YFP-H148Q/I152L在FRT细胞中的表达及其对碘离子敏感特性的研究

为探讨YFP-H148Q/I152L在FRT细胞中的表达及其对碘离子的敏感性,应用点突变试剂盒将真核表达载体YFP特异编码序列第148位氨基酸H突变为Q,第152位氨基酸I突变为L,脂质体介导将YFP-H148Q/I152L转染入稳定表达Ano2的FRT细胞中,应用荧光淬灭动力学试验检测YFP-H148Q/I152对其碘离子的敏感性。测序结果证实,成功将YFP突变为YFP-H148Q/I152L,且荧光淬灭动力学试验表明,表达YFP-H148Q/I152L的FRT细胞在加入激活剂和碘离子后,相对荧光强度显著下降。表明成功构建YFP-H148Q/I152L真核表达载体,并证实表达于FRT胞浆中的YFPH148Q/I152L具有对碘离子敏感的特性。

YFP-CD18融合蛋白在U937细胞株中的表达与鉴定

目的 :构建并表达Mac - 1的β链CD18与黄色荧光蛋白 (YFP)的融合蛋白YFP -CD18,为进一步直视研究Mac- 1在白细胞内的分布、走向及归宿提供物质条件。方法 :首先将CD18的全长cDNA与pEYFP -C1进行酶切 ,构建YFP与CD18的N末端连接的表达载体 ,并将其转染至U937细胞株中进行表达。通过荧光显微镜观察转染成功后的U937细胞黄色荧光是否存在 ,以及流式细胞术检测确定PMA刺激后YFP -CD18活化后可否由胞浆内转位至膜上和测定PMA活化前后转染的U937细胞与其配基ICAM - 1粘附活性的变化等方面来进行鉴定。结果 :经酶切鉴定 ,pYFP -CD18构建正确 ,转染U937细胞株后 ,可见YFP -CD18融合蛋白发出的黄色荧光。结论 :构建完成YFP -CD18融合基因并可以在U937细胞株中进行表达。

氯离子敏感的YFP-H148Q/V163S在FRT细胞中的表达及其应用研究

运用点突变试剂盒构建pcDNA3.1-YFP-H148Q/V163真核表达载体,脂质体介导YFP-H148Q/V163S转染稳定表达Ano1的FRT细胞,荧光淬灭动力学试验检测YFP-H148Q/V163S对其氯离子的敏感性。测序结果显示,YFP(yellow fluorescent protein)特异编码序列上第508-510位碱基CAC突变为CAG,148位组氨酸H突变为谷氨酰胺Q;第553-555位碱基GTG突变为AGC,163位缬氨酸V突变为丝氨酸S。荧光淬灭动力学试验结果显示,向表达YFP-H148Q/V163S的FRT细胞加入Anol激活剂ionomycin和Cl^-,其相对荧光强度明显下降。pcDNA3.1-YFP-H148Q/V163真核表达载体成功构建,并证实表达于FRT胞浆中的YFP-H148Q/V163S具有对氯离子敏感的特性。

伪狂犬病毒Sa株gI^-/gE^-/YFP^+基因缺失载体构建及突变株筛选

根据伪狂犬病病毒SA株的gI和gE基因序列,设计两对引物,缺失掉gE基因5'端738bp,在克隆测序的基础上,采用酶切方法构建了含部分gE基因的转移载体pBgIE,同时将pBLYFP载体上含CMV启动子、多克隆位点、黄色荧光蛋白(YFP)基因和polyA尾巴的表达盒双酶切后插入到缺失位置,构建转移载体,命名为pBgIE-YFP,为下一步开发以伪狂犬病病毒为载体的基因工程疫苗提供了基础。

