利用Red重组工程技术解决外源基因在大肠杆菌染色体lac操纵子中的表达

为了应用Red重组工程技术实现外源基因在大肠杆菌染色体上的表达, 寻找染色体上外源蛋白的稳定高效表达位点, 使用Red重组工程系统和kan/sacB无痕迹修饰技术, 将易于定量分析的荧光素酶报告基因替换DY330染色体lac操纵子中的lacZ基因。检测该位点的表达效率结果显示: 大肠杆菌染色体上lac操纵子能够高效稳定表达外源基因, 初步证明了染色体可以作为外源蛋白或抗原的表达载体, 不会影响细菌的生长繁殖。     

利用Red重组工程技术解决外源基因在大肠杆菌染色体lac操纵子中的表达

为了应用Red重组工程技术实现外源基因在大肠杆菌染色体上的表达, 寻找染色体上外源蛋白的稳定高效表达位点, 使用Red重组工程系统和kan/sacB无痕迹修饰技术, 将易于定量分析的荧光素酶报告基因替换DY330染色体lac操纵子中的lacZ基因。检测该位点的表达效率结果显示: 大肠杆菌染色体上lac操纵子能够高效稳定表达外源基因, 初步证明了染色体可以作为外源蛋白或抗原的表达载体, 不会影响细菌的生长繁殖。     

乳腺癌转移相关基因与功能识别的可重复性

基于基因表达谱识别乳腺癌转移相关差异表达基因及其功能时,由于基因表达在个体间的变异相对较高而样本量相对较少,由不同研究识别的差异表达基因的可重复性较低。本文基于两套乳腺癌转移基因表达谱,评价两组差异表达基因及其所富集的功能的可重复性。结果显示:在两套表达谱中识别的差异表达基因的表达改变方向高度一致并具有显著的表达相关性;基于两组差异表达基因识别的转移相关功能在两套表达谱中高度可重复,主要涉及细胞分裂、细胞周期、DNA复制、染色体分离、磷酸肌醇介导信号转导和DNA损伤刺激应答等。     

脂肪细胞分化差异表达基因与其染色体所在遗传图位置的相关性分析

在脂肪细胞分化过程中,有约1／3表达的基因被诱导或抑制。通过分析3T3－L1脂肪细胞分化差异表达基因在染色体遗传图上的位置,对共同表达诱导或抑制的基因群体的调控与它们在染色体遗传图上的位置分布的关系进行分析。结果显示这些共同调控的基因除拥有共同的转录调控因子外,未发现在染色体的位置上和它们的共同调控有相关性。     

玉米(Zea mays L.)中凋亡相关基因c-myc同源序列的检出及其染色体原位杂交定位

原癌基因c-myc是普遍存在于动物组织中的一个高度保守的细胞凋亡相关基因,决定着多种动物细胞的凋亡。我们首次以人c-myc的基因组DNA为探针,用生物素标记的原位杂交和酶联级联放大检测系统在玉米中检出了c-myc基因的同源序列,并对其进行了染色体物理定位。在第5染色体长臂近末端、第4染色体长臂近着丝粒及第1染色体短臂近着丝粒处检测到杂交信号,信号与着丝粒的百分距离分别为96.21±4.46、24.11±0.47和10.02±1.04,本结果为寻找和研究植物细胞凋亡基因提供了重要线索。     

