St14/TaqⅠRFLPs在甲型血友病基因探测与产前基因诊断中的应用

<正> 甲型血友病是最常见的遗传性凝血疾病,是由于凝血因子Ⅷ(FVⅢ)基因缺陷所致。目前对此病尚无满意的治疗方法。利用DNA分析技术进行甲型血友病基因检测与产前基因诊断对开展优生优育有重要的实际应用价值。由于FⅧ基因组织结构庞大,分子病理改变复杂,目前多采用DNA限制酶片段长度多态性(RFLPs)为遗传标志对有缺陷的FⅧ基因进行连锁分析。St 14(DXS52)是人X染色体长臂远端的一段基因外DNA序列,与FⅧ基因紧密连锁。国外已将St14/Taq Ⅰ RFLPs用于甲型血友病基因携带者的检测,但尚未见到用于产前基因诊断的报道。我们利用引进的St14片段为探针,采用简化的低脂奶粉杂交体系和DNA凝胶原     

The effects of temperature and pH on the ethanol tolerance of the wine yeasts, Saccharomyces cerevisiae, Candida stellata and Kloeckera apiculata

The influences of temperature and pH on the survival and growth of Saccharomyces cerevisiae, Candida stellata and Kloeckera apiculata were examined in the presence of ethanol concentrations between 2.5 and 15% v/v. At 15°C, the maximum concentrations of ethanol permitting the growth of S. cerevisiae, C. stellata and K. apiculata were 15%, 11% and 9%, respectively. These maximum concentrations were decreased at 10°C and 30°C. Cells of S. cerevisiae showed no loss in viability when incubated for 12 d at 10°C or 15°C in the presence of 15% ethanol but showed some loss at 30°C. Cells of C. stellata were tolerant of 12.5% ethanol at 10°C and 15°C but not at 30°C. Cells of K. apiculata were tolerant of 10–12.5% ethanol at 15°C but not at 10°C or 30°C. Sensitivity of the yeast cells to ethanol was marginally increased on decreasing the pH from 6-0 to 3–0.     

马铃薯Y病毒外壳蛋白基因的克隆及序列分析

本文报道应用聚合酶链式反应(PCR)技术,在体外扩增马铃薯 Y 病毒外壳蛋白基因及其克隆和序列分析的结果。病毒 RNA 从马铃薯 Y 病毒感染的烟草叶片中提取,用合成的PCR 3引物及 AMV 逆转录酶合成了单链的 cDNA。利用 PCR 技术,经30个循玎的扩增。得到了一特异的0.8kb 片段。克隆后对此片段进行了限制性内切酶物理图谱分析,并测定了其全序列。实验结果证明,我们克隆到的是完整的马铃薯 Y 病毒的外壳蛋白基因。与国外报道的马铃薯 Y 病毒 N 株相比,其核苷酸序列及推测的氨基酸序列的同源率分别为97.8%和97%。将该基因导入马铃薯以期获得抗 Y 病毒马铃薯的工作正在进行。本文还对 PCR 技术用于扩增植物 RNA 病毒的方法以及用基因工程方法培育抗病毒作物新品种的可行性等进行了讨论。     

小麦原胚对外源大分子与不透膜物质的摄入

为检验小麦原胚基端特定位点上的外连丝型胞间连丝和开放孔道在摄取外源物质上的作用,以不透膜的阳离子铁蛋白(cationized ferritin)和萤黄(lucifer yellow CH )为示踪物,对其吸入与传布动态进行了荧光与电子显微镜观察。结果表明,这两种物质确可以以非跨膜运输的方式沿着原胚基端的特定通道进入原胚细胞。     

The hydrophobic membrane-spanning sequences of the gp52 glycoprotein are required for the pathogenicity of Friend spleen focus-forming virus.