ERT2-Cre诱导的Rosa26R-YFP报告基因系统标记小鼠造血干祖细胞的条件和效率检测

目的 探索ERT2-Cre诱导的黄色荧光蛋白（YFP）报告基因系统标记小鼠造血干祖细胞的条件和效率.方法 通过基因型分型的方法,从Rosa26R-YFP小鼠与ERT2-Cre小鼠杂交得到的后代中,筛选出YFP及ERT2-Cre双阳性转基因杂交小鼠;采用免疫磁珠法从双阳性转基因小鼠骨髓细胞中富集c-kit＋造血干祖细胞群进行体外培养,并用不同浓度4-羟基它莫西芬（OHT）作用不同时间以诱导YFP表达;流式细胞术检测c-kit＋造血干祖细胞中YFP的表达量.结果 Rosa26R-YFP小鼠与ERT2-Cre小鼠的杂交后代共9只,采用基因型分型方法筛选出双阳性转基因小鼠5只;体外培养的c-kit＋细胞部分形态发生变化,提示存在细胞分化;流式细胞术检测到c-kit＋细胞中YFP表达量可达13.7％.结论 YFP报告基因系统在OHT诱导的ERT2-Cre作用下,能有效标记小鼠造血干祖细胞.

甜瓜谷氨酰胺合成酶的亚细胞定位

在一级结构上的差异,使得植物中胞质型(GS1)与质体型(GS2)谷氨酰胺合成酶(GS;EC 6.3.1.2)在生理水平上的作用及亚细胞结构中的定位不同。GS1通常定位于细胞质中,而GS2则多定位于细胞质体(叶绿体)中。为了对课题组从甜瓜(Cucumis melo L.)中克隆到的首个胞质型(M-GS1,GenBank登录号:DQ851867)及质体型(M-GS2,GenBank登录号:AY773090)GS基因的表达产物进行亚细胞定位,本研究在对其进行生物信息学分析和定位预测的基础上,通过将其各自的编码区分别与定位报告基因——黄色荧光蛋白YFP基因融合,构建重组植物表达载体(pA7-GS1-YFP和pA7-GS2-YFP),在基因枪轰击下转入洋葱内表皮细胞中瞬时表达,再用激光扫描共聚焦显微镜对各表达产物在洋葱内表皮细胞内的分布情况进行了观察和分析。2种手段分析结果均提示,M-GS1定位于细胞质中,而M-GS2则定位于细胞的质体中。对甜瓜谷氨酰胺合成酶进行精确亚细胞定位,为进一步探讨M-GS1和M-GS2在提高植物N素利用效率上的作用奠定了基础。

转基因荧光小鼠视神经轴索钝性损伤后退行性病变观察

目的建立单侧眼视神经轴索钝性损伤模型,观察视神经轴突退行性病变过程和小胶质细胞的变化。方法将标记神经轴突的YFP小鼠和标记小胶质细胞的GFP小鼠分为手术组和正常对照组,并于视神经轴索钝性损伤手术后4 h、1 d、3 d、5 d、10 d分离视神经,以激光共聚焦显微镜观察神经轴突受损程度及小胶质细胞的变化。结果与对正常对照组比较,YFP小鼠术后4 h损伤处视神经轴突断裂;术后1 d视神经轴突开始出现念珠化;术后3 d视神经轴突大部分念珠化;术后5 d视神经轴突开始从念珠状转变为碎片状;术后10 d视神经轴突形成大量碎片。GFP小鼠与正常对照组相比,术后4 h形成胶质瘢痕,静息态小胶质细胞开始大量出现;术后1 d激活态小胶质细胞大量增多并开始覆盖受损区域;术后3 d大量的激活态小胶质细胞基本覆盖了受损区域;术后5 d、10 d虽然视神经的退行性病变持续恶化,但是小胶质细胞的数量基本保持稳定。结论小鼠视神经受损后轴突发生不可逆的退行性病变,同时并伴随着小胶质细胞的激活和增多,说明小胶质细胞与视神经的退行性病变密切关联。

