酿酒酵母全基因组范围内筛选MTM1基因的抑制基因

MTM1 基因对于维持锰超氧化物歧化酶的活性和线粒体正常功能十分重要,MTM1 基因的缺失会严重影响酵母锰超氧化物歧化酶活性,并损伤线粒体功能,因此在非发酵培养基上不能生长．利用MTM1 基因缺失的突变体在非发酵培养基上的生长缺陷,转入酵母基因组文库筛选MTM1 抑制基因,发现MTM1基因缺失造成的损伤一旦形成不可逆转,重新引入MTM1 基因也无法挽救,直接筛选无法得到抑制基因．为了避免MTM1缺失造成的不可逆损伤,在野生型酵母中先转入带有MTM1 基因的质粒,再敲除染色体上的MTM1 基因,随后转入基因组文库,再利用药物5-氟乳清酸(5-FOA)迫使细胞丢失表达MTM1基因的外源质粒,再筛选能在非发酵培养基上生长的转化子,通过这种方法筛选发现,POR2等5个基因的过表达可以挽救MTM1 基因缺失造成的非发酵培养基上的生长缺陷,为深入了解MTM1基因的功能提供了线索,对筛选其他造成不可逆损伤的突变基因的抑制基因提供了一条可行的研究思路．     

结核分枝杆菌生物膜形成相关基因的筛选与鉴定

目的:通过菌落表型变化并结合生物膜生长缺陷筛选并鉴定可能与生物膜形成相关基因.方法:利用带有Himarl转座子的MycoMarT7转座子系统建立结核分枝杆菌H37Ra随机插入突变库;筛选细菌表面结构发生变化和生物膜形成有变化的突变菌株;运用T-A克隆法并结合抗性标记挽救法获得突变菌株的随机插入基因侧翼序列从而鉴定突变基因,并运用生物信息学方法分析预测突变基因的功能.结果:通过菌落形态变化及生物膜缺陷表型筛选出39株突变株,成功鉴定其中16株突变株,涉及16个基因发生突变,其中5个与脂质代谢相关,4个与细胞壁合成相关、2个与中间代谢和呼吸作用相关、1个调节蛋白相关基因,1个毒力相关基因,1个PE/PPE家族基因,还有2个功能未知基因.结合生物膜形成缺陷分析,其中8个基因可能与H37Ra体外生物膜的形成相关.结论:成功构建库容量约为l×104结核分枝杆菌转座子随机插入突变文库,筛选获得生物膜生长受损突变株及可能与结核分枝杆菌生物膜形成相关的基因信息,为后续深入开展生物膜形成机制研究奠定基础.     

利用酿酒酵母转座子文库筛选线粒体镁代谢相关基因

镁离子对于维持细胞正常功能十分重要,糖尿病、高血压、慢性呼吸道疾病、骨质疏松、心律失常等多种疾病都与镁代谢失衡有关．MRS2 基因编码线粒体镁离子转运蛋白,MRS2缺失会导致酵母线粒体镁离子浓度下降、线粒体内Ⅱ型内含子剪接缺陷和非发酵碳源培养基上的生长缺陷．为了增进对线粒体镁离子代谢调控基因的了解,利用酿酒酵母mTn-lacZ/LEU2转座子文库筛选MRS2的抑制基因,发现线粒体载体家族成员YMR166C基因的缺失可以挽救MRS2基因缺失突变体的生长缺陷、Ⅱ型内含子剪接缺陷,并可以调节线粒体镁离子浓度,首次发现YMR166C是线粒体镁代谢相关基因.     

血浆凝集降低筛选金黄色葡萄球菌促凝相关基因

【背景】金黄色葡萄球菌是重要的致病菌,其中促凝聚是重要的致病机制之一,可能存在新的基因参与其中。【目的】通过采用血浆凝集降低方法筛选及鉴定促凝相关基因。【方法】利用转座子随机插入突变技术建立金黄色葡萄球菌转座子突变文库,采用动态比浊及试管凝集技术筛选凝集能力降低的突变株;应用抗性标记挽救法鉴定突变基因并应用生物信息学预测基因的功能。【结果】通过观察血浆凝集能力降低共计筛选到突变菌株82个。鉴定其中的76个突变菌株的转座子插入位点,涉及基因13个,包括报道的与促凝集有关基因4个(占筛选基因的30.8%)。【结论】从金黄色葡萄球菌凝集能力降低筛选与促凝集可能有关的基因,为金黄色葡萄球菌促凝集基因的筛选提供了新策略,同时为了解该菌促凝集过程提供了候选基因。     

