4019例妇科门诊不同症状患者阴道微生态状况分析

目的探讨妇科门诊不同症状患者的阴道微生态状况。方法回顾性分析2011年11月至2012年9月西安交通大学医学院第一附属医院妇科门诊因不同症状就诊患者的阴道微生态评价（菌群的密集度、多样性、优势菌、病原菌、AV评分、Nugent评分及五项菌群功能及炎症反应指标）检测结果。结果4019例被检查者平均年龄为33．56岁。其中阴道微生态正常占n70％（28／4019）;阴道微生态失调者占99．30％（3991／4019）;后者包括未明确感染的阴道微生态失调患者占66．36％（2667／4019）;明确感染的阴道微生态失调患者占32．94％（1324／4019）;其中外阴阴道假丝酵母菌病（vulvovaginal candidiasis,VVC）患者占24．33％（978／4019）;需氧菌陛阴道炎（aerobic vaginitis,AV）患者占3．11％（125／4019）;细菌性阴道病（bacterial vaginosis,BV）患者占3．14％（126／4019）;滴虫阴道炎（trichomonas vaginitis,TV）患者占5．15％（207／4019）;混合感染患者占8．31％（110／1324）。优势菌群异常患者占54．32％（2183／4019）。结论妇科门诊中未明确感染的阴道微生态失调患者构成比最高;在明确感染的患者中外阴阴道假丝酵母菌病构成比最高;因此阴道微生态评价成为阴道感染性疾病诊断首选检测方法,在临床诊疗实践中具有重要意义。     

沙眼衣原体感染诱导小鼠生殖道局部促炎性细胞因子的表达情况

建立小鼠生殖道沙眼衣原体感染模型,观察小鼠生殖道局部促炎性细胞因子的表达。将小鼠生物型沙眼衣原体C. muridarum 1＆#215;104 IFU阴道接种于C57B6背景雌性小鼠,取感染后阴道拭子做沙眼衣原体培养,计算IFU,监测小鼠感染和病原体清除情况;80 d后处死小鼠,检测子宫输卵管病理改变;ELISA检测感染过程中小鼠生殖道促炎性细胞因子IL-1α、IL-6、MIP-2和TNF-α产生情况。小鼠感染在第3至第15天维持较高水平,然后病原体被逐渐清除,整个病程约3~5周;病理检测显示子宫输卵有严重炎症、管腔扩张积水,狭窄等;于感染后第3天检测到局部IL-1α、IL-6、MIP-2分泌,第7天达高峰,然后逐渐下降至正常水平（ IL-6于11 d恢复正常,IL-1α和 MIP-2于15 d恢复正常）。 TNF-α仅在第7天检测到高水平表达。相对于TNF-α和IL-6,IL-1α和MIP-2维持时间较长。成功建立沙眼衣原体感染小鼠生殖道模型,沙眼衣原体急性感染可诱导小鼠生殖道局部分泌IL-1α、IL-6、MIP-2和TNF-α。     

水生生物体内抗氧化酶及其影响因素研究进展

生物体在新陈代谢过程中,细胞内会产生少量的自由基,参与了机体内多种生理过程,具有重要的生理功能。但是在一些应激因子的作用下,体内产生的活性氧大量积累,将会对细胞产生损伤,抗氧化酶类在清除体内活性氧的过程中具有重要作用。在综述了抗氧化酶的分类、结构特点及相互间作用的基础上,阐述了水生生物体内抗氧化酶及其影响因素的研究进展。     

ST59型社区获得性耐甲氧西林金黄色葡萄球菌毒力因子研究

了解ST59型社区获得性耐甲氧西林金黄色葡萄球菌(community-acquired methicillin-resistant Staphy-lococcus aureus,CA-MRSA)携带毒力因子的情况。用PCR方法扩增ST59型CA-MRSA PSMα、PVL、SEA、SEB、SEC、SED、SEE、TSST-1、ETA、ETB基因。5株CA-MRSA全部检出PSMα基因和PVL基因,均未检出SEA、SEB、SEC、SED、SEE、TSST-1、ETA、ETB基因。PSMα和PVL基因是ST59型社区获得性耐甲氧西林金黄色葡萄球菌常见的毒力因子。     

仙人掌在美容化妆品行业中的应用及开发

简要介绍了仙人掌在美容化妆品行业的应用方向,仙人掌原料的制备工艺以及仙人掌化妆品的设计理念,以期为仙人掌在美容化妆品领域的应用开发提供一些建议.     

