线粒体转录因子A的研究进展

线粒体转录因子A是HMG蛋白家族中的成员,目前已知除了可以调控线粒体DNA的拷贝数和转录活性、参与细胞凋亡外,还可对人的寿命和疾病产生影响,如甲状腺功能减退性肌病和线粒体脑病等。近来研究还发现mtTFA也可在细胞核内发挥作用,提示核及线粒体基因表达调控的机制上存在偶联或协同作用。本文主要总结近年来关于线粒体转录因子A的研究进展,从其基因学定位和结构、蛋白质结构、基因表达调控及其主要功能做一概述,同时总结不同研究过程中提出的未知问题．并对进一步的研究方向做一展埋。     

线粒体转录终止因子蛋白家族研究进展

线粒体转录终止因子蛋白的作用是与线粒体DNA的特异位点结合,导致线粒体基因转录停止。近年来,随着人们对线粒体基因转录机制和人线粒体疾病的深入研究,线粒体转录终止因子的功能开始受到人们的关注。本文介绍了线粒体转录终止因子及其家族成员的研究进展和有待解决的一些问题。     

基因枪法获得逆境诱导转录因子DREB1A转基因小麦的研究

以小麦品种H6756和藁城8901作为基因枪转化的靶材料,取其护颖至雌雄蕊原基形成期的幼穗,用含逆境诱导转录因子DREB1A和bar基因的质粒pAHC25轰击胚性愈伤组织,在分别含有5mgL和10mgLBasta溶液的培养基上进行筛选。得到的抗性愈伤组织在不含Basta溶液的培养基上再生培养,获得218棵再生植株。田间涂抹浓度为100mgL的Basta溶液检测后,对抗性植株作PCR检测,获得54棵再生植株。通过对其中20株T1代的PCR和Southern杂交分析,已获得14株含DREB1A和bar基因的转基因小麦植株,其中H675613株,藁城89011株。     

人载脂蛋白A1基因转基因小鼠的建立

目的建立系统性表达人载脂蛋白A1(APOA1)基因的转基因小鼠。方法 将人APOA1基因插入系统性表达启动子下游,构建转基因表达载体,通过显微注射法建立人APOA1转基因C57BL/6J小鼠。并利用特异引物PCR法鉴定转基因小鼠的基因型,Western blot检测基因表达水平,血生化分析检测不同月龄转基因小鼠与同龄野生型小鼠的血脂指标。结果建立了2个不同表达水平的人APOA1基因的转基因小鼠品系;转入的人APOA1基因在血液、肝脏、心脏、肾脏、脾脏、血管组织中均有明显表达;血生化分析结果显示不同月龄转基因小鼠的血浆高密度脂蛋白胆固醇水平高于同龄的野生型小鼠,甘油三酯水平低于同龄野生型小鼠。结论成功建立了系统性表达人APOA1基因的转基因小鼠,为研究高血脂以及高血脂相关的心血管病提供了工具。     

慢病毒载体法制备红色荧光蛋白转基因小鼠

目的利用慢病毒介导的转基因方法制备红色荧光蛋白（mRFP）转基因小鼠,并建立转基因小鼠的技术平台。方法将携带mRFP基因的慢病毒注入ICR鼠单细胞受精卵卵周隙以感染受精卵,胚胎移植进假孕母鼠以获得仔代鼠,然后应用小动物活体成像仪、体视荧光显微镜和PCR等鉴定并获得mRFP转基因鼠。结果移植卵周隙注射有慢病毒的胚胎40枚给2只假孕母鼠,共获得仔鼠6只;利用体视荧光显微镜检测mRFP表达,在蛋白水平证实6只F0代中,2只（R3和R4）鼠耳高表达mRFP,其余的弱表达mRFP（R1、R2和R5）或荧光强度（R6）与野生型ICR鼠无明显差别,而DNA水平检测证实,6只F0代中,5只（R1、R2、R3、R4和R5）基因组中整合有外源转基因hUb-mRFP,预示基因型鉴定结果很好验证了体视荧光显微镜鉴定结果。此外,mRFP转基因首建鼠基因组中整合的mRFP基因可稳定遗传和表达。结论建立了慢病毒法快速制备转基因小鼠的技术平台,这为针对不同基因建立相应转基因小鼠以实现恒定或条件性的转基因过表达或RNA干涉（RNAi）,并进而在体内解析相应基因功能和建立人类疾病模型等奠定了坚实基础。     