防御假单胞菌双突变体H78ΔrsmA/E中hmgA基因对藤黄绿菌素生物合成的抑制

【背景】防御假单胞菌(Pseudomonas protegens) H78是分离于油菜根际的一株生防菌,其能合成藤黄绿菌素(pyoluteorin,Plt)等多种广谱抗生素,H78的rsmA/E双突变体中Plt合成被完全抑制。【目的】通过转座子诱变技术,筛选H78ΔrsmA/E双突变体中重新激活Plt合成的下游调控因子。【方法】通过同源重组的方法在pltL基因下游插入红色荧光蛋白(redfluorescentprotein,RFP)基因来指示Plt操纵子表达的激活情况;利用转座子随机插入突变、半随机PCR技术筛选并定位目标基因;通过基因回补等方法进一步验证基因功能。【结果】从约2万株H78ΔrsmA/E的转座子突变体中筛选到一株高产Plt和某种黑色素的菌株,并确定其插入位点为hmgA基因,hmgA基因回补能重新抑制H78ΔrsmA/E的Plt合成。【结论】假单胞菌双突变体H78ΔrsmA/E中hmgA基因对Plt的合成存在强烈抑制作用,是潜在的RsmA/E下游调控基因。本研究为进一步阐明Plt合成的调控机制与网络及通过基因工程提高Plt产量奠定了基础。     

水稻黄单胞菌hrp基因簇中致病相关基因hpaB的鉴定水稻黄单胞菌 TAIL-PCR hrp基因簇 hpaB基因

由水稻黄单胞菌引起的水稻白叶枯病是水稻最严重的细菌性病害.通过筛选18000个Xoo Tn5转座子插入突变体,得到其中一个致病力缺失的突变体XOG11.TAIL-PCR方法分离该突变体中插入转座子的侧翼序列,发现转座子插入到位于hrp基因簇的hpaB基因中.对该基因进一步的分析表明该基因编码一个含有156个氨基酸,等电点为4.28,亮氨酸含量为14.4%的蛋白HpaB.Southern blot和PCR验证表明Tn5在该突变体中为单拷贝插入且未发生转座子携带侧翼序列的转移.将hpaB克隆到具有广泛寄主的质粒pHM1中,转化重组质粒进入突变体后,突变体恢复了在其寄主水稻IR24上的致病力,而转化空质粒pHM1后的突变体仍然表现为致病力缺失.证实了水稻黄单胞菌中hpaB基因与该细菌的致病力相关,在侵染水稻的过程中起着不可缺失的作用.     

兽疫链球菌中与透明质酸合成相关新基因的高通量筛选及克隆

【目的】兽疫链球菌(Streptococcus equi subsp. zooepidemicus)中透明质酸主要的生物合成途径和相关基因已经被研究得比较透彻,探究一种挖掘与透明质酸合成相关新基因的策略。【方法】利用自杀质粒pSET4s::sacB在宿主基因组中的随机整合作用,筛选具有表型差异突变菌株构建突变体库,进一步利用连接介导PCR (Ligation mediated PCR,LM-PCR)方法和全基因组重测序,检测质粒整合位点,通过基因无痕敲除和回补实验验证插入位点。【结果】构建了包含150株具有表型差异突变株的突变体库;以荚膜合成能力缺失的1号突变株(M1)作为基础研究对象,检测到自杀质粒整合到基因组458 960位点上,破坏了编码塔格糖-6-磷酸激酶的lacC基因;无痕敲除lacC基因得到ΔlacC,表型分析发现ΔlacC表现为粘性荚膜特性;进一步全基因组重测序发现,除了lacC基因位点存在插入突变,206 613位点存在碱基G缺失,导致编码透明质酸合成酶的hasA基因发生移码突变,且回补hasA基因后,M1恢复粘性荚膜合成能力。【结论】M1突变株粘性荚膜合成能力的缺失由hasA基因功能缺失引起,与lacC基因功能缺失无关。初步建立了兽疫链球菌中高通量筛选与透明质酸合成相关新基因的策略,为今后挖掘新基因奠定了基础。     

