线粒体基因突变与NIDDM发生的关系

采用PCR-SSCP、PCR-RFLP及PCR产物直接测序等技术对90例NIDDM(即非胰岛素依赖型糖尿病)及80例正常对照个体的血细胞线粒体DNA进行了突变分析。结果在2例患者中发现线粒体DNA(mitochondrial DNA,mtDNA) ND1 (NaDH Dehydrogenase subunitⅠ)基因上3316位点存在G→A的点突变,导致丙氨酸错义突变成苏氨酸,而在80例正常对照个体中均不存在此位点突变。国内外已证实的和1.5%NIDDM发生有关的mtDNA tRNA Leu^(UUR)|基因上3243位点A→G的突变在本实验中并未发现。由此推断,3316位点G→A的突变可能与NIDDM的发生在关,3243位点A→G的突变率确实很低,可见糖尿病的发生在线粒体遗传上具有广泛的异质性。 Abstract:Using PCR-SSCP,PCR-RFLP and PCR product direct sequencing techniques,we analysed the mitochondrial DNAs(mtDNAs)of 90 patients with NIDDM (Non Insulin-Dependent Diabetes Mellitus)and those of 80 normal controls.The results showed that a G to A mutation which leads alanine’s missence mutaton to threonine in the mitochondrial ND1(NaDH Dehydrogenase subunit I) gene at nucleotide pair 3316 occurred in the blood cells of 2 patients.We have not however,indentified with the A to G mutation at nucleotide pair 3243 of the mitochondrial tRNA Leu(UUR) gene,which has been reported to associate with NIDDM in about 1.5% of the diabetic population.We infer that the mutation at position 3316 is perhaps associated with the development of NIDDM,the occurance of the mutation at position 3243 is actually rare,and NIDDM has an intensive mitochondrial genetic heterogenous background.     

人线粒体tRNALeu(UUR)及其突变体的基因克隆、表达和纯化

将化学法合成的人线粒体tRNALeu(UUR)及其突变体(tRNALeu(M))基因分别连接到载体pGEM-9zf (-)中, 并转化到大肠杆菌JM109中得到两个转化体分别为Leu-W和Leu-M. 在IPTG的诱导下, tRNALeu(UUR)和tRNALeu(M)的表达量可达总小分子RNA的19.10%和17.76%. 经DEAE-sepherose CL4B柱层析可使它们的纯度提高3倍. 最后用15%的变性聚丙烯酰胺凝胶电泳纯化, 并用大肠杆菌亮氨酰tRNA合成酶(LeuRS)分别测定了它们的氨酰化反应动力学常数. 结果显示, mtRNALeu(M)的Kcat / Km值约为mtRNALeu(UUR) 的1/5, 提示该突变可使mtRNALeu(UUR)的氨基酸接受能力明显下降.     

Gene cloning, expression and purification of human mitochondrial tRNA~(Leu(UUR)) and its mutant

Genes of human mitochondrial tRNALeu(UUR) (mtRNALeu(UUR)) and its mutant (mtRNALeu(M)) were synthesized and inserted into the plasmid pGEM-9Zf(-) respectively. E.coli JM 109 was transformed by the recombinant plasmids containing the target genes. The mtRNALeu(UUR) and mtRNALeu(M) were expressed up to 19.10% and 17.76% of total small RNA respectively. They were purified to 54% homogeneity by DEAE-sepharose-CL4B column chromatography and finally repu-rified by 15% PAGE/urea. Their kinetic parameters for E.coli LeuRS were measured. The results showed that the value of kcal/Km of mtRNALeu(M) was about one fifth of that of mtRNALeu(UUR) and indicated the leucine acceptability of mtRNALeu(M) was much lower than that of mtRNALeu(UUR).     

线粒体基因突变与糖尿病的相关性研究进展

线粒体DNA(mtDNA)突变可引起多种遗传性疾病,其中包括糖尿病.与mtDNA突变相关的糖尿病中最常见的变异是tRNALeu(UUR)] 3243 A→G.文章描述了mtDNA线粒体突变与糖尿病的相关性,介绍了线粒体糖尿病的临床特点和发病机制,概括了线粒体糖尿病相关变异基因位点,重点介绍了m.3243A→G、3310C→T、16189T→C基因突变与线粒体糖尿病病理生理的联系.文章认为mtDNA突变位点的研究为糖尿病的发生机制提供新的视角,也为糖尿病的治疗提供了新方向.     

