Dnd1的蛋白亚细胞定位及其对HeLa细胞增殖的抑制作用

小鼠睾丸生殖细胞瘤易感基因Dnd1编码的蛋白是一个在进化中保守的RNA结合蛋白.为探讨小鼠Dnd1的蛋白亚细胞定位和对细胞增殖的影响及其机制, 利用生物信息学技术, 采用组合的亚细胞定位分析软件对Dnd1进行真核生物亚细胞定位预测; 利用融合绿色荧光蛋白(green fluorescent protein, GFP)定位的方法, 通过构建pEGFP-Dnd1重组质粒, 将重组质粒pEGFP-Dnd1转染HeLa细胞和GC-1细胞, 在荧光显微镜下观察Dnd1的蛋白亚细胞定位; 用MTT法和流式细胞技术测定Dnd1过表达对HeLa细胞的增殖能力的影响和细胞周期的改变; 在HeLa细胞系中检测Dnd1对AP-1转录活性的影响. 结果表明: ① 生物信息学预测Dnd1主要在细胞核表达, 在细胞质中也有少量表达; 荧光显微镜下观察发现,Dnd1蛋白主要定位在细胞核, 在细胞质中也有少量分布; ② Dnd1基因在HeLa细胞系中的过表达抑制细胞增殖和诱导细胞周期G1期阻滞;③ Dnd1抑制AP-1的转录活性,从而抑制AP-1介导的转录是Dnd1抑制细胞增殖的可能机制.本研究初步明确了Dnd1的蛋白亚细胞定位及其对HeLa细胞的生长抑制作用, 这为进一步研究Dnd1基因的功能建立基础.     

拟南芥未知功能基因At3g61870编码蛋白的叶绿体定位研究

利用反向遗传学研究方法对1个预测的拟南芥叶绿体未知功能基因At3g61870编码蛋白进行了亚细胞定位研究.通过克隆At3g61870基因5′端长229 bp的DNA片段,与绿色荧光蛋白(GFP)基因构建重组表达载体pMON530-CP-TP-GFP,经农杆菌介导转化拟南芥.转基因植株的叶肉细胞经激光共聚焦显微镜观察,叶绿素自发荧光与GFP荧光共定位于叶绿体中.结果表明,未知功能基因At3g61870编码的蛋白质为叶绿体蛋白质.     

人ob基因克隆及其亚细胞定位的研究

目的:旨在克隆人肥胖(obese,ob)基因的全长cDNA序列,与EGFP重组构建融合蛋白表达载体,并分析其亚细胞水平的定位.方法:提取人脂肪细胞总RNA,采用RT-PCR方法扩增出人ob基因cDNA,并克隆至真核表达载体pEGFP-CI,重组质粒转染NIH-3T3细胞,荧光显微镜分析EGFP-ob融合蛋白的亚细胞定位.结果:克隆的ob基因cDNA为501bp,共编码167个氨基酸,与GenBank公布的人ob基因序列一致,荧光显微镜分析表明,重组的EGFP-ob融合蛋白主要分布于NIT-3T3的细胞质中.结论:成功克隆了人OB基因的cDNA序列,构建人OB基因的真核表达载体pEGFP-CI-ob,融合蛋白EGFP-ob定位于NIH-3T3细胞质中.     

人HSPA8基因生物信息学分析及亚细胞定位

探究人HSPA8基因生物信息学分析与亚细胞定位。利用用RT-PCR方法扩增HSPA8基因CDS区,利用生物信息学工具对其理化性质、二级结构、三级结构进行分析并构建其遗传进化树。运用酶切、连接等方法构建重组真核表达载体pEGFPC1-HSPA8,转染HEK-293T细胞,采用荧光共定位的方法观察其亚细胞定位。成功克隆人HSPA8基因CDS区,生物信息学分析结果显示:人HSPA8基因CDS区全长1 941 bp,分子式为C3111H4998N860O994S17,相对分子量为70.89 kD,共编码646个氨基酸;二级结构预测显示HSPA8蛋白以α-螺旋(占41.64%)和无规则卷曲(32.20%)为主;HSPA8核苷酸同源性及遗传进化树分析表明人与黑猩猩亲缘关系最近。荧光共定位结果显示HSPA8蛋白均匀分布于整个细胞。HSPA8蛋白的生物信息学分析及亚细胞定位研究为进一步探究HSPA8基因胞内功能奠定基础。     