胡萝卜软腐果胶杆菌鞭毛钩基因flgK 的功能

【目的】为了研究鞭毛钩基因flgK在胡萝卜软腐果胶杆菌胡萝卜亚种(Pectobacterium carotovorum subsp.carotovorum,P.c.c)的功能。【方法】本研究采用两亲同源交换法构建了基因缺失突变体ΔflgKpcc并构建了互补菌株ΔflgKpcc-KH,测定突变体及其互补菌株的菌体形态、运动性、致病因子、致病性等表型。【结果】与野生菌株PccS1相比,ΔflgKpcc鞭毛缺失,菌体易沉降,在0.3%半固体培养基上运动能力明显降低,生长速率无明显变化,但是纤维素酶和蛋白酶的活性、生物膜形成能力明显下降,对感病寄主的致病力显著减弱。基因互补可以使上述突变表型恢复。【结论】实验表明,鞭毛基因flgK突变导致了菌体的运动性降低、病原菌毒性相关的酶活力下降,从而导致致病力下降。     

铜绿假单胞菌蹭行运动相关基因的研究

应用Mu转座重组技术研究铜绿假单胞菌 (Pseudomonasaeruginosa)蹭行运动 (Twitchingmotility)的相关基因。通过转座突变、表型筛选 ,得到 8个Twitchingmotility缺陷或减弱的突变子。经过基因克隆、核苷酸测序研究 ,鉴定转座子插入到基因组中的位置。结果表明 ,在其中 4个突变子中 ,转座子分别插入到与IV型菌毛生物合成和功能相关的 3个已知基因中 (其中有两个突变子转座子插入到同一基因的不同位置 ) ,它们是pilV ,pilQ ,algR。另外 4个突变子中 ,有 3个是转座子分别插入到基因pilL基因的前端 ,中部和后端 ,均引起Twitchingmotility功能缺失。另一个突变子中 ,转座子插入到基因PA1 82 1中 ,引起Twitchingmotility功能减弱。PilL和PA1 82 1的编码产物均属于 3 类蛋白质 ,它们的功能是根据其保守的氨基酸基序或基因序列与已知功能基因的相似性推测得出的。但缺乏详细的试验证据。研究结果为pilL控制Twichingmotility提供了有力的证据。并证实基因PA1 82 1与Twitchingmotility有关。将Mu转座重组技术应用到假单胞菌的研究中 ,国内外均未见报道。由于该技术具有随机单点插入的优点 ,克服了传统转座子能在染色体上迁移的缺点。保证了表型的改变与转座子插入位点的基因突变的一一对应关系。为进一步研究铜绿假     

水稻黄单胞菌hrp基因簇中致病相关基因hpaB的鉴定

由水稻黄单胞菌引起的水稻白叶枯病是水稻最严重的细菌性病害。通过筛选18000个XooTn5转座子插入突变体,得到其中一个致病力缺失的突变体XOG11。TAIL-PCR方法分离该突变体中插入转座子的侧翼序列,发现转座子插入到位于hrp基因簇的hpaB基因中。对该基因进一步的分析表明该基因编码一个含有156个氨基酸,等电点为4.28,亮氨酸含量为14.4%的蛋白HpaB。Southern blot和PCR验证表明Tn5在该突变体中为单拷贝插入且未发生转座子携带侧翼序列的转移。将hpaB克隆到具有广泛寄主的质粒pHM1中,转化重组质粒进入突变体后,突变体恢复了在其寄主水稻IR24上的致病力,而转化空质粒pHM1后的突变体仍然表现为致病力缺失。证实了水稻黄单胞菌中hpaB基因与该细菌的致病力相关,在侵染水稻的过程中起着不可缺失的作用。     

Tissue-specific activity of two manganese superoxide dismutase promoters in transgenic tobacco.

