颈动脉窦区注入枸橼酸钠抑制家兔呼吸的机制

向颈总动脉头端注入枸橼酸钠能使大多数家兔发生呼气性呼吸暂停和呼吸频率变慢。此呼吸抑制效应可被地卡因麻醉颈动脉窦区所消除。切断窦神经不能阻断枸橼酸钠对呼吸的抑制。切断迷走神经窦支则使半数以上家兔的呼吸抑制减弱或消失,而在结状神经节上方切断迷走神经能阻断大多数家兔的呼吸抑制。结果提示,迷走神经窦支是颈动脉窦区感受器传入通路之一,向颈动脉窦区注入枸橼酸钠对呼吸的抑制主要是通过迷走神经传入引起的。     

家兔脑桥臂旁内侧核区微量注射吗啡对中缝大核区单位放电的影响

实验在62只家兔上进行。结果观察到,中缝大核(NRM)区562个单位中,有118个单位的自发放电频率低,放电比较规则,动作电位时程长,易被微电泳5-羟色胺所阻遏,称为A 组单位。其余444个单位的自发放电频率高,动作电位时程短,称为B 组单位。大多数 B组单位对微电泳5-羟色胺不起反应。脑桥臂旁内侧核(NPBM)区微量注射吗啡(200μg/2μl)或静脉注射吗啡(3mg/kg)后,20个A 组单位中有19个发生兴奋效应,而49个B 组单位中仅有29个发生兴奋效应,而且A组单位发生兴奋的程度也比B组单位的高。这些结果提示,NRM区的A 组单位可能是5-羟色胺神经元,吗啡对这些神经元有相对选择性的兴奋作用。 在另外11只家兔上,应用辣根过氧化物酶(HRP)逆行追踪技术观察到,NPBM 区与NRM 区有纤维联系。 本实验结果提示,静脉注射吗啡所致的呼吸抑制,可能与吗啡作用于 NPBM,通过纤维联系,引起NRM 5-羟色胺神经元兴奋有关。     

家兔脑内微量注射或脊髓珠网膜下腔注射氟安定的呼吸抑制作用

实验在49只局部麻醉、肌肉麻痹、切断双侧颈迷走神经的家兔上进行。观察到一侧孤束核(NTS)区微量注射氟安定,使对侧膈神经放电平均幅度减低,呼吸频率加快。事先在NTS区微量注射GABA 受体拮抗剂印防己毒素,可阻断氟安定的减低膈神经放电平均幅度的作用。在脑桥头端横断脑干出现长吸式呼吸的免上,一侧NTS区微量注射氟安定,也使对侧膈神经放电平均幅度减低,但呼吸频率减慢。在脑桥结合臂旁内侧核(NPBM)区微量注射氟安定,使呼吸频率明显减慢,吸气和呼气时程延长,这效应可被毒扁豆碱阻断。脊髓蛛网膜下腔注射氟安定,使膈神经放电平均幅度减低,血压下降,这效应可被印防己毒素阻断。结果提示,NPBM 的存在与呼吸频率加快有关;而氟安定作用于NPBM区,却减慢呼吸频率,其机制可能是抗胆碱能作用。氟安定直接作用于NTS 区或脊髓使膈神经放电平均幅度减低、血压下降,其机制可能与激活GABA 受体有关。     

在北纬24°以南的云南永德县发现白蜡虫自然种群

白蜡虫Ericerus pela Chavannes是我国温带重要的林业资源昆虫,其雄虫所产的蜡是轻、重工业,医药等不可缺少的原料,它又是我国传统的出口物资。 关于中国白蜡虫的分布,王辅(1963,1978)认为:在北纬26°以南地区白蜡虫不适其生存。我们于1982年12月—1983年9月,对云南省永德县进行了考察,其结果如下。     

河南开封地区间日疟原虫在中华按蚊体内的发育观察

十余年来,广东、河南、陕西等省均报告有形态特殊的间日疟原虫存在,并曾被命名为间日疟原虫多核亚种(Plasmodium vivax multincleatum)(江静波等,1965),或称为变异的间日疟原虫(张奎等,1980),以上命名均是以疟原虫红内期的形态特征为依据,其在蚊体内的发育特征如何,则尚缺乏报告。1979年我们曾初步观察了该虫在蚊体内的发育情况(江静波等,1980),于后,1980年又对该种疟原虫在中华按蚊体内的发育情况进行了较系统的观察,现将结果报告如下:     

金丝猴的牙齿

牙齿对古生物、古人类研究是十分重要的。牙齿也是动物分类学所依据的重要特征之一,它所提供的亲缘证据和来自其他方面的材料多是相吻合的。在讨论和评价现生灵长类时,牙齿同样是不可缺少的材料之一。就目前所知,已发表的金丝猴(Rhinopithecus)牙齿的研究资料较少。Hooiier(1952)和Swindler(1976)对川金丝猴的牙齿只作了一个简单的记录和扼要的形态描述。至于滇金丝猴和黔金丝猴牙齿的研究纯属空白。为此,有必要对这三个类群牙齿的形态结构作一个简要的比较观察,试图找出它们之间和属间的异同点,为今后的综合性探讨提供基本材料。     

Multiple forms of lactate dehydrogenase in Staphylococcus aureus

Activities for nicotinamide adenine dinucleotide (NAD)-dependent and NAD-independent forms of lactate dehydrogenase (LDH) were measured in cell-free extracts of Staphylococcus aureus strain PS 6 for the d and l isomers of lactate. Data obtained for the NAD-dependent lactate dehydrogenases indicate that oxidation of both isomers of lactate is due to both an l-lactate-specific LDH and a lactate racemase. After acrylamide gel electrophoresis, two bands exhibiting LDH activity were detected in crude or in partially purified cell-free extracts. The fast band exhibited LDH activity that was not NAD-dependent for both isomers of lactate, whereas, the slow band had very high NAD-dependent LDH activity for the l isomer but just detectable activity or the d isomer. Both bands appeared when d-lactate was used as the substrate, but only the slow band was formed when l-lactate was the substrate. NAD-dependent LDH, in apparent association with a nonspecific tetrazolium-reducing protein, is responsible for the production of the slow band.     

Instrumental assay of microbial lipase at constant pH

A rapid, accurate method with high sensitivity and reproducibility, and having the advantage of a short incubation period under constant pH, has been developed for routine measurement of microbial lipase. Assembled from readily available and economical instrumental components, the apparatus includes a pH meter, a thermoelectric heating and stirring device, a motor-driven burette, and an automatic recorder. The reaction mixture, consisting of 5 ml of a 10% olive oil-gum arabic emulsion, 2 ml of 3 m NaCl, 2 ml of sodium taurocholate (15 mg/ml) of 0.075 m CaCl(2), 5 ml of water, and 1 ml of enzyme solution, was adjusted to pH 8.0 and 37 C. The pH was maintained at a constant value by automatic addition of 0.01 n NaOH during the incubation period, which usually lasted 5 min. A lipase unit, derived from the use of this technique, may be defined as the number of microequivalents of acid liberated per minute under the specified conditions. The method was sensitive to 0.01 units. Various organisms tested produced 0.17 to 1.32 units per ml of the cell filtrate. An Arrhenius plot for staphylococcal lipase yielded 14,500 cal for function A (energy of activation).