多变鱼腥藻ATCC 29413基因的一步插入失活

多变鱼腥藻ATCC 29413有潜力发展为异养生长产异形胞蓝藻的研究模式种, 但由于细胞内的限制-修饰系统等原因, 其基因转移效率极低。研究克隆了该藻株的两个甲基化酶(M. AvaⅠ和M. AvrⅡ)基因ava_3181和ava_4359, 构建了辅助质粒pHB6088, 对运载质粒进行甲基化保护以避免被细胞中的限制酶切割。以ava_1237和ava_4412基因为例, 研究证明利用该辅助质粒和接合转移系统可通过双交换对多变鱼腥藻ATCC 29413的基因实现一步插入失活。     

集胞藻PCC6803中基因slr1761突变体的构建

PCR扩增了集胞藻PCC6803的slr1761基因,进一步以PGEM-T为载体将其克隆到大肠杆菌中,构建了P1761质粒。通过DNA体外重组,以卡那霉素抗性基因插入目的基因片段,构建了既含目的基因上游及下游序列、又携带选择性标记卡那霉素抗性的PK1761质粒。该质粒转化野生型集胞藻PCC6803细胞,利用同源重组原理获得了能在含卡那霉素的培养基上正常生长的基因敲除突变株。对该突变株基因组DNA进行PCR扩增,验证了其基因结构的正确性。     

ClpP2蛋白失活对集胞藻PCC6803生长、光合作用和蛋白质组的影响

【背景】蛋白酶能够降解细胞中错误折叠或是无功能的蛋白,Clp家族蛋白就是一类重要的蛋白酶复合物。Clp蛋白酶复合物的水解核心是ClpP,集胞藻PCC6803中存在4种不同的ClpP蛋白,分别为ClpP1-ClpP4。作为重要的蛋白水解复合物的功能组分,目前对集胞藻ClpP的研究十分有限,对其生理功能与调控底物的研究甚少。【目的】选择集胞藻为研究对象探究ClpP2蛋白的功能,鉴定其潜在底物,为集胞藻ClpP2作用机制提供实验支撑。【方法】构建集胞藻ClpP2突变株(ΔClpP2),进行其生长实验和光合生理功能研究。通过标记定量蛋白质组学技术(isobaric tag for relative absolute quantitation, iTRAQ)鉴定ClpP2调控的靶标蛋白,生物信息学分析底物蛋白参与的代谢通路,最后利用平行反应监测(parallel reaction monitoring, PRM)技术对部分定量数据进行验证。【结果】ΔClpP2可以在自然条件下光合自养生长至对数生长期,但高光或高温胁迫下则无法正常生长。相较于野生型,ΔClpP2有着显著降低的PSⅡ电子传递效率及P...     

集胞藻PCC6803中ORF sll0260对于维持基本生命活动的必要作用

集胞藻(Synechocystis sp.)6803的未知功能基因中有很多是细胞的基本生命活动所需要的,这些基因插入失活往往会导致细胞死亡,因而得不到分离完全的突变株,难以进行遗传学研究.构建突变株以铜离子调控的启动子PpetE来控制此类未知功能基因的表达则可能获得完全分离.构建PPpetE-sll0260突变株并对sll0260必要作用进行研究.在完全分离的突变株中,去除铜离子可关闭sll0260的表达.此时,突变株生长受到严重抑制,色素含量大为降低,类囊体膜结构破坏,光合作用消失,呼吸能力下降.这些结果表明该基因对于维持集胞藻6803的基本生命活动来说是必需的.亚细胞定位研究显示sll0260编码一个膜蛋白,位于质膜和外膜混合物中.sll0260可能作为某些离子的转运蛋白起作用,或者直接与类囊体膜的发生过程相关.     

RNA解旋酶基因crhR对于集胞藻PCC6803低温适应的作用

蓝藻对低温胁迫的适应涉及许多基因的表达调控,RNA解旋酶基因crhR即是其中之一。研究检查了该基因在集胞藻PCC6803从30℃转到15℃后的转录情况,观察到在2h内有瞬时诱导表达。该基因失活导致集胞藻在15℃下几乎不能生长,光合作用和呼吸速率大幅下降,脂质过氧化物不能被有效清除。以PrbcL过量表达crhR基因可互补突变株表型,并且在低温下生长略优于野生型。在野生型中,低温诱导脂肪酸脱饱和酶基因desA、desB、desD表达上调,膜脂不饱和度增加;而在crhR突变株中,低温诱导的desB基因的上调表达显著削弱,同时多不饱和脂肪酸含量没有显著增加。推测crhR基因可能影响蓝藻在低温胁迫下的蛋白合成或通过伴侣蛋白发挥影响。       