心肌特异性高表达热休克蛋白27转基因鼠建立

目的 建立人热休克蛋白27（heat shock protein 27, Hsp27）基因在小鼠心肌特异性表达的转基因鼠模型。 方法 将人心肌Hsp27cDNA插入含有心肌特异性表达启动子αMHC的pBSⅡ-SK+载体中,限制性内切酶EcoRI酶切、纯化后,获得含有αMHC启动子－Hsp27cDNA－HGH polyA的线性DNA片段,以显微注射法将目的基因导入受精卵, PCR筛选基因型,Western Blot鉴定转移基因的表达和表达的组织特异性。结果和结论 共获得两个转基因系小鼠,均呈心肌组织特异性高表达。     

5-脂氧化酶转基因小鼠模型的制备

目的建立5-脂氧化酶(5-LO)转基因小鼠进行动脉粥样硬化的发病分子机制的研究。方法通过显微注射的方法,将5-脂氧化酶基因片段(6.8 kb)导入BDF1受精卵雄原核并移植到同期受孕的假孕母鼠输卵管中,对产出仔鼠的鼠尾组织DNA进行PCR、Southern blot检测,对9、20、24号转基因小鼠分别提取腹腔细胞、骨髓细胞及脾、肾组织总RNA和蛋白,并采用RT-PCR、Western blot方法进行转录水平检测和蛋白表达检测。结果共产生25只子代小鼠,经PCR和Southern检测获得7只阳性小鼠,经RT-PCR和Western blot检测结果表明,9、20、24号转基因小鼠腹腔细胞、骨髓细胞、脾、肾5-LO和5-脂氧化酶激活蛋白(FLAP)在RNA和蛋白水平表达均高于正常BDF1对照小鼠,且统计学分析腹腔细胞、骨髓细胞表达均具有显著差异(P0.05)。结论成功建立5-LO转基因小鼠模型。     

Increased Milk Yield in Transgenic Mice Expressing Insulin-like Growth Factor 1

Abstract

Insulin-like growth factor 1 (IGF-1) mediates many of the actions of growth hormone. Overexpression of IGF-1 was reported to have endocrine and paracrine/autocrine effects on somatic growth in transgenic mice. To study the paracrine/autocrine effects of IGF-1 in mammary gland, transgenic mice were produced by pronuclear microinjection of a construct containing a bovine α-lactalbumin (α-LA) promoter linked to an ovine IGF-1 cNDA. This α-LA promoter has previously been shown to direct expression of a human factor VIII gene specifically to the mammary gland of transgenic mice. Three transgenic mouse lines were established as a result of microinjection of 398 embryos. Transgene expression was found in mammary gland at day 1 of lactation from these three lines. Progeny test were carried out by mating two transgenic males/one transgenic female to two nontransgenic females/one nontransgenic male. Mice from one line (line 1225) were all nonexpressors and the other (line 1372) failed to produce offspring. Milk yield was analyzed in the line 1137 that produced 10 mice, of which three were transgenic females and three nontransgenic females. All of the three transgenic females showed integration of the transgene and expressed transgene IGF-1 mRNA in the mammary gland. Milk yields from days 5, 10, and 15 of lactation were significant greater in transgenic expressors than in their nontransgenic littermates. Specifically, there is 17.9% increase in total milk yield from these three days for transgenics compared with nontransgenics. These results demonstrate that local overexpression of IGF-1 in transgenic mice is capable to stimulating milk yield during the first lactation.     