组蛋白激活拟南芥CDPK催化CaMBP10的体外磷酸化反应

植物转脂蛋白 (plant lipid transfer proteins, LTPs) 是高等植物中广泛存在的多基因编码的小分子碱性蛋白. 本研究室已经证明白菜和豌豆LTPs可分别被内源胞浆可溶性和膜结合钙依赖性蛋白激酶 (calcium-dependent protein kinase, CDPK) 磷酸化. 为深入研究CDPK对白菜钙调素结合蛋白10 (calmodulin-binding protein-10, CaMBP10) 的磷酸化性质及特征, 本文从拟南芥可溶性蛋白粗提物中检测到1个分子量约为54 kD的CDPK对CaMBP10有磷酸化作用. 研究表明, 组蛋白可增强 CDPK对CaMBP10的磷酸化活性, 促进磷酸化进程. 而且组蛋白和Ca2+对CDPK具有协同调节效应, 二者共同作用时比Ca2+单独作用时, 激酶的活力增强约12倍. 此外, 不同组蛋白对CDPK的激活能力不同, 组蛋白1对该激酶活性的激活能力要比组蛋白3高约8倍.     

Gene cloning and functional analysis of yellow green leaf3 (ygl3) gene during the whole-plant growth stage in rice

Chlorophyll is an important photosynthetic pigment in the process of photosynthesis in plants and photosynthetic bacteria. Genes involved in chlorophyll biosynthesis in Arabidopsis and photosynthetic bacteria have been well documented. In rice, however, these genes have not been fully annotated. In this paper, a yellow-green leaf gene, yellow green leaf3 (ygl3) was cloned and analyzed. ygl3 encodes magnesium chelation ChlD (D) subunit, a key enzyme for chlorophyll synthesis, resulting in a yellow-green leaf phenotype in all growth stages in rice. Expression content of ygl3 is highest in the leaf blades, followed by the leaf sheaths, while there is virtually no expression of the gene in the stems and seeds. The sub-cellular structure and protein content of the photosynthetic system of the ygl3 mutant were revealed by transmission electron microscopy, BN-PAGE, and western blotting. The results show that the mutation of the ygl3 gene indirectly leads to a decrease in the protein content of the photosynthetic system and severely obstructs the formation of granum thylakoids.     

Survival or death: disequilibrating the oncogenic and tumor suppressive autophagy in cancer

Autophagy (macroautophagy) is an evolutionarily conserved lysosomal degradation process, in which a cell degrades long-lived proteins and damaged organelles. Recently, accumulating evidence has revealed the core molecular machinery of autophagy in carcinogenesis; however, the intricate relationship between autophagy and cancer continue to remain an enigma. Why does autophagy have either pro-survival (oncogenic) or pro-death (tumor suppressive) role at different cancer stages, including cancer stem cell, initiation and progression, invasion and metastasis, as well as dormancy? How does autophagy modulate a series of oncogenic and/or tumor suppressive pathways, implicated in microRNA (miRNA) involvement? Whether would targeting the oncogenic and tumor suppressive autophagic network be a novel strategy for drug discovery? To address these problems, we focus on summarizing the dynamic oncogenic and tumor suppressive roles of autophagy and their relevant small-molecule drugs, which would provide a new clue to elucidate the oncosuppressive (survival or death) autophagic network as a potential therapeutic target.