二化螟滞育生物钟蛋白TIME-EA4基因的克隆及时空和温度诱导表达分析

【目的】生物测时蛋白TIME-EA4是昆虫特有的一种滞育生物钟蛋白。本文旨在克隆二化螟Chilo suppressalis TIME-EA4基因,研究其在二化螟不同发育时期和不同组织中的时空表达模式及在不同田间种群和不同温度诱导下的滞育和非滞育种群中的表达水平。【方法】通过RACE技术克隆二化螟TIME-EA4基因全长c DNA序列,利用荧光定量PCR的方法检测TIME-EA4基因在二化螟不同发育时期、6龄幼虫不同组织中的表达模式,及在不同季节采集的田间种群和不同温度处理1h后的滞育和非滞育种群6龄幼虫中的表达量变化。【结果】从二化螟中克隆获得TIME-EA4的c DNA序列(Gen Bank登录号:KU356855),全长821 bp,开放阅读框516 bp,编码172个氨基酸;TIME-EA4基因在二化螟不同发育时期和不同组织中均有表达,且在早期蛹、雌雄成虫以及6龄幼虫的头部、脂肪体和中肠中表达水平较高,同时在滞育幼虫组织中的表达高于非滞育幼虫。此外,TIME-EA4基因在滞育种群中的表达量是非滞育种群的3倍左右,同时在非滞育种群中,该基因的表达明显受10℃及以下低温的诱导,且在10℃时表达量最高,而在滞育种群中该基因的表达受温度影响不明显。【结论】结果说明TIME-EA4基因与二化螟的抗低温胁迫以及低温滞育相关。本研究为TIME-EA4在农业害虫滞育的分子作用机制研究奠定了基础。     

人牛精浆蛋白相关新基因的cDNA克隆、定位和表达

为了研究牛精浆 (bovineseminalplasma ,BSP)蛋白及其相关蛋白在受精及受精卵发育中的重要作用 ,寻找BSP蛋白相关新基因 .采用cDNA末端快速扩增 (RACE)技术 ,克隆了一个BSP蛋白相关基因的cDNA序列 .应用辐射杂种细胞系 (RH)技术进行了基因染色体定位 .通过RT PCR检测了该基因在人体各组织中的表达情况 .并将该基因编码的蛋白进行了原核表达 .新基因的cDNA长度为 10 5 2bp ,其开放阅读框架 (ORF)编码了一个含 2 2 3个氨基酸残基的蛋白质 ,氨基酸序列中含有 4个纤连蛋白Ⅱ结构域 ,与BSP蛋白在结构上具有一定的相似性 ,称其为人BSP相关蛋白 (humanBSP relatedproteins ,HBRP) .该基因定位于染色体 19q13,在大肠杆菌中表达为 5 2kD的融合蛋白 .研究结果提示 ,应用RACE方法克隆了一种新的人类与BSP蛋白相关的基因 ,推测其编码蛋白是与BSP蛋白功能相关的结合蛋白 ,通过基因重组技术大量获得表达蛋白 ,对进一步研究新蛋白的生物学功能具有重要的意义 .     

应用荧光原位杂交技术检测康柏西普基因在CHO细胞染色体上的整合状态

CHO细胞是常用的哺乳动物表达工程细胞。外源基因整合至CHO细胞染色体后,在大规模蛋白质生产过程中,由于相关压力撤除,外源基因存在丢失的可能,因此有必要对其整合稳定性进行检测。康柏西普(conbercept)是一个能够特异性结合VEGF-A的各种异构体、VEGF-B以及PlGF,从而发挥抗血管生成活性的融合蛋白。康柏西普目前已在美国进入Ⅲ期临床试验。本文运用荧光原位杂交对康柏西普基因在CHO细胞的整合状态进行了检测,发现经过4和19次传代后,康柏西普基因依然能稳定整合在基因组上,并且呈现出3个特点：(1)分布在一条染色体上,而不是多条染色体上;(2)分布在较长的染色体上;(3)在同一染色体上有较多拷贝数。同时,荧光定量PCR结果证明基因拷贝数无明显改变,ELISA检测证明蛋白表达水平亦无明显改变。上述实验证明在经过19次传代以后,康柏西普基因仍然稳定整合在基因组中,并可活跃表达,为康柏西普大规模生产及产品质控提供了有力依据。     

铜绿假单胞菌中III型分泌系统受Rhl和PQS群体感应系统调节

摘要：【目的】研究铜绿假单胞菌中群体感应系统（Quorum sensing, QS）与III型分泌系统（Type III secretion system, T3SS）的关系。【方法】通过基因敲除的方法破坏铜绿假单胞菌QS系统相关基因,将T3SS相关基因exoS、exoY、exoT、exsD-pscA-L启动子-报道子luxCDABE融合体整合到野生型菌株及QS系统突变菌株的染色体组上,通过检测启动子活性,比较这些基因在不同菌株中的表达情况。【结果】研究结果表明,T3SS中的exoS与exoT在pqsR基因突变体中的表达有明显的增强,Rhl系统对这四种基因的表达具有抑制作用,而Las系统存在与否对T3SS基本没有影响。【结论】铜绿假单胞菌中的Rhl系统和奎诺酮信号（Pseudomonas Quinolone Signal, PQS）系统对T3SS相关基因的表达具有重要的调节作用。     