Mx—cre转基因小鼠品系的建立及其培育

将携带MX启动子调控的Cre基因真核表达载体pMx-cre线性化后,通过受卵显微注射途径制备转基因小鼠,共注射99个卵,产佴0只,利用PCR对小鼠进行筛选,以基因组Southern blot确证,最后得到一个阳性的小鼠品系,进而将其保护和扩大繁殖。     

IL34转基因小鼠的建立和表型分析

目的建立白介素34转基因小鼠,研究该基因在小鼠中表达对小鼠免疫系统的作用。方法把人的IL34基因插入CMV启动子下,构建转基因表达载体,通过显微注射法建立IL34转基因C57BL/6J小鼠。PCR鉴定IL34转基因小鼠的基因表型,Western blotting检测IL34蛋白的表达水平,组织化学染色观察IL34转基因小鼠重要器官的病理改变。结果建立了2个品系的IL34转基因小鼠。转入的人IL34基因在脾脏中的表达水平高于内源性IL34。组织学分析显示IL34转基因小鼠各重要器官如脑,心,肝,肾,肠等的形态结构均正常,但脾脏的生发中心比较活跃,白髓的范围比野生型小鼠大。结论成功建立了IL34转基因小鼠,IL34基因的过度表达对免疫系统作用需要进一步探讨。     

SND1转基因小鼠的构建

目的:构建 SND1 过表达的转基因小鼠模型。方法:利用对小鼠 SND1 基因转录本构建 SND1 过表达载体pInsulator-CAG-3×FLAG-SND1,利用受精卵原核注射技术,将外源线性pInsulator-CAG-3×FLAG-SND1转基因载体注射到受精卵细胞核内,将存活受精卵进行胚胎移植制备 SND1 转基因小鼠,用PCR、RT-PCR技术鉴定转基因小鼠是否构建成功。结果:成功构建过表达 SND1 基因的转基因小鼠模型,为进一步研究 SND1 基因在动物体内的生物学功能奠定基础。     

Neuropathological Abnormalities in Transgenic Mice Harbouring a Phosphorylation Mutant Neurofilament Transgene

Abstract: Ser⁵⁵ within the head domain of neurofilament light chain (NF-L) is a target for phosphorylation by protein kinase A. To understand further the physiological role(s) of NF-L Ser⁵⁵ phosphorylation, we generated transgenic mice with a mutant NF-L transgene in which Ser⁵⁵ was mutated to Asp so as to mimic permanent phosphorylation. Two lines of NF-L(Asp) mice were created and these animals express the transgene in many neurones of the central and peripheral nervous systems. Both transgenic lines display identical, early onset, and robust pathological changes in the brain. These involve the formation of NF-L(Asp)-containing perikaryal neurofilament inclusion bodies and the development of swollen Purkinje cell axons. Development of these pathologies was rapid and fully established in mice as young as 4 weeks of age. The two transgenic lines show no elevation of NF-L, neurofilament middle chain (NF-M), or neurofilament heavy chain (NF-H), and transgenic NF-L(Asp) represents only a minor proportion of total NF-L protein. Because other published transgenic lines expressing higher levels of wild-type NF-L do not exhibit phenotypic changes that in any way resemble those in the NF-L(Asp) mice and because the two different NF-L(Asp) transgenic lines display identical neuropathological changes, it is likely that the pathological alterations observed in the NF-L(Asp) mice are the result of properties of the mutant NF-L. These results support the notion that phosphorylation of Ser⁵⁵ is a mechanism for regulating neurofilament organisation in vivo.     

TNNI2突变转基因小鼠模型的建立

目的建立TNNI2突变转基因小鼠模型。方法构建pEGFP-tnni2转基因构件,TNNI2基因的第175个氨基酸缺失,通过原核显微注射法。把线性化、纯化后的外源基因pEGFP-tnni2注射入BDF1小鼠受精卵中。胚胎移植给同期发情的假孕受体母鼠,获得子代小鼠。用PCR和Southern方法检测子代鼠尾DNA鉴定基因型。通过RT-PCR方法检测tnni2基因表达。结果移植注射胚胎115枚给4只假孕小鼠共出生了23只后代鼠。经PCR和Southern方法检测得到4只阳性小鼠。对其子代进行RT-PCR检测,tnni2基因在肌肉、心脏内表达。结论通过显微注射法使外源基因pEGFP-tnni2（TNNI2基因的第175个氨基酸缺失）在小鼠基因组中得到整合,建立了转pEGFP-tnni2的转基因小鼠模型。