家蚕线粒体ND2、COⅠ和若干tRNA基因的克隆及序列分析

克隆并测定了家蚕（Bombyx mori）线粒体基因组3468bp的EcoRⅠ和HindⅢ双酶一段序列,根据序列同源性比较,该DNA片段包括3个蛋白质编码基因：ND2基因、COⅠ基因和COⅡ基因5′端399bp的序列,以及6个tRNA基因和一个尚待确定的tRNA^Met基因。家蚕与果蝇的ND2基因序列同源性约69.7%,COⅠ基因的同源性约83.8%,COⅡ基因5′端的同源性约80％,这表明细胞色素氧化酶基因在物种间比烟酰胺腺漂呤二核苷酸脱氢酶基因保守,6个推定的tRNA基因序列与果蝇相应tRNA基因序列差异较大,另外,除tRNA^Chn基因的二级结构相似外,其它tRNA基因的二级结构与果蝇相应tRNA基因的二级结构也有较大差异。     

鹅掌楸贵州烂木山居群的微卫星遗传多样性及空间遗传结构

濒危植物鹅掌楸(Liriodendron chinense)目前仅零散分布于我国亚热带及越南北部地区, 残存居群生境片断化较为严重。研究濒危植物片断化居群的遗传多样性及小尺度空间遗传结构(spatial genetic structure)有助于了解物种的生态进化过程以及制定相关的保育策略。本研究采用13对微卫星引物, 对鹅掌楸的1个片断化居群进行了遗传多样性及空间遗传结构的研究, 旨在揭示生境片断化条件下鹅掌楸的遗传多样性及基因流状况。研究结果表明: 鹅掌楸烂木山居群内不同生境斑块及不同年龄阶段植株的遗传多样性水平差异不显著(P>0.05), 居群内存在寨内和山林2个遗传分化明显的亚居群。烂木山居群个体在200 m以内呈现显著的空间遗传结构, 而2个亚居群内的个体仅在20 m的距离范围内存在微弱或不显著的空间遗传结构。鹅掌楸的空间遗传结构强度较低(Sp = 0.0090), 且寨内亚居群的空间遗传结构强度(Sp = 0.0067)要高于山林亚居群(Sp = 0.0053)。鹅掌楸以异交为主, 种子较轻且具翅, 借助风力传播, 在一定程度上降低了空间遗传结构的强度。此外, 居群内个体密度及生境特征也对鹅掌楸的空间遗传结构产生了一定影响。该居群出现显著的杂合子缺失, 近交系数(F_IS)为0.099 (P < 0.01), 表明生境片断化的遗传效应正逐渐显现。因此, 对鹅掌楸的就地保护应注意维护与强化生境的连续性, 促进基因交流。迁地保护时, 取样距离应不小于20 m, 以涵盖足够多的遗传变异。     

枯草杆菌可溶性YlyA蛋白的诱导表达与纯化研究

YlyA是枯草杆菌一种功能未知蛋白.本研究旨在建立可溶性YlyA的诱导表达体系和纯化方法,为其功能研究奠定基础.PCR扩增ylyA序列,将其克隆到pETMCSⅢ中构建表达载体pNG252,用IPTG诱导6×His-YlyA融合蛋白在大肠杆菌BL21(DE3)中表达,对表达产物进行分析,最后对可溶性YlyA重组蛋白进行Ni2+-WTA亲和层析加以纯化.结果表明pNG252中ylyA的插入方向正确,序列无突变;用0.5 mmol/L IPTG,37℃诱导3 h时,YlyA虽高效表达,但为包涵体形式;调整诱导条件至0.05 mmoL/L IPTG,25℃,5 h时,高效表达的YlyA部分转为可溶性蛋白.纯化后的YlyA浓度达204.2119 μmoL/L;调整洗涤液中的咪唑浓度至15 mmol/L,pH至9,可使纯化蛋白的产量大幅提高.本文成功构建了YlyA高效可诱导表达载体,建立了可溶性蛋白的诱导表达条件,确立了Ni2+-NTA亲和层析纯化方法,所得的6×His-YlyA融合蛋白,可用于YlyA晶体结构和与功能分析.     

含甲肝病毒基因的重组痘苗病毒在动物体内产生针对甲肝病毒的中和抗体

用DNA重组技术得到的含甲肝病毒基因的重组痘苗病毒,可在家兔体内产生ELISA竞争抑制与中和抗体。基础免疫后,动物体内竞争抑制抗体滴度为10,加强免疫后达到80。由重组病毒产生的抗体中和指数比甲肝病毒产生者略低。     