温州地区2型糖尿病患者线粒体DNA 3243、3316位点的突变筛查

为了解浙江省温州地区2型糖尿病病人中线粒体DNA tRNALeu (UUR)基因A3243G及NADH 脱氢酶亚单位1 (ND1)基因G3316A位点突变的发生频率, 并探讨突变与2型糖尿病主要临床指标出现的相关性。对随机收集的无血缘关系的244例温州地区2型糖尿病患者进行研究, 同时选择156例无 DM 家族史的糖耐量正常者作为对照组, 用聚合酶链反应及限制性片段长度多态性分析技术进行点突变筛选, 筛选到的异质性突变样本经T-A克隆后再作测序和变性高效液相色谱(DHPLC)确证。结果在244例的2型糖尿病患者中检出A3243G突变1例(0.410%), 156例对照者中未检出该突变, 突变发生率在两组间差异无统计学意义(P>0.05); 2型糖尿病患者中检出G3316A突变4例(1.639%), 156例对照者中检出突变2例(1. 282%), 突变发生率在两组间差异无统计学意义(P>0.05)。结果表明线粒 体tRNALeu (UUR) 基因A3243G突变在浙江温州2型糖尿病人群中发生频率低, 不是温州人群中2型糖尿病的常见病因。线粒体ND1基因G3316A突变在糖尿病人群中的发生频率也较低, 且在正常人群中也有出现, 可能仅为人群中线粒体DNA的基因多态性。     

Increasing drug resistance in human lung cancer cells by mutant-type p53 gene mediated by retrovirus

Human mutant-type (mt) p53 cDNA was synthesized and cloned from human lung cancer cell line GL containing mt-p53 gene by using polymerase chain reaction (PCR). It was confirmed that the mt-p53 cDNA con-tained the complete coding sequence of p53 gene but mutated at codon 245 (G→T) and resulted in glycine to cysteine by sequencing analysis. The retroviral vector pD53M of the mt-p53 was constructed and introduced into the drug-sen-sitive human lung cancer cells GAO in which p53 gene did not mutate. The transfected GAO cells strongly expressed mutant-type p53 protein by immunohistochemistry, showing that pD53M vector could steadily express in GAO cells. The drug resistance to several anticancer agents of GAO cells infected by pD53M increased in varying degrees, with the highest increase of 4-fold, in vitro and in vivo. By quantitative PCR and flow cytometry (FCM) analyses, the expression of MDR1 gene and the activity of P-glycoprotein (Pgp) did not increase, the expression of MRP gene and the activity of m     

Complete mitochondrial genome of Oxya chinensis （Orthoptera, Acridoidea）

The complete sequence of Oxya chinensis （0. chinensis） mitochondrial genome is reported here. It is 15,443 bp in length and contains 75.9% A＋T. The protein-coding genes have a similar A＋T content （75.2%）. The initiation codon of the cytochrome oxidase subunit I gene in the mitochondrial genome of O. chinensis appears to be ATC, instead of the tetranucleotides that have been reported in Locusta migratoria （L migratoria） mitochondrial genome. The sizes of the large and small ribosomal RNA genes are 1319 and 850 bp, respectively. The transfer RNA genes have been modeled and showed strong resemblance to the dipteran transfer RNAs, and all anticodons are identical to those of dipteran. The A＋T-rich region is 562 bp, shorter than that of other known Orthoptera insects. The six conserved domains were identified within the A＋T-rich region by comparing its sequence with those of other grasshoppers. The result of phylogenetic analysis based on the dataset containing 12 concatenated protein sequences confirms the close relation-ship of O. chinensis with L migratoria.     

水稻线粒体tRNATrp突变体的克隆和氨酰化活力鉴定

为了研究tRNATrp的氨基酸接受茎中除两对半碱基以外的特异性元件,设计并完成了4种水稻线粒体tRNATrp向枯草杆菌tRNATrp的突变体(MPB0,G1A和U5G/A68C;MPB1,C2G/G71C:MPB2,C4G/G69C;MPB3,C2G/G71C和C4G/G69C),体外转录并用枯草杆菌和人这两种不同种属来源的色氨酰tRNA合成酶(TrpRS)测定了这些tRNATrp分子的氨酰化活力(Kcat/KM.结果表明,这些突变体具有被枯草杆菌TrpRS氨酰化的能力,与野生型水稻线粒体tRNATrp>相比,MPB0被枯草杆菌TrpRS氨酰化的活力提高了5倍,MPB1和MPB2被枯草杆菌TrpRS氨酰化的活力分别提高了40和53倍,MPB3则提高了140倍,为野生型枯草杆菌tRNATrp>的34%,而人色氨酰tRNA合成酶氨酰化这4个突变体的活力都很微弱.揭示了水稻线粒体tRNATrp>氨基酸接受茎上的2个碱基对C2/G71和C4/G69的突变,对枯草杆菌TrpRS的识别起重要作用,由此推测,接受茎上的2个碱基对C2/G71和C4/G69也是线粒体tRNATrp>重要的特异性元件.     