新基因Nischarin生物信息学分析及初步验证

目的:对新基因Nischarin进行生物信息学分析,探索其新功能特征,并通过实验进行初步验证。方法:用生物信息学方法对Nischarin进行初步分析,阐明了它的基因结构、染色体定位、编码蛋白质的理化性质、相互作用基因、相互作用蛋白、亚细胞定位、蛋白质功能域等信息。最后采用细胞免疫荧光对其DNA结合位点进行初步验证。结果:对新基因Nischarin的上述性质进行了有效的预测,分析表明该基因结构复杂,相互作用基因或蛋白多,亚细胞分布预测复杂。验证了Nishcarin存在的DNA结合位点。结论:通过生物信息学分析,表明新基因Nischarin是一个复杂的基因,可能存在的多种蛋白表达形式、这些不同的蛋白可能存在不同的亚细胞分布,且该蛋白可能与多种蛋白存在相互作用,上述基因和蛋白特性可能是Ⅰ型咪唑啉受体(Imidazoline-1 receptor,I1R)复杂药理学作用的分子基础。     

人类新基因WDR24的研究初报

WD40家族是一类结构保守、功能复杂的蛋白.目前很多研究显示该家族成员通过参与MAPK信号途径调控细胞内信号转导而影响细胞的基本生命活动.为了鉴定参与细胞生命活动的新基因,运用同源基因克隆法,通过PCR技术扩增获得一个新的人类基因WDR24, 其cDNA全长3 302 bp,2 373 bp长的开放阅读框编码由790个氨基酸残基组成的蛋白质.生物信息学分析表明,WDR24蛋白在进化上高度保守,与其他脊椎动物中的同源蛋白组成了一个功能未知的亚家族.蛋白序列分析显示其中有6个WD40重复序列和1个ERK的停泊位点D-domain.RT-PCR分析表明,该基因在所有被检测的人类胚胎组织中表达.     

两个拟南芥未知功能蛋白的亚细胞定位研究

蛋白质的亚细胞定位对于深入了解该蛋白质所行使的生理功能具有重要意义。经生物信息学预测,两个拟南芥未知功能基因At4g16410与Atl gI8060编码蛋白含有叶绿体定位信息。我们分别克隆了这两个基因5’端长199bp与220bp的DNA片段,与绿色荧光蛋白（GFP）基因构建重组表达载体pMON530-cTP1-GFP与pMON530-cTP2-GFP,经农杆菌介导转化拟南芥。两种转基因植株经激光共聚焦显微镜观察,GFP荧光仅在叶绿体中观察到,表明所克隆的两段DNA序列编码的多肽能够将At4gl6410与Atlgl8060编码蛋白质引导进入叶绿体,确定这两个蛋白质均为叶绿体蛋白质。     

一个抑制AP-1活性的人类新基因AC3-33的克隆和初步功能研究

Activator protein-1(AP-1)是重要的转录因子, 其活性失调与肿瘤等多种疾病直接相关。本文运用“高通量高内涵细胞筛选技术(high throughput-high content cell-based screening technology)”对650个以未知功能基因为主的人类基因进行AP-1双荧光素酶报告基因筛选(Dual-Luciferase reporter gene screening), 获得了一个可抑制佛波酯(PMA)加离子霉素(Inonmycin)诱导的AP-1活性的人类新基因AC3-33(GenBank中该基因名为C3orf33, No. FLJ31139)。生物信息学分析该基因序列全长1 931 bp, 由6 个外显子和5 个内含子组成, 定位于3q25.31, 从271~1026 有一个编码251 个氨基酸的可读框, 编码一个约29 kDa 的蛋白, 在肾上腺和宫颈等多种组织都有表达。AC3-33 与其他人类已知蛋白质没有明显的同源性, 亚细胞定位于细胞质中, 许多氨基酸序列高度保守。初步实验结果显示AC3-33是一个有重要功能的人类新基因。     