In eukaryotes, manganese superoxide dismutase is a nuclear-encoded protein that scavenges superoxide radicals in the mitochondrial matrix. We have isolated two manganese superoxide dismutase genes from Nicotiana plumbaginifolia L. and fused the 5' upstream regulatory region of these genes to the beta-glucuronidase reporter gene. The two gene fusions displayed a differential tissue specificity in transgenic tobacco (Nicotiana tabacum). Promoter activity of the SodA1 gene fusion was found in the pollen, middle layer, and stomium of anthers, but was usually undetectable in vegetative organs of mature plants. The SodA2 gene fusion was expressed in the leaves, stems, roots, and flowers. SodA2 promoter activity was most prominent in the vascular bundles, stomata, axillary buds, pericycle, stomium, and pollen. Histochemical analysis of succinate dehydrogenase activity suggested that the spatial expression of the two gene fusions is generally correlated with mitochondrial respiratory activity.     

A highly sensitive method for determining both Mn- and Cu-Zn superoxide dismutase activities in tissues and blood cells

A highly sensitive method for determining the superoxide dismutase (EC 1.15.1.1) in various tissues and blood cells is described. This method involves inhibition of a cypridina luciferin analog that is chemiluminescence dependent upon O2- generated by hypoxanthine-xanthine oxidase. Manganeous superoxide dismutase, which is sensitive to sodium dodecyl sulfate, was determined and calculated by subtraction of superoxide dismutase activity in tissue extract treated with this detergent (Cu-Zn superoxide dismutase) from that in untreated tissue extract (total superoxide dismutase). Both Mn- and Cu-Zn superoxide dismutase activities were expressed as equivalent nanograms of bovine erythrocyte superoxide dismutase per milliliter. Sensitivity limits of the chemiluminescence methods with 2-methyl-6-(p-methoxyphenyl)-3,7-dihydroimidazo[1,2-alpha]pyraz in-3-one and 2-methyl-6-phenyl-3,7-dihydroimidazo[1,2-alpha]pyrazin-3-one as cypridina luciferin analogs were 1 ng and 2-3 ng of superoxide dismutase/ml, respectively.     

Effect of the free radical-generating herbicide paraquat on the expression of the superoxide dismutase (Sod) genes in maize

10-day-old maize leaves were treated with the oxygen free radical-generating herbicide paraquat for 12 h. Paraquat treatments (10(-5) M) resulted in a 40% increase in superoxide dismutase activity and a smaller increase in catalase activity. The increase in total superoxide dismutase (SOD) activity correlates with higher levels of specific isozymes. The chloroplast (SOD-1) and cytosolic (SOD-2 and SOD-4) forms were increased significantly; however, the mitochondrial form (SOD-3) was increased only slightly. Higher levels of SOD-4 and SOD-3 after paraquat exposure were the result of increased synthesis of these proteins, as determined by labeling in vivo with [35S]methionine. Isolation and in vitro translation of polysomes from 10(-5) M paraquat-treated leaves indicated that paraquat increased the amount of polysomal mRNA which codes for SOD-4 and SOD-3. Superoxide dismutase induction does not appear to be a response that is specific to paraquat, since another superoxide-generating compound, juglone, caused a similar increase in total superoxide dismutase activity. Therefore, the effect of these compounds on the expression of the maize Sod genes is exerted via their ability to generate superoxide.     

Nucleotide sequence analysis of the nuclear gene coding for manganese superoxide dismutase of yeast mitochondria, a gene previously assumed to code for the Rieske iron-sulphur protein

We have previously reported the isolation of the gene coding for a 25-kDa polypeptide present in a purified yeast QH2:cytochrome c oxidoreductase preparation, which was thus identified as the gene for the Rieske iron-sulphur protein [Van Loon et al. (1983) Gene 26, 261-272]. Subsequent DNA sequence analysis reported here reveals, however, that the encoded protein is in fact manganese superoxide dismutase, a mitochondrial matrix protein. Comparison with the known amino acid sequence of the mature protein indicates that it is synthesized with an N-terminal extension of 27 amino acids. In common with the N-terminal extensions of other imported mitochondrial proteins, the presequence has several basic residues but lacks negatively charged residues. The function of these positive charges and other possible topogenic sequences are discussed. Sequences 5' of the gene contain two elements that may be homologous to the suggested regulatory sites, UAS 1 and UAS 2 in the yeast CYC1 gene [Guarente et al. (1984) Cell 36, 503-511]. The predicted secondary structures in manganese superoxide dismutase appear to be very similar to those reported for iron superoxide dismutase, suggesting similar three-dimensional structures. Making use of the known three-dimensional structure of the Fe enzyme, the Mn ligands are predicted.     