云南保山猪线粒体DNA D-loop区序列初步分析 Primary Analysis of Mitochondrial DNA D-loop Region Sequence in Baoshan Pig

摘要：为了解云南保山猪(Baoshan pig)的遗传多样性及其遗传背景,我们测定了19个个体线粒体DNA D-loop高变区I 15 363～15 801片段序列438 bp。检测到10种单倍型,包括8个多态位点,其中5次T/C转换、1次G/A转换、1次G/C颠换和1次A/T颠换,其A、T、G、C碱基的平均含量分别为35.4%、26.9%、13.2%和24.5%,A+T含量(62.3%)明显高于G+C含量(37.7%)。对于保山猪的保种及其持续利用有着重要的理论指导意义。 Abstract:To investigate the genetic diversity and genetic data of Baoshan pig in Yunnan province,the mitochondrial DNA D-loop hypervariable segment I sequences 15 363～15 801 (438 bp) in 19 individuals of Baoshan pig were sequenced.Ten mitochondrial haplotypes were identified in the samples,with 8 sites showing polymorphism,which were 5 T/C and 1 G/A transitions,1 G/C and 1 A/T transversions.The contents of A,T,G and C were 35.4%,269%,13.2% and 24.5%,respectively.The content of A+T (62.3%) was significantly higher than that of G+C (37.3%).It will be of importance to conservation and sustainable utilization in Baoshan pig.     

动物线粒体核质基因互作的研究进展

线粒体是重要的细胞器,为细胞的生命活动提供能量,线粒体的正常功能是核基因和线粒体基因共同作用维持的结果。线粒体DNA是动物细胞内唯一存在的核外遗传物质,线粒体DNA与核基因的相互作用维持着线粒体和线粒体内膜呼吸链氧化磷酸化的正常功能状态。本文就线粒体核质基因互作在人类疾病、衰老、细胞凋亡、氯霉素抗性、ANT、MnSOD、mtTFA的研究进展进行了综述。 Abstract：Mitochondria is the essential element for a cell,in which generates energy.The normal functions of a mitochondria are controlled by both mitochondrial genome and nuclear genome.Mitochondrial DNA is the only genome in the cytoplasmy of a cell,it encodes essential components of oxidative phosphorylation(OXPHOS)in mitochondrial inner membrane,generating cellular energy in the main form of adenosine triphosphate(ATP).In this paper,we reviewed the research development on interactions of nuclear and mitochondrial genes,including human disease and aging,apoptosis,chloromycetin resistance,ANT,MnSOD and mtTFA.     

Search for difference in aminoacylation of mitochondrial DNA-encoded wild-type and mutant human tRNALeu (UUR)

The pathogenetic mechanism of the most extensively investigated A3243G mutated tRNALeu(UUR) gene, which causes the MELAS encephalomyopathy, maternally inherited diabetes, or chronic progressive external ophlthalmoplegia, is still unresolved, despite the numerous investigations on the topic. Previous evidences presented in published work suggested that the mitochondrial DNA harboring A3243G mutation result decreases in the rates of mitochondrial protein synthesis. To search for differences in aminoacylation of mitochondrial DNA-encoded wild-type and mutant human tRNALeu(UUR), we have expressed and purified the two kinds of tRNAsLeu(UUR), and have expressed human mitochondrial leucyl-tRNA synthetase for in vitro assays of aminoacylation of wild-type and mutant human tRNALeu(UUR). The results indicate human mitochondrial tRNALeu(UUR) gene A3243G point mutant can remarkably reduce its aminoacylation, suggesting it could be one of the mechanisms that the mutation can produce in such clinical phenotypes.     

