大鼠正中神经一级传入纤维在脊髓胶状质定位投射的定量分析——FRAP法

本文用抗氟化物酸性磷酸酶(FRAP)法和显微测量,对大鼠正中神经一级传入纤维在脊髓胶状质(SG)的定位投射进行了定量分析.大鼠正中神经向SG的纵向投射主要为C_5～T_1.C_5～T_1各节段SG水平向眉毛状反应带所测均值(mm)分别为0.888、0.935、0.957、0.905和 0.776,而正中神经向C_5～T_1各节段SG水平向投射所测均值(mm)分别在0～0.204、0～0.303、0～0.409、0～0.432和0～0.336的范围,这显示了正中神经投射区均位于SG的内侧带和部分中间带.     

四种水蛭抗凝血酶作用的研究

本文研究了水蛭的抗凝血酶作用,并比较了4种提取方法对抗凝作用的影响。冷浸和温浸,抗凝活性强度为菲牛蛭>日本医蛭》两种宽体金线蛭。煎煮后,前两种的活性锐碱,而两种宽体金线蛭的活性几乎不变。     

朱砂叶螨羧酸脂酶最优测试条件的选择

应用二次回归通用旋转组合设计,对朱砂叶螨离体羧酸酯酶测试过程中所需缓冲液pH值、恒温时间、反应温度及底物浓度,设立4因子5水平试验,在考虑4个因子主效应和互作效应的情况下,筛选测试羧酸酯酶的最优条件组合。     

准分子激光治疗近视眼

本文对准分子激光PRK治疗近视眼息者503例的早期临床结果进行分析,近视范围为－2．0至－15．0D,根据术前屈光度不同分为三组,术后随访三个月．结果证实准分子激光是一种安全、有效、预测性较好的治疗近视眼方法．全部病人提高了裸眼视力,绝大部分保持了最佳矫正视力,且没有产生危及视力的并发症．     

重组人白细胞介素－2在离子色谱分离时的复性

采用ＨＰＩＥＣ应用ＣＭ交换柱分离纯化Ｅ．ｃｏｌｉ工程菌表达的ｒＩＬ－２,与空气氧化复性相比较,又有１倍以上的变性ｒＩＬ－２在色谱过程中得到复性,且溶液ｐＨ影响ｒＩＬ－２的复性和纯化效果：ｐＨ７．０时ｒＩＬ－２复性率高于ｐＨ８．０时,但纯度明显低于ｐＨ８．０时分离的ｒＩＬ－２．     

中药固真方对一些与细胞增殖有关基因表达的影响

 中药固真方对一些与细胞增殖有关基因表达的影响姚明忠,顾文聪,丁卫,韩志芬,杜国光（上海中医药大学生物化学教研室,上海２０００３２）（北京医科大学生物化学与分子生物学系,北京１０００８３）中药固真方（ＶＲＦ）具有补肾益精、延缓衰老的作用［１］．能提高成...     

西藏纤恙螨属四新种（蜱螨亚纲：前气门目）

本记述了采自西藏小型动物体上的恙螨四新种．隶属恙螨科(Trombiculidae Ewing,1944)的纤恙螨属（Leptotrombitium Nagyio et al,1916)。模式标本保存于军事医学科学院微生物流行病学研究所医学昆虫标本馆,部分副模标本存第一作所在单位。     

光谱技术研究固氮酶铁硫簇的理化特性

Ｎ－甲基甲酰胺碱度是提取高质量固氮酶铁钼辅基的关键因素之一。过量的亚甲蓝能氧化并分解铁铜铺基为含双相铁硫簇和铁硫簇固氮酶铁钼辅基和在紫外可见光谱区中均无特征吸收峰,而在３２０ｎｍ处却呈弱吸收峰,棕色固氮菌固氮酶和该菌的突变菌侏ＵＷ４５固氮酶（缺铁钼辅基）中的非含钼的铁硫簇在紫外可见光谱区３２０ｎｍ和４０５ｎｍ处均含有特征吸收峰．     

有机盐对基因启动子的σ因子选择性的影响

用σ￣（７０）或σ￣（３８）和核心酶（Ｅ）组成的大肠杆菌ＲＮＡ聚合酶全酶（Ｅσ）对四种启动子进行了体外转录。结果表明：ｌａｃＵＶ５,ｒｐｌＪ主要被Ｅσ￣（７０）识别,ｋａｔＥ主要被Ｅσ￣（３８）识别,ｆｉｃ在低盐浓度时被Ｅσ￣（７０）识别,在高浓度盐时被Ｅσ￣（３８）识别;Ｅσ￣（３８）转录特异性启动子所需酶量大于Ｅσ￣（７０）转录特异性启动子的酶量;在含有分别对σ￣（７０）或σ￣（３８）亲和性大的混和启动子的体外转录中,启动子之间不存在干扰和竞争,转录水平与启动子浓度成正相关。     

Evidence for FUS6 as a component of the nuclear-localized COP9 complex in Arabidopsis.

The pleiotropic CONSTITUTIVE PHOTOMORPHOGENIC (COP), DEETIOLATED (DET), and FUSCA (FUS) loci are essential regulatory genes involved in the light control of seedling developmental patterns in Arabidopsis. Although COP1, DET1, COP9, and FUS6 (also called COP11) have been cloned, their biochemical activities and interactions remain elusive. We have recently suggested that multiple pleiotropic COP, DET, and FUS genes may encode subunits of a large regulatory complex. In this study, we generated specific antibodies against Arabidopsis FUS6 and show that accumulation of both COP9 and FUS6 is coordinated in the pleiotropic cop, det, and fus mutant backgrounds and in wild-type plants throughout development. Both COP9 and FUS6 cofractionated into identical high molecular mass fractions in an analytical gel filtration assay, and neither was found in its monomeric form. Moreover, antibodies raised against either COP9 or FUS6 selectively coimmunoprecipitated both proteins. We have also developed an Arabidopsis protoplast immunolocalization assay and demonstrated that the COP9 complex is localized in the nucleus and that its nuclear localization is not affected by light conditions or tissue types. The integrated genetic and biochemical results strongly support the conclusion that both COP9 and FUS6 are components of the nuclear-localized COP9 complex. Therefore, we have provided the strongest evidence for the conclusion that at least some of the pleiotropic COP, DET, and FUS loci act in the same signaling pathway.