ARF鸟苷酸交换因子BIGs对高尔基体相关的囊泡转运的调控作用

【目的】探讨ARF鸟苷酸交换因子BIG1和BIG2在高尔基体相关囊泡转运方面的功能。【方法】利用脂质体将siRNA干扰序列转入细胞中,western blotting方法检测转染效率;利用细胞免疫荧光染色方法检测Hela细胞中BIGs蛋白水平的表达分布;采用Alexa568标记的转铁蛋白孵育Hela细胞,检测转铁蛋白相关的内吞体循环;利用脂质体转染VSVG-YFP病毒质粒,检测新生蛋白经从内质网经高尔基体转运至胞膜的途径。【结果】BIG1和BIG2的siRNA干扰效率均高于70%,且特异性良好;干扰掉BIGs后,细胞内TGN230结构变松散,呈现短片状或点状;干扰BIG2可导致细胞内转铁蛋白的积聚,而同时干扰BIG1则可进-步加剧转铁蛋白的积聚;BIG1或/和BIG2干扰均抑制了新生蛋白的从内质网向高尔基及细胞表面的转运过程。【结论】BIGs蛋白主要位于反面高尔基体网络,对维持其结构完整性非常重要;它们均参与调控高尔基体相关的囊泡转运,两者具有协同作用。

荧光共振能量转移技术阳性参照质粒的构建及应用

目的构建青色荧光蛋白(CFP)基因和黄色荧光蛋白(YFP)基因相连接的真核表达载体pYFP-CFP,并检测融合蛋白CFP-YFP的FRET转移效率,为FRET技术提供阳性参照物。方法利用基因重组法,以带有CFP基因序列的质粒(p CFP)为模板,扩增CFP基因并插入黄色荧光蛋白载体(pYFP)的多克隆位点中,构建真核表达质粒pYFP-CFP。经细胞转染后,使其表达CFP和YFP相连的融合蛋白。在激光共聚焦显微镜下采集FRET信号图和FRET转移效率(EFRET)的计算,并比较和分析表达CFP-YFP的阳性细胞与CFP和YFP共表达的阴性细胞。结果真核表达质粒pYFP-CFP构建成功,并在细胞质中表达,这与p CFP和pYFP共转染的细胞中荧光蛋白的分布略有不同,后者在细胞胞质和细胞核中均有表达。统计结果显示表达融合蛋白的阳性组EFRET明显高于共表达的阴性组,差异有统计学意义。结论融合荧光蛋白分子的青色和黄色蛋白之间具有10个氨基酸残基相连,符合FRET现象发生的条件,能够采集到很强的FRET信号,可作为FRET研究的稳定阳性实验参照。

水稻硫转运蛋白基因OsST的亚细胞定位

[目的]构建水稻硫酸根转运基因OsST与YFP黄色荧光蛋白融合表达载体,对OsST蛋白进行亚细胞定位。[方法]从水稻叶片的cDNA中克隆OsST基因ORF全长,测序验证后连入pA7-YFP表达载体,通过基因枪将融合载体转入洋葱上表皮细胞,在激光共聚焦显微镜下观察细胞中荧光发光部位。[结果]OsST蛋白定位于细胞膜和核膜上。[结论]为进一步研究硫转运蛋白的功能及硫酸根运输的机理奠定了基础。

Mac-1-FP融合表达载体的构建、Mac-1-FP的表达与活性鉴定

分别构建表达BFP与CD1 1b的C末端、YFP与CD1 8的N末端相连接的融合蛋白的表达载体 ,并将二者转染至既无内源性Mac 1的表达同时又具有某些炎症反应信号转导系统的CHO细胞株进行表达Mac 1 FP .通过荧光显微镜观察到共转染后的CHO细胞可发出蓝色荧光和黄色荧光 ,应用Western印迹方法确定CD1 1b BFP与YFP CD1 8能够形成二聚体 ,采用流式细胞术检测确定PMA刺激Mac 1 FP可由胞浆内转位至膜上 ,测定PMA刺激前后的转染CHO细胞与其配基ICAM 1粘附活性的变化 ,证明转染CHO中的Mac 1 FP表达成功并具有野生型Mac 1的形成二聚体、膜转位、和配基ICAM 1相结合等功能 ,为进一步研究白细胞表面粘附分子Mac 1的α亚基CD1 1b、β亚基CD1