用基因芯片筛选高转移卵巢癌细胞系转移相关基因

用标准化的Affymetrix公司生产U133A基因芯片技术研究高(H)转移卵巢癌细胞株(HO-8910PM)和正常卵巢上皮(C)基因表达谱差异,筛选与卵巢癌转移相关的基因及其在染色体的定位和功能。结果发现高转移卵巢癌细胞株和正常卵巢上皮比较表达差异8倍以上共有1,237个基因,其中表达上调(信号比的对数值SLR≥3)有597个,表达下调(SLR≤-3)有640个。从表达差异的基因在染色体定位分析,发现除1个基因未知其定位外,其余所有差异表达基因散在分布在各条染色体上,但以1号染色体最多,有115个(9.3%)。其次是2号染色体有94个(7.6%),第三是12号染色体有88个(7.1%)。第四是11号染色体有76个(6.1%)。第五是X染色体有71个(5.7%)。第6是17号染色体有69个(5.6%)。而差异表达的基因发生在染色体短臂(q)上有805个(占65.1%),在13,14,15,21和22号仅发现在q上有差异表达基因。从表达差异的基因分子功能分类看,属于酶和酶调控子基因最多(306个,占24.7%),其次是核酸结合基因(144个,占11.6%)。第三类是信号传导基因(137个,占11.1%)。第四类是蛋白结合基因(116个,占9.4%)。以上4大类共占基因总数56.8%。还有功能未知的基因有207个,占16.7%。结论:高转移卵巢癌细胞株差异表达基因散在分布在各条染色体上,但以1、2、12、11、17和X染色体差异表达基因居多,肿瘤的转移是多基因共同作用的结果。4大类(酶和酶调控子活性、核酸结合活性、信号传导活性、蛋白结合活性)差异表达基因是我们今后研究卵巢癌转移相关的重要基因。     

Gene expression is highly correlated on the chromosome level in urinary bladder cancer

Objective: Chromosome correlation maps display correlations between gene expression patterns on the same chromosome. Our goal was to map the genes on chromosome regions and to identify correlations through their location on chromosome regions.

Materials and Methods: Following microarray analysis we used Ingenuity Pathway Analysis (IPA) to construct gene networks of the co-deregulated genes in bladder cancer. Chromosome mapping, mathematical modeling and data simulations were performed using the WebGestalt and Matlab^® softwares.

Results: The top deregulated molecules among 129 bladder cancer samples were implicated in the PI3K/AKT signaling, cell cycle, Myc-mediated apoptosis signaling and ERK5 signaling pathways. Their most prominent molecular and cellular functions were related to cell cycle, cell death, gene expression, molecular transport and cellular growth and proliferation. Chromosome correlation maps allowed us to detect significantly co-expressed genes along the chromosomes. We identified strong correlations among tumors of Tα-grade 1, as well as for those of Tα-grade 2, in chromosomes 1, 2, 3, 7, 12 and 19. Chromosomal domains of gene co-expression were revealed for the normal tissues, as well. The expression data were further simulated, exhibiting an excellent fit (0.7 < R² < 0.9). The simulations revealed that along the different samples, genes on same chromosomes are expressed in a similar manner.

Conclusions: Gene expression is highly correlated on the chromosome level. Chromosome correlation maps of gene expression signatures can provide further information on gene regulatory mechanisms. Gene expression data can be simulated using polynomial functions.     