Friend spleen focus-forming virus (SFFV) codes for a transport-defective envelope glycoprotein designated gp52, which is responsible for the leukemogenic properties of the virus. gp52 is a monotopic integral membrane protein anchored in the membrane by a stretch of hydrophobic amino acid residues located near the carboxy terminus of the molecule. We have constructed a mutant SFFV envelope gene in which the sequences that code for the hydrophobic membrane-spanning domain have been deleted, and we expressed this gene by using recombinant vaccinia virus vectors or retroviral vectors. The mutant SFFV envelope gene was found to encode a truncated glycoprotein (gp52t) which was also transport defective; a majority of gp52t remained cell associated, while a small proportion of the molecules underwent oligosaccharide processing. The processed form of gp52t was secreted from the cells. Retroviral vectors carrying the mutant SFFV envelope gene were found to be nonpathogenic in adult mice. These results indicate that the hydrophobic membrane-spanning region of gp52 is required for pathogenicity of SFFV and suggest that these sequences may play a role in signal transduction. The results also indicate that the transport defect of SFFV gp52 is due to structural features of the ectodomain of the molecule.     

Induction by Electric Currents of Ethylene Biosynthesis in Cucumber (Cucumis sativus L.) Fruit

The effects of an electric current on ethylene biosynthesis were investigated in cucumber (Cucumis sativus L.) fruit that were producing almost no ethylene. Direct currents at 0.5 to 3.0 milliamperes induced much ethylene synthesis, with a rapid continuous increase in the rate, which reached a peak within 5 to 6 hours and then decreased. The rate of production was greater with a stronger current. Ethylene production was not observed after the use of a sine-wave alternating current (60 hertz) at 3 milliamperes, the magnitude at which a direct current had the greatest effect. The activity of 1-aminocyclopropane-1-carboxylic acid (ACC) synthase and ethylene forming enzyme (EFE) increased before the rise in ethylene production. ACC synthase and EFE were activated sixfold and fourfold, respectively, by 2 hours. The concentration of ACC increased linearly up to 6 hours and then decreased. Ethylene induction by an electric current was suppressed almost completely by the infiltration of the cucumbers with 5 millimolar aminooxyacetic acid, an inhibitor of ACC synthase, and was also suppressed 70% by 5 millimolar salicylic acid, an inhibitor of EFE. The results indicate that the ethylene induced by the direct current was synthesized via the ACC-ethylene pathway as a result of electrical stress, a new kind of stress to be identified.     

松辽盆地阿尔必期微体浮游植物新属种

该文描述了松辽盆地中白垩世阿尔必期泉头组三段的微体浮游植物化石1新属7新种,隶属于微咸水沟鞭藻类2属5新种(含4新亚种),淡水绿藻1属1种和疑源类1新属1新种。并对沟鞭藻 Ngktericysta Bint,1986进行了修订。     

松辽盆地白垩纪微体浮游植物群及其环境讨论

该文报道了松辽盆地白垩纪丰富的非海相微体浮游植物群,主要是沟鞭藻类及一些绿藻和疑源类;论述了藻类的生物地层特征,自下而上初步划分出10个组合带;结合微量元素和古地磁等资料,较详细地讨论了含微体浮游植物组段的沉积环境,认为松辽盆地在白垩纪至少遭受过两次重要的海侵(分别在青山口组一段及嫩江组一、二段沉积时期),导致古松辽湖泊五种不同水体环境的演替,指出微体浮游植物组合的变化是受古盐度、古温度和古水深等因素控制的。此外,对有关组段的地质时代也进行了讨论,进一步补充了新的浮游植物化石证据。     

表达甲型肝炎病毒抗原的重组痘苗病毒(VMS11 HAV25)的免疫原性

甲型肝炎(甲肝)病毒基因全部开放读码框架cDNA重组于痘苗病毒天坛株DNA的HindⅢM片段,获得了重组痘苗病毒VMS11HAV25。用10~7PFU或10~8PFU病毒量皮内免疫家兔,能诱生甲肝病毒抗体,其滴度与免疫剂量、免疫次数及间隔有关。组织培养中和试验表明,该抗体具有中和甲肝病毒的能力。VMS11HAV25的免疫效果似优于本实验室已报道的另一株甲肝病毒基因重组于TK区的重组痘苗病毒Re41。