串联型黄色荧光蛋白在Vero细胞中的表达

试验旨在探索串联型黄色荧光蛋白(YFP)在真核细胞中的表达,以便于构建用于球虫转基因研究的载体。用PCR方法克隆了不含鼠鸟氨酸脱羧酶PEST序列的目的DNA片段YFP-1和YFP-2,并将其依次连接于原始载体pd2EYFP-N1以替换d2EYFP报告基因,将重组载体电转染Vero细胞,观察荧光情况。结果显示,重组载体pYFP-YFP-N1能够在Vero细胞中正常表达,串联型YFP基因可用于球虫转基因中载体构建。

Tnfrsf11a^(Cre)介导黄色荧光素蛋白有效标记脑小胶质细胞

目的构建Tnfrsf11a^(Cre)Rosa26^(yfp)报告基因小鼠,检测Tnfrsf11a^(Cre)介导黄色荧光素蛋白YFP标记组织巨噬细胞的效率。方法将Tnfrsf11a^(Cre)小鼠与Rosa26^(yfp)小鼠交配,通过PCR筛选出Tnfrsf11a^(Cre)Rosa26^(yfp)报告基因小鼠。分离成年Tnfrsf11a^(Cre)Rosa26^(yfp)小鼠脑小胶质细胞、肝脏巨噬细胞、肾脏巨噬细胞、肺泡巨噬细胞、脾脏巨噬细胞,标记流式抗体,通过流式细胞术分析Tnfrsf11a^(Cre)介导荧光素蛋白YFP标记组织巨噬细胞的效率。结果Tnfrsf11a^(Cre)介导黄色荧光素蛋白YFP对脑小胶质细胞具有约91.27%的标记效率,但对肝脏、脾脏、肺泡巨噬细胞细胞的标记效率分别只有约63.60%、69.66%、32.76%。结论Tnfrsf11a^(Cre)可以介导YFP对脑小胶质细胞进行示踪。同时,Tnfrsf11a^(Cre)可用做脑小胶质细胞基因条件性敲除的工具鼠。

Evaluation of parameters affecting Agrobacterium-mediated transient expression in citrus

Agrobacterium-mediated transient expression assays are a convenient alternative to stable expression because they are simple,easy to perform,and achieve gene expression rapidly.This study investigated the factors affecting transient gene expression efficiency in citrus by observing the cryo-sectioning of leaf samples under a laser confocal microscope.These factors included the composition of the infiltration buffer,the Agrobacterium cell density,the leaf development stage,the incubation temperature,and plant genotype.The highest transient expression level of yellow fluorescent protein（YFP）was detected in Mexican lime（Citrus aurantifolia）on the third day after the intermediate-aged leaves were infiltrated with the improved infiltration buffer 1（15 mmol L^-1 2-（N-morpholino）ethanesulfonic acid,10 mmol L^-1 MgCl2,and 200μmol L^-1acetosyringone）,which had an optical density of 0.8 and was incubated at 22°C.Additionally,this transient expression assay was applied to other citrus genotypes.Of note,trifoliate orange（Poncirus trifoliata）and kumquat（Fortunella obovate）had higher expression efficiency than other six genotypes of the Citrus genus.Our study provides research basis for the selection of optimization strategies in transient gene expression and improves the method for available genome investigation in citrus.

