutamate dehydrogenase

Glutamate dehydrogenase fromEscherichia coli is phosphorylated in vitro in an ATP-dependent enzymatic reaction. The phosphorylated protein, when exposed to acid conditions, releases the phosphate; this implies that the phosphorylation site is not on a serine, tyrosine, or threonine residue(s). Treatment of glutamate dehydrogenase with diethyl pyrocarbonate, a highly specific histidine-modifying reagent, blocks incorporation of³²P-phosphate from [-³²P]ATP into the enzyme, suggestive that the phosphorylation site is a histidine residue(s). The phosphorylated glutamate dehydrogenase was identified on the basis of its comigration with highly purified glutamate dehydrogenase, isolated fromE. coli, on denaturing, nondenaturing, and isoelectric focusing polyacrylamide gels and by sequence analysis.