集胞藻PCC 6803高产精氨酸藻株的紫外诱变选育

精氨酸在医药和食品工业上具有广泛用途。集胞藻PCC 6803是单细胞蓝藻, 能利用工业废气(主要成分是氮氧化物NO_x)与水反应生成的硝酸盐和亚硝酸盐合成氨基酸等化合物, 因而选育高产精氨酸藻株, 不仅能提高精氨酸产量, 而且能去除工业废气中的NO_x, 具有潜在的应用前景。研究在集胞藻PCC 6803中利用紫外诱变, 筛选抗0.8 g/L D-精氨酸和抗0.2 g/L 6-氮尿嘧啶的突变株, 选育到了一株精氨酸产量显著提高的突变株#13807-111-55, 它每OD₇₃₀值细胞的胞外精氨酸产量相比出发株提高了62.3倍, 达到(0.76±0.1) mg/(L·OD₇₃₀), 总精氨酸产量相比出发株提高了6.0倍, 达到(0.82±0.08) mg/(L·OD₇₃₀)。该突变株每OD₇₃₀值细胞的胞外精氨酸产量明显高于胞内, 表明该突变藻株是精氨酸分泌型, 因而具有潜在的应用前景。     

ggpS基因过表达对集胞藻PCC 6803甘油葡萄糖苷和甘油合成的影响

为了研究甘油葡萄糖苷磷酸合成酶(GgpS)在集胞藻PCC 803甘油葡萄糖苷和甘油合成中的作用,本研究在前期获得高产甘油葡萄糖苷藻株的基础上分别过量表达来自于集胞藻PCC 6803自身和聚球藻PCC7002的甘油葡萄糖苷磷酸合成酶基因ggpS,并测定了在不同浓度NaCl胁迫时突变藻株的甘油葡萄糖苷和甘油积累量。结果发现获得的突变株甘油葡萄糖苷合成没有提高,但是甘油合成显著增强。此外,当培养基NaCl浓度从600 mmol/L提高到900 mmol/L时,集胞藻PCC 6803自身ggpS过表达藻株的甘油合成进一步提高75%。这些结果显示了GgpS在将碳代谢流导入集胞藻甘油合成途径中的作用。研究成果也为进一步通过基因工程改造提高集胞藻甘油葡萄糖苷和甘油合成效率奠定了基础。     

集胞藻6803藻胆体别藻蓝蛋白多克隆抗体的制备

藻胆体是蓝藻细胞主要的捕光天线色素超分子复合体,主要由核心体和外围的杆两部分组成,核心体主要由别藻蓝蛋白组装而成,参与光能向光合作用反应中心的传递.该研究通过PCR扩增出集胞藻6803别藻蓝蛋白α亚基(ApcA)编码基因apcA,构建表达质粒pET-32a(+)-apcA,并将其转入大肠杆菌BL21(DE3)pLysS菌株中;通过IPTG诱导表达重组蛋白,并利用组氨酸标签将可溶性目的蛋白进行亲和纯化后,免疫日本大耳白兔,从而获得多克隆抗体.间接ELISA法揭示ApcA抗体效价可高达1∶1 025 000;蛋白免疫印迹确定该抗体具有高度特异性.表明该研究成功制备了集胞藻6803藻胆体别藻蓝蛋白多克隆抗体,为进一步研究藻胆体的核心体在光能传递过程中所承担的重要生理角色奠定了生化基础.     

一种快速构建集胞藻6803petBD必需基因定点突变株的方法

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增强型绿色荧光蛋白在集胞藻6803中的表达

利用聚球藻7942热休克基因groESL的启动子和报告基因egfp,构建了表达载体pUC-Tegfp并转化集胞藻6803,并通过所制备抗体对转基因藻进行蛋白免疫印迹检测.结果发现,在转基因藻株T-egfp的细胞粗提液中含有能与eGFP抗体特异结合的蛋白质,表明外源增强型绿色荧光蛋白基因(egfp)在集胞藻6803中成功表达.     