Synthesis and Characterization of A Small Molecule CFTR Chloride Channel Inhibitor

A thiazolidinone CFTR inhibitor(CFTR_ inh-172 ) was synthesized by a three-step procedure with trifluromethylaniline as the starting material. The synthesized CFTR inhibitor was characterized structurally by means of 1H NMR and functionally in a CFTR-expressing cell line FRT/hCFTR/EYFP-H148Q by both fluorescent and electrophysiological methods. A large amount(100 g) of high-quality small molecule thiazolidinone CFTR chloride channel inhibitor,CFTR_ inh-172 ,can be produced with this simple three-step synthetic procedure. The structure of the final product 2-thioxo-3-(3-trifluromethylphenyl)-5-[4-carboxyphenyl- methylene]-4-thiazolidinone was confirmed by 1H NMR. The overall yield was 58% with a purity over 99% as analyzed by HPLC. The synthesized CFTR_ inh-172 specifically inhibited CFTR chloride channel function in a cell-based fluorescence assay( K _d≈1.5 μmol/L) and in a Ussing chamber-based short-circuit current assay( K _d≈0.2 μmol/L),indicating better quality than that of the commercial combinatorial compound. The synthesized inhibitor is nontoxic to cultured cells at a high concentration and to mouse at a high dose. The synthetic procedure developed here can be used to produce a large amount of the high-quality CFTR_ inh-172 suitable for antidiarrheal studies and for creation of cystic fibrosis models in large animals. The procedure can be used to synthesize radiolabled CFTR_ inh-172 for in vivo pharmacokinetics studies.

A High-affinity Activator of G551D-CFTR Chloride Channel Identified By High Throughput Screening

A stably transfected CHO cell line coexpressing G551D-CFTR and iodide-sensitive yellow fluorescent protein mutant EYFP-H148Q-I152L was successfully established and used as assay model to identify small-molecule activators of G551D-CFTR chloride channel from 100000 diverse combinatorial compounds by high throughput screening on a customized Beckman robotic system. A bicyclooctane compound was identified to activate G551D-CFTR chloride channel with high-affinity(K d=1.8 μmol/L). The activity of the bicyclooctane compound is G551D-CFTR-specific, reversible and non-toxic. The G551D-CFTR activator may be useful as a tool to study the mutant G551D-CFTR chloride channel structure and transport properties and as a candidate drug to cure cystic fibrosis caused by G551D-CFTR mutation.

N-Propionylmannosamine stimulates axonal elongation in a murine model of sciatic nerve injury

Increasing evidence indicates that sialic acid plays an important role during nerve regeneration. Sialic acids can be modified in vitro as well as in vivo using metabolic oligosaccharide engineering of the N-awl side chain. N-Propionylmannosamine （ManNProp） increases neurite outgrowth and accelerates the reestablishment of functional synapses in vitro. We investigated the influence of systemic ManNProp application using a specific in vivo mouse model. Using mice expressing axonal fluorescent proteins, we quantified the extension of regenerating axons, the number of regenerating axons, the number of arborising axons and the number of branches per axon 5 days after injury. Sciatic nerves from non-expressing mice were grafted into those expressing yellow fluorescent protein. We began a twice-daily intraperitoneal application of either peracetylated ManNProp （200 mg/kg） or saline solution 5 days before injury, and continued it until nerve harvest （5 days after transection）. ManNProp significantly increased the mean distance of axonal regeneration （2.49 mm vs. 1.53 mm; P 〈 0.005） and the number of arborizing axons （21% vs. 16%; P = 0.008） 5 days after sciatic nerve grafting. ManNProp did not affect the number of regenerating axons or the number of branches per arborizing axon. The biochemical glycoengineering of the N-acyl side chain of sialic acid might be a promising approach for improving peripheral nerve regeneration.