Copper complexes of 1,10-phenanthroline and related compounds as superoxide dismutase mimetics

In a preliminary study we tested CuSO4.5H2O, (Cu(II]2[3,5-diisopropylsalicylate]4.2H2O and a number of copper complexes of substituted 1,10-phenanthrolines for superoxide anion dismutase activity. It appeared that this activity depends on the ligands involved and might be governed by the redox potential of the Cu(I) complex/Cu(II) complex couple. The strong superoxide anion dismutase activity of Cu(II)[DMP]2 complex can be expected considering its high redox potential. Rather surprisingly is the superoxide anion dismutase activity of the Cu(I)[DMP]2 complex since it involves oxidation to Cu(II)[DMP]2 complex. From regression analysis it was established that steric and field effects of the substituents of the investigated phenanthrolines play an important role in SOD activity and therefore it is concluded that complex formation is important for the superoxide dismutase-like activity.     

Prostatic 25-hydroxyvitamin D-1alpha-hydroxylase and its implication in prostate cancer

Evidence suggests that vitamin D may have a protective role for prostate cancer. 1alpha,25-Dihydroxyvitamin D [1alpha,25(OH)(2)D] inhibits growth and induces differentiation of prostate cells. 25-Hydroxyvitamin D-1alpha-hydroxylase [1alpha-OHase], the enzyme that is responsible for the synthesis of 1alpha,25(OH)(2)D, is expressed in cultured prostate cells. We observed a marked decrease in 1alpha-OHase activity in prostate cancer cells, suggesting some defect of the 1alpha-OHase in these cells. To investigate whether the defect was due to dysregulation of the enzyme at the promoter level, a series of deletion constructs of the promoter was synthesized and incorporated upstream into the luciferase reporter gene. Two regions were identified with high basal activity in transfected normal prostate cell line (PZHPV-7), -1100 bp (AN2), and -394 bp (AN5) upstream of ATG start site of the 1alpha-OHase gene. When the reporter gene with either AN2 or AN5 was transfected into prostate cancer cell lines, we observed a lower basal promoter activity in PC-3 cells and DU145 cells than that found in PZHPV-7 cells for both constructs, and a loss of promoter activity in LNCaP cells. Thus, the results suggest that the defect in enzyme activity may result from the decreased promoter activity in prostate cancer cells.     

草鱼线粒体型超氧化物歧化酶的生化遗传特性

超氧化物歧化酶 (SOD)是一种对生物细胞保护至关重要、在进化上比较保守的酶。因此 ,超氧化物歧化酶作为分子钟或分子标记已被广泛应用于生物进化研究、群体遗传结构分析以及品系鉴定。但鱼类SOD的生物化学和遗传学特性都尚未进行过系统和深入的研究。为使这一重要的分子标记能更好地应用于鱼类遗传育种、种质资源保护以及进化研究 ,本实验采用聚丙烯酰胺梯度凝胶垂直电泳法 ,研究了草鱼线粒体型超氧化物歧化酶 (fm SOD)的同功酶形式 ,生化遗传表型、亚基组成以及金属类型。实验结果表明 ,草鱼fm SOD有三种不同的同功酶形式 ;按从正极到负极的排列分别命名为fm SOD 1 ,fm SOD 2 ,fm SOD 3。这三种不同的fm SOD在草鱼群体中可构成 3种不同的生化遗传学表型 :表型 1个体只含有迁移率最快的fm SOD 1同功酶 ;表型3个体只含有迁移率最慢的fm SOD 3同功酶 ;而表型 2个体中含有所有三种不同形式的同功酶。在野生草鱼群体中 ,存在所有三种表现型 ;而在基因纯合型的雌核发育草鱼群体中只检测到表型 1和表型 3。野生草鱼群体中三种表现型的个体数之比符合一对等位基因分离的 1∶2∶1孟德尔遗传分离比例。由这些实验结果得出以下结论 :(1 )草鱼fm SOD是由细胞核DNA上的基因所编码而不是由线粒体DNA上的基因所编码的