非洲爪蟾基因MGC64236的克隆及初步分析

MGC64236基因是本实验室用脐静脉内皮细胞免疫的兔血清筛选非洲爪蟾cDNA文库而鉴定的一个功能未知的基因.本研究提取非洲爪蟾受精卵总RNA通过RT-PCR得到基因MGC64236的开放读码框651 bp、编码202个氨基酸;运用生物信息学研究工具进行分析,发现该基因编码的蛋白有3个潜在的跨膜域,有一保守的结构域DUF1370, 可能通过其胞内部分的磷酸化机制在介导细胞内外的信号转导中发挥重要作用;在非洲爪蟾胚胎各个发育时期用RT-PCR检测该基因的表达情况,发现在非洲爪蟾胚胎发育的几个重要时期该基因都有高表达,而在成体则特异地表达于脑和眼等神经组织;构建绿色荧光融合蛋白真核表达载体并转染HEK293细胞, 对MGC64236蛋白的亚细胞定位,发现MGC64236蛋白比较特异地表达在细胞膜.     

七叶皂苷对P-糖蛋白功能的影响

目的:探讨七叶皂苷时P-糖蛋白功能的影响.方法:构建稳定表达P-糖蛋白的LLC-PK1细胞系,以real-time RT-PCR和Western Blotting分析P-糖蛋白基因mRNA和蛋白表达,共聚焦显微镜观察P-糖蛋白细胞定位,流式细胞术检测细胞内罗丹明123荧光强度.结果:(1)P-糖蛋白在LLC-PK1细胞中稳定高表达;(2)转染细胞中P-糖蛋白定位在细胞膜上;(3)七叶皂苷抑制P-糖蛋白功能.细胞内罗丹明123荧光强度增加123%,但其抑制效果是维拉帕米的30%.结论:七叶皂苷抑制P-糖蛋白功能,但其抑制效果弱于维拉帕米.     

Pyruvate dehydrogenase complex: mRNA and protein expression patterns of E1α subunit genes in human spermatogenesis

During spermatogenesis, germ cells undergo a complex process of cell differentiation and morphological restructuring, which depends on the coordinated expression of different genes. Some vital examples are those involved in cell energy metabolism, namely the genes encoding the E1α subunit of pyruvate dehydrogenase complex: the somatic PDHA1 (X-linked) and the testis-specific PDHA2 (autosomal). There are no data related to the study at the RNA and protein levels of PDHA genes during human spermatogenesis. The present study aimed to describe the mRNA and protein expression patterns of the human PDHA genes during spermatogenesis. Expression profiles of the PDHA1 and PDHA2 genes were characterized using different human tissues and cells. Diploid and haploid germ cells fractions were obtained from testis tissues. The mRNA profiles were analyzed by quantitative RT-PCR, whereas the protein profiles were evaluated by immunohistochemistry, western blotting and two-dimensional electrophoresis. Expression of the PDHA1 gene was found in all somatic cells, whereas expression of PDHA2 gene was restricted to germ cells. The switch from X-linked to autosomic gene expression occurred in spermatocytes. Data suggest the activation of PDHA2 gene expression is most probably a mechanism to ensure the continued expression of the protein, thus allowing germ cell viability and functionality.     