共表达甲型流感病毒M1和HA抗原的重组杆状病毒的构建

为构建同时表达流感病毒M1和HA抗原的重组杆状病毒,采用PCR扩增流感病毒A/PR/8/34株的M1基因和去除信号肽的HA基因,将两基因克隆到杆状病毒转座载体pFastBac Dual的两个启动子下游的多克隆位点,筛选出阳性重组转座载体pFastBac Dual-M1-HA。将其转化含有杆状病毒穿梭载体(Bacmid)的DH10Bac感受态细胞,通过抗生素、蓝白斑筛选和PCR鉴定获得重组杆状病毒穿梭载体rBacmid-M1-HA,在脂质体介导下转染Sf9昆虫细胞,获得重组杆状病毒rBac-M1-HA。提取重组病毒基因组,通过PCR鉴定外源基因插入成功。间接免疫荧光和Western-blot检测表明,该重组杆状病毒在Sf9昆虫细胞中成功地表达了M1和HA。应用杆状病毒/昆虫细胞系统成功共表达流感病毒M1和HA抗原,为研究流感病毒VLP的形成机制和开发新型流感疫苗奠定了基础。     

代谢型谷氨酸受体在突触可塑性中的作用研究进展

突触可塑性是近 30年来神经科学领域的研究热点之一 ,它主要包括长时程增强 (long termpotentiation ,LTP)和长时程抑制 (long termdepression ,LTD)。以往的研究已经证实 ,离子型谷氨酸受体 (iGluRs)中的NMDA受体和AMPA受体 ,在LTP和LTD的诱导和维持中通过阳离子内流 ,引起细胞内的级联反应而起作用。新近的研究发现 ,代谢型谷氨酸受体 (mGluRs)与G蛋白偶联 ,通过细胞内的多种信使系统介导慢突触传递。本文主要就mGluRs在不同脑区LTP和LTD中的作用进行综述     

腔内大量盐水灌洗辅助取出乳房内聚丙烯酰胺水凝胶临床应用

目的：探讨聚丙烯酰胺水凝胶注射隆胸后取出新方法.方法：对48例注射聚丙烯酰胺水凝胶隆胸患者术前行双乳MRI或彩超检查结合触诊准确定位.全麻小切口开放直视下吸出水凝胶,再用大量生理盐水反复灌洗所有腔隙,直至手感探测不到硬结,盐水中无水凝胶为止.结果：48例患者术后无继发感染和出血等并发症.术前诸症状体征消失,无明显乳房变形,乳房形态术后恢复满意.术后双乳MRI复查未见明显异物残留.术后1 ～12月（6.2±0.3月）45例随访复查MRI亦未见异物残留,乳房修复完好.结论：注射隆乳后腔内大量盐水灌洗辅助取出水凝胶具有创伤小、出血少、操作简单、费用低廉的优点,是一种较好的、值得推广的凝胶取出术式.     

Alpha-melanocyte stimulating hormone protects retinal pigment epithelium cells from oxidative stress through activation of melanocortin 1 receptor–Akt–mTOR signaling

Patients with age related macular degeneration (AMD) will develop vision loss in the center of the visual field. Reactive oxygen species (ROS)-mediated retinal pigment epithelium (RPE) cell apoptosis is an important contributor of AMD. In this study, we explored the pro-survival effect of α-melanocyte stimulating hormone (α-MSH) on oxidative stressed RPE cells. We found that α-MSH receptor melanocortin 1 receptor (MC1R) was functionally expressed in primary and transformed RPE cells. RPE cells were response to α-MSH stimulation. α-MSH activated Akt/mammalian target of rapamycin (mTOR) and Erk1/2 signalings in RPE cells, which were inhibited by MC1R siRNA knockdown. α-MSH protected RPE cells from hydrogen peroxide (H₂O₂)-induced apoptosis, an effect that was almost abolished when MC1R was depleted by siRNA. α-MSH-mediated S6K1 activation and pro-survival effect against H₂O₂ was inhibited by Akt inhibitors (perifosine, MK-2206 and LY294002). Further, mTOR inhibition by rapamycin, or by mTOR siRNA knockdown, diminished α-MSH’s pro-survival effect in RPE cells. Thus, Akt and its downstream mTOR signaling mediates α-MSH-induced survival in RPE cells. In summary, we have identified a new α-MSH–MC1R physiologic pathway that reduces H₂O₂-induced RPE cell damage, and might minimize the risk of developing AMD.     

Leishmania major LmACR2 is a pentavalent antimony reductase that confers sensitivity to the drug pentostam

Arsenicals and antimonials are first line drugs for the treatment of trypanosomal and leishmanial diseases. To create the active form of the drug, Sb(V) must be reduced to Sb(III). Because arsenic and antimony are related metalloids, and arsenical resistant Leishmania strains are frequently cross-resistant to antimonials, we considered the possibility that Sb(V) is reduced by a leishmanial As(V) reductase. The sequence for the arsenate reductase of Saccharomyces cerevisiae, ScAcr2p, was used to clone the gene for a homologue, LmACR2, from Leishmania major. LmACR2 was able to complement the arsenate-sensitive phenotype of an arsC deletion strain of Escherichia coli or an ScACR2 deletion strain of Saccharomyces cerevisiae. Transfection of Leishmania infantum with LmACR2 augmented Pentostam sensitivity in intracellular amastigotes. LmACR2 was purified and shown to reduce both As(V) and Sb(V). This is the first report of an enzyme that confers Pentostam sensitivity in intracellular amastigotes of Leishmania. We propose that LmACR2 is responsible for reduction of the pentavalent antimony in Pentostam to the active trivalent form of the drug in Leishmania.