The gene map of the Norway rat (Rattus norvegicus) and comparative mapping with mouse and man

The current status of the rat gene map is presented. Mapping information is now available for a total of 214 loci and the number of mapped genes is increasing steadily. The corresponding number of loci quoted at HGM10 was 128. Genes have been assigned to 20 of the 22 chromosomes in the rat. Some aspects of comparative mapping with mouse and man are also discussed. It was found that there is a good correlation between the morphological homologies detectable in rat and mouse chromosomes, on the one hand, and homology at the gene level on the other. For 10 rat synteny groups all the genes so far mapped are syntenic also in the mouse. For the remaining rat synteny groups it appears that the majority of the genes will be syntenic on specific (homologous) mouse chromosomes, with only a few genes dispersed to other members of the mouse karyotype. Furthermore, the data indicate that mouse chromosome 1 genetically corresponds to two rat chromosomes, viz., 9 and 13, equalizing the difference in chromosome number between the two species. Further mappings will show whether the genetic homology will prove to be as extensive as these preliminary results indicate. As might be expected from evolutionary considerations, rat synteny groups are much more dispersed in the human genome. It is clear, however, that many groups of genes have remained syntenic during the period since man and rat shared a common ancestor. One further point was noted. In two cases groups of genes were syntenic in the mouse but dispersed to two chromosomes in rat and man, whereas in a third case a group of genes was syntenic in the rat but dispersed to two chromosomes in mouse and man. This finding argues in favor of the notion that the original gene groups were on separate ancestral chromosomes, which have fused in one rodent species but remained separate in the other and in man.     

Satellite DNA induces unstable expression of the adjacent herpes simplex virus tk gene cotransfected in mouse cells.

To study the influence of clustered highly repetitive DNA sequences on the expression of adjacent genes, LTK- cells were cotransfected with the herpes simplex virus thymidine kinase (tk) gene and mouse satellite DNA. TK+ transformants containing a few copies of the tk genes flanked by satellite DNA were isolated. In situ hybridization on the metaphase chromosomes indicated that in each cell line the TK sequences resided at a single chromosomal site and that integration occurred preferentially into regions of the cellular DNA rich in highly repetitive sequences. The prominent feature of these cell lines was their phenotypic instability. Suppression and reexpression of the tk gene occurred at high frequency (greater than 3%) and did not correlate with any significant change in the organization of foreign DNA or with the presence of selective agents. These results indicate that satellite DNA, the major component of constitutive heterochromatin, may influence the expression of adjacent genes by affecting the chromatin structure.     

Local coexpression domains of two to four genes in the genome of Arabidopsis

Expression of genes in eukaryotic genomes is known to cluster, but cluster size is generally loosely defined and highly variable. We have here taken a very strict definition of cluster as sets of physically adjacent genes that are highly coexpressed and form so-called local coexpression domains. The Arabidopsis (Arabidopsis thaliana) genome was analyzed for the presence of such local coexpression domains to elucidate its functional characteristics. We used expression data sets that cover different experimental conditions, organs, tissues, and cells from the Massively Parallel Signature Sequencing repository and microarray data (Affymetrix) from a detailed root analysis. With these expression data, we identified 689 and 1,481 local coexpression domains, respectively, consisting of two to four genes with a pairwise Pearson's correlation coefficient larger than 0.7. This number is approximately 1- to 5-fold higher than the numbers expected by chance. A small (5%-10%) yet significant fraction of genes in the Arabidopsis genome is therefore organized into local coexpression domains. These local coexpression domains were distributed over the genome. Genes in such local domains were for the major part not categorized in the same functional category (GOslim). Neither tandemly duplicated genes nor shared promoter sequence nor gene distance explained the occurrence of coexpression of genes in such chromosomal domains. This indicates that other parameters in genes or gene positions are important to establish coexpression in local domains of Arabidopsis chromosomes.     

Chromosomal localization of GABAA receptor subunit genes: relationship to human genetic disease

Hybridization of GABAA receptor probes to human chromosomes in situ and to DNA from sorted human chromosomes has localized the genes encoding a beta subunit and three isoforms of the alpha subunit. The alpha 2 and beta genes are both located on chromosome 4 in bands p12-p13 and may be adjacent. The alpha 1 gene is on chromosome 5 (bands q34-q35) and the alpha 3 gene is on the X chromosome. The alpha 3 locus was mapped also on the mouse X chromosome using genetic break-point analysis in an interspecies pedigree. The combined results locate the human alpha 3 gene within band Xq28, in a location that makes it a candidate gene for the X-linked form of manic depression.