真鲷视网膜结构及其视觉特性研究：Ⅱ视网膜光感受细胞超微结构研究

对真鲷光感受细胞的超微结构进行观察,结果表明：视杆外段膜盘为游离膜盘,视锥外段膜盘则为连续的膜结构,视锥和视杆均含有连接纤毛和辅助外段。花萼状突起起源于内段。椭体内充满线粒体,无球状小体。双锥椭圆体并生膜为六层,视锥内段无鳍状突起,视锥突触带,在明适应视网膜中数量增多,在暗适应视网中数量减少,视杆突触带在这两种适应网膜中数量不变,每一杆小球只有一个突触带,而锥小足有４－６个突触带。     

食蚊鱼CYP19b基因克隆及环境激素暴露对其表达的影响

为探讨17-雌二醇(E2)、17-甲基睾酮(MT)和雄烯二酮(AED)暴露对食蚊鱼脑组织CYP19b表达的影响,首次克隆和分析了食蚊鱼(Gambusia affinis) CYP19b cDNA的全系列。采用静水暴露方法, 分别设置2、10、50和100 ng/L E2、MT和AED各4个实验组, 并设置对照组和平行组, 定量测定了1、3、5和7d脑组织中的CYP19b mRNA表达水平的变化。成功克隆了食蚊鱼CYP19b基因全长, 获得基因片段总长1670 bp, ORF(OpenReading Frame)是从52 bp到1554 bp, 共编码501个氨基酸。通过与其他相关鱼类CYP19b基因编码的氨基酸序列相似性作比较, 食蚊鱼CYP19b基因氨基酸序列的同源性很高。结果显示, 短时间的暴露, E2较低浓度组(2和10 ng/L)对食蚊鱼作用不明显, 但E2相对较高浓度组(50和100 ng/L)能显著地上调食蚊鱼CYP19b基因的表达(P0.01)。暴露早期MT对CYP19b表达无明显影响, 随着暴露时间的持续延长, 除了MT较高浓度组(50 ng/L)外, 其他各浓度组MT对CYP19b的表达有显著的抑制作用(P0.01), 并呈一定的剂量相关关系。AED作为雄激素类似物与MT的作用效果相似, 相对较高浓度(50和100 ng/L)的AED抑制CYP19b的表达(P0.01)。研究结果初步表明, 3种典型环境激素对食蚊鱼CYP19b基因表达的影响十分显著, 但不同的暴露浓度及不同的取样时间点可能表现为促进或抑制CYP19b基因的表达。     

银屑病皮损中IL—10及IL—12 p35、p40 mRNA表达的研究

探讨IL－10和IL－12在银屑病发病机理中的可能作用,为应用基因治疗银悄病提供理论基础。采用逆转录聚合酶链反应（RT－PCR）技术检测了12例银屑病患者及6例正常皮肤组织中IL－10和IL－12p35、p40mRNA的表达情况。研究结果表明：（1）与正常皮肤组织相比银屑病皮损中IL－10mRNA明显降低（P＜0.01）。（2）IL－12p35 mRNA在银屑病皮损和正常皮肤组织中均呈阳性表达,IL－12p40 mRNA只在银屑病皮损中呈阳性表达,而在正常皮肤中为阴性。推测IL－12在银屑病的发生和发展中可能起重要,而IL-10可能在银屑病消退中起一定作用。     

EFFECTS OF HIGH PRESSURE IN THE ARMORED DINOFLAGELLATE SCRIPPSIELLA HEXAPRAECINGULA (PERIDINIALES,DINOPHYCEAE): CHANGES IN THECAL PLATE PATTERN AND MICROTUBULE ASSEMBLY1

The possible role of cortical microtubules in dinoflagellates was studied using high‐pressure treatments applied to nonmotile cells (just after ecdysis) of Scrippsiella hexapraecingula T. Horig. et Chihara. Whereas considerable disorganization of cortical microtubules was observed when cells were exposed to high‐pressure treatments of 98 MPa or more for 5–15 min, they were mostly intact in cells exposed to a pressure of <98 MPa for 5 min. After nonmotile cells were exposed to high‐pressure treatments sufficient to disorganize the cortical microtubules, they produced new motile cells with thecal plate patterns that differed considerably from the pattern known for this species. Increasing the intensity of high pressure applied to nonmotile cells resulted in an increase in the number of cells that exhibited disorganized cortical microtubules as well as a change in their thecal plate pattern, suggesting that high pressure disorganizes cortical microtubules leading to a change in the thecal plate pattern.