人线粒体tRNA修饰碱基与遗传性脑肌病

人的多种遗传疾病与线粒体tRNA基因突变有关,这些突变导致疾病发生的分子机理是当前研究的热点.通过研究线粒体tRNA分子上的碱基修饰情况,人们发现了一类特殊的带有牛磺酸衍生物基团的修饰,这类修饰主要位于线粒体tRNALys和线粒体tRNALeu(UUR)反密码子第一位摆动(wobble)位点的碱基上.最近的研究表明,位于这两种线粒体tRNA基因上的多种突变与遗传性脑肌病相关,包括A8344G,A3243G,T3271C等等,它们可以导致tRNA上相应摆动位点的碱基修饰缺失.无论是在体外培养的带有相应突变的细胞内,还是在来源于脑肌病病人的组织中,科学家都发现了相同的线粒体tRNA碱基修饰缺陷.通过分子手术证实,此类碱基修饰对于维持这两种tRNA的反密码子与mRNA上相应密码子的相互识别至关重要,缺失了这种修饰的tRNA将无法识别一些对应的密码子.通过进一步的实验,人们还鉴定出负责催化此类碱基修饰的酶.这些研究不但揭示了线粒体遗传性脑肌病相关突变的致病机理,也将为研究基因治疗提供可能的新手段.     

Interdomain communication between weak structural elements within a disease-related human tRNA

The structure of the human mitochondrial (hs mt) tRNALeu(UUR) features several domains that are predicted to exhibit limited thermodynamic stability. An elevated frequency of disease-related mutations within these domains suggests a link between structural instability and the functional effects of pathogenic mutations. A series of tRNAs featuring mutations within the D and anticodon stems were prepared and investigated using nuclease probing. Structural mapping studies indicated that these domains were partially denatured for the wild type (WT) hs mt tRNALeu(UUR) and were significantly stabilized by mutations introducing additional or stronger base pairs into the stem regions. In addition, trends in the aminoacylation activities of the D stem mutants suggested that the loose structure is required for function, with mutants displaying the most ordered structures exhibiting the lowest levels of aminoacylation activity. A pronounced interdependence of the structures of the anticodon and D stems was observed, with mutations strengthening the D stem stabilizing the anticodon stem and vice versa. The existence of strong interdomain communication was further elucidated with a mutant of hs mt tRNALeu(UUR) containing a stabilized D stem and a pathogenic mutation that disrupted the anticodon stem. Strengthening the structure of the D stem completely restored the function of the disease-related mutant to WT levels, indicating that propagated structural weaknesses contribute to the functional deactivation of this tRNA by mutations.     

Gene cloning, expression and purification of human mitochondrial tRNALeu(UUR) and its mutant

Genes of human mitochondrial tRNA^Leu(UUR) (mtRNA^Leu(UUR)) and its mutant (mtRNA^Leu(M)) were synthesized and inserted into the plasmid pGEM-9Zf(-) respectively.E.coli JM 109 was transformed by the recombinant plasmids containing the target genes. The mtRNA^Leu(UUR) and mtRNA^Leu(M) were expressed up to 19.10% and 17.76% of total small RNA respectively. They were purified to 54% homogeneity by DEAE-sepharose-CL4B column chromatography and finally repurified by 15% PAGE/urea. Their kinetic parameters forE.coli LeuRS were measured. The results showed that the value of k_cal/ K_m of mtRNA^Leu(M) was about one fifth of that of mtRNA^Leu(UUR) and indicated the leucine acceptability of mtRNA^Leu(M) was much lower than that of mtRNA^Leu(UUR).     

Expression and characterization of the human mitochondrial leucyl-tRNA synthetase

A cDNA clone encoding the human mitochondrial leucyl-tRNA synthetase (mtLeuRS) has been identified from the EST databases. Analysis of the protein encoded by this cDNA indicates that the protein is 903 amino acids in length and contains a mitochondrial signal sequence that is predicted to encompass the first 21 amino acids. Sequence analysis shows that this protein contains the characteristic motifs of class I aminoacyl-tRNA synthetases and regions of high homology to other mitochondrial and bacterial LeuRS proteins. The mature form of this protein has been cloned and expressed in Escherichia coli. Gel filtration indicates that human mtLeuRS is active in a monomeric state, with an apparent molecular mass of 101 kDa. The human mtLeuRS is capable of aminoacylating E. coli tRNA(Leu). Its activity is inhibited at high levels of either monovalent or divalent cations. K(M) and k(cat) values for ATP:PP(i) exchange and for the aminoacylation reaction have been determined.