Possible biomarkers for ionizing radiation exposure in human peripheral blood lymphocytes

Biomarkers to indicate past exposure to radiation have not been entirely satisfactory. Using cDNA microarray hybridization to find new potential biomarkers, we identified highly expressed genes in human peripheral blood lymphocytes (PBLs) after irradiation 1 Gy ex vivo. The present set of radiation markers in PBLs was identified 12 h after radiation. A total of 44 genes were identified. However, when RT-PCR was performed with mRNA from the PBLs of five individuals, only four genes, including TRAIL receptor 2, DRAL (now known as FHL2), cyclin G, and cyclin protein gene, showed greater than 50% agreement between gene induction as detected by microarray analysis and by RT-PCR. When more than 32 donors were tested for the above four genes, greater than 85% agreement was obtained between gene induction measured by microarray analysis and by RT-PCR. There was a linear dose-response relationship between 0.5 and 4 Gy 12 h after irradiation; however, there was less linearity at later times. These results suggested that the relative expression levels of genes such as TRAIL receptor 2, FHL2, cyclin G, and cyclin protein gene in PBLs may provide estimates of radiation exposures.     

Expression of a novel HsMCAK mRNA splice variant,tsMCAK gene,in human testis

Identification of specifically expressed genes in the adult or fetal testis is very important for the study of genes related to the development and function of the testis. In this study, a human adult testis cDNA microarray was constructed and hybridized with 33P-labeled human adult and embryo testis cDNA probes, respectively. After differential display analyzing, a number of new genes related to the development of testis and spermatogenesis had been identified. One of these new genes is tsMCAK. tsMCAK was expressed 2.62 folds more in human adult testis than fetal testis. The full length of tsMCAK is 2401 bp and contains a 2013 bp open reading frame, encoding a 671-amino-acid protein. Sequence analysis showed that it has a central kinesin motor domain and is homologous to HsMCAK gene of the somatic cells. Blasting human genome database localized tsMCAK to human chromosome 1P34 and further investigation showed that it is a splice variant of HsMCAK. The tissue distribution of tsMCAK was determined by RT-PCR and it is expressed highly and specifically in the testis. Southern blot studies of its expression in patients with infertility indicated its specific expression in spermatogenic cells and its correlation with male infertility. The above results suggested that tsMCAK is a candidate gene for the testis-specific KRPs and its specific expression in the testis was correlated with spermatogenesis and may be correlated with male infertility.     

Human heme oxygenase: cell cycle-dependent expression and DNA microarray identification of multiple gene responses after transduction of endothelial cells

The purpose of the present study was to examine the role of human heme oxygenase (human HO-1) in cell cycle progression following exposure to heme or human HO-1 gene transfer and to identify target genes associated with human HO-1-meditated increases in cell cycle progression using cDNA microarray technology. Heme-induced robust human HO-1 expression in quiescent human microvessel endothelial cells cultured in 1% FBS and the levels of human HO-1 expression progressively declined without a change in the cell cyclin. To identify genes regulated by human HO-1 in the cell cycle, human endothelial cells were transduced with a retroviral vector encoded with human HO-1 gene or an empty vector. Transgene expression and functionality of the recombinant protein were assessed by Western blotting, enzyme activity, carbon monoxide, cGMP production, and cell cycle analysis. Human cDNA gene array and quantitative real-time RT-PCR were used to identify both known and novel differentially expressed genes in cells overexpressing human HO-1. Major findings were upregulation of several genes associated with cell cycle progression, including cyclin E and D; downregulation of cyclin-dependent kinase inhibitors p21 and p27, cyclin-dependent kinases 2, 5, and 6, and monocyte chemoattractant protein-1; and upregulation of growth factors, including vascular endothelial growth factor (VEGF) and vascular endothelial growth factor receptor I (VEGFRI), endothelial growth factor (EGF) and hepatic-derived growth factor (HDGF). These findings identify an array of gene responses to overexpression of human HO-1 and elucidate new aspects of human HO-1 signaling involved in cell growth.