基于CaCC的TRPV4调节剂高通量筛选细胞模型的建立

目的构建基于钙激活氯离子通道(CaCC)的瞬时受体电位香草酸亚型4(TRPV4)调节剂的高通量筛选细胞模型。方法采用RT-PCR检测Fischer大鼠甲状腺滤泡上皮(FRT)细胞中内源性表达的TRPV4,所得PCR产物切胶回收后测序;采用Western blotting检测FRT细胞中TRPV4蛋白的表达情况。应用脂质体转染法构建共表达钙激活氯离子通道蛋白1(ANO1)和YFP-H148Q/I152L的FRT细胞模型,倒置荧光显微镜下观察ANO1和YFP-H148Q/I152L在细胞中的表达情况,应用荧光淬灭动力学实验测定细胞模型的有效性。加入TRPV4激活剂和抑制剂,应用荧光淬灭动力学实验检测模型能否筛选TRPV4调节剂;加入TRPV4激活剂,应用Fura-2荧光探针法检测细胞内的Ca2+浓度;通过Z'因子评估细胞模型是否适用于高通量筛选。结果RT-PCR和Western blotting检测结果显示,FRT细胞内源性表达TRPV4。倒置荧光显微镜下清晰可见ANO1表达在FRT细胞膜上,YFP-H148Q/I152L表达在FRT细胞质中,即成功构建了共表达ANO1和YFP-H148Q/I152L的FRT细胞模型。荧光淬灭动力学实验结果显示,该模型可以筛选TRPV4调节剂,斜率(Slope)值与TRPV4调节剂的浓度呈剂量依赖关系;该模型可敏感检测细胞内Ca2+的浓度变化,通过Slope值可反映细胞内Ca2+浓度的高低;Z'因子为0.728,表明该模型可高通量筛选TRPV4调节剂。结论成功构建了一种可以敏感高效筛选TRPV4调节剂的高通量筛选细胞模型。

Fibrin glue repair leads to enhanced axonal elongation during early peripheral nerve regeneration in an in vivo mouse model

Microsurgical suturing is the gold standard of nerve coaptation. Although literature on the usefulness of fibrin glue as an alternative is becoming increasingly available, it remains contradictory. Furthermore, no data exist on how both repair methods might influence the morphological aspects（arborization; branching） of early peripheral nerve regeneration. We used the sciatic nerve transplantation model in thy-1 yellow fluorescent protein mice（YFP; n = 10）. Pieces of nerve（1cm） were grafted from YFP-negative mice（n = 10） into those expressing YFP. We performed microsuture coaptations on one side and used fibrin glue for repair on the contralateral side. Seven days after grafting, the regeneration distance, the percentage of regenerating and arborizing axons, the number of branches per axon, the coaptation failure rate, the gap size at the repair site and the time needed for surgical repair were all investigated. Fibrin glue repair resulted in regenerating axons travelling further into the distal nerve. It also increased the percentage of arborizing axons. No coaptation failure was detected. Gap sizes were comparable in both groups. Fibrin glue significantly reduced surgical repair time. The increase in regeneration distance, even after the short period of time, is in line with the results of others that showed faster axonal regeneration after fibrin glue repair. The increase in arborizing axons could be another explanation for better functional and electrophysiological results after fibrin glue repair. Fibrin glue nerve coaptation seems to be a promising alternative to microsuture repair.

鸡柔嫩艾美耳球虫体内瞬时转染系统的建立

本研究通过限制性内切酶介导的整合转染,将球虫表达载体pEtHEA转染的柔嫩艾美耳球虫子孢子经泄殖腔接种到4日龄AA雏鸡的回盲口。在不同时间段在荧光显微镜下检测黏膜内容物内虫体是否表达黄色荧光蛋白;另外还收集粪便中的卵囊,观察其是否同样表达黄色荧光蛋白。结果显示,转染后的柔嫩艾美耳球虫可以在体内发育阶段及卵囊阶段均表达黄色荧光蛋白,表明本研究建立了球虫体内瞬时转染系统,能简便可靠的检测黄色荧光蛋白在球虫内的瞬时表达。为进一步球虫的稳定转染提供了有力的技术支持。