集胞藻Synechocystis sp.PCC 6803脂质组的分析

以集胞藻Synechocystis sp.PCC 6803为研究对象,研究建立了基于超高效液相色谱耦合串联质谱技术脂质组学分析方法.鸟枪法脂质组学通过电喷雾离子化有效分离油脂粗提物中所含单个脂质分子,在三重四极杆扫描碎片离子,能够利用特征片段离子鉴定光合甘油酯的种类和酰基组成,具有高效、灵敏度高和质量准确度高等优点.对...     

集胞藻PCC6803 priA基因的突变体

目前对蓝藻的高温耐受性研究主要集中在热激蛋白和光系统II放氧蛋白复合体的外周蛋白基因,如放氧蛋白复合体的3个外周蛋白基因psbO、psbU和psbV[1-4],热激蛋白基因htpG[5]和hsp17[6],而对于是否存在其他耐受高温所需基因尚未进行系统的筛选.     

集胞藻的随机插入诱变和光激活异养突变株的筛选

以4－碱基限制性内切酶部分酶切集胞藻PCC6803基因文库总质粒DNA,并插入卡那霉素抗性基因标记,构建了二级随机插入诱变文库。以该诱变文库总DNA转化集胞藻PCC6803,得到大量有抗性标记基因随机插入的转化子,利用这一方法获得了不能进行光激活异养生长的突变株,并克隆了抗性标记基因插入部位DNA片段,在持续光照但加DCMU抑制光合作用的情况下,这些突变株仍然能够利用葡萄糖异养生长,推测突变基因与短时光信号的感应有关。     

PHOTOTACTIC MOTILITY OF SYNECHOCYSTIS SP. UNIWG (CYANOBACTERIA) FROM BRACKISH ENVIRONMENT1

Although type IV pilus has been implicated in the phototactic motility of some unicellular cyanobacteria, its regulatory mechanism and the effect of environmental factors on motility are still unknown. Equally important is the ability of cyanobacterial cells to anchor themselves to an environment that is conducive for survival. We compared the motility of a newly isolated unicellular brackish cyanobacterium, Synechocystis sp. UNIWG, with the morphologically and phylogenetically similar freshwater cyanobacterium Synechocystis sp. PCC6803 under different environmental conditions. The phototactic motility of Synechocystis sp. UNIWG on semisolid BG‐11 medium with various concentrations of nitrogen source was significantly faster than that of Synechocystis PCC6803. Interestingly, the cell surface of Synechocystis sp. UNIWG showed the presence of rigid spicules when grown in liquid BG‐11, a phenomenon that was absent in Synechocystis PCC6803. Negative staining of Synechocystis sp. UNIWG revealed the presence of two distinct pilus morphotypes, which resembled type IV pili and thin pili of Synechocystis PCC6803. This finding suggested a similar pattern of phototactic motility in both strains. However, the rigid spicules on Synechocystis sp. UNIWG seem to be more of a hindrance during type IV motility. It was determined that the spicules were degraded when the cells moved, such as under prolonged darkness and/or depletion of nitrogen source, indicating that the function of the spicules is to attach the cell to an environment that is conducive for its survival. Thus, Synechocystis sp. UNIWG shows phototaxis regulation that is more complex than Synechocystis PCC6803.     

蓝细菌Synechocystis sp.PCC6803中叶绿素合成调控类囊体膜重建的研究

利用ＤＮＡ体外重组技术构建了蓝细菌Ｓｙｎｅｃｈｏｃｙｓｔｉｓｓｐ．ＰＣＣ６８０３突变种ＯＲＦ４６９,它的染色体ＤＮＡ缺失ＯＲＦ４６９片段,该突变种在加入５ｍｍｏｌ／Ｌ葡萄糖的ＢＧ－１１培养基中经遮光培养２周后叶绿素全部消失,细胞甲醇提取液光谱中６６５ｎｍ处叶绿互峰消失,６２９ｎｍ处出现原叶绿素酸酯峰,完整细胞光谱仅存在６２０ｎｍ的藻胆蛋白肩峰,细胞的类囊体膜消失,但藻胆体颗粒并未减少;细胞培养物重     

A TPR-family membrane protein gene is required for light-activated heterotrophic growth of the cyanobacterium Synechocystis sp. PCC 6803

The unicellular cyanobacterium Synechocystis sp. PCC6803 can grow heterotrophically in complete darkness, given that a brief period of illumination is supplemented every day (light-activated heterotrophic growth, LAHG), or under very weak (<0.5 micromol m(-2) s(-1)) but continuous light. By random insertion of the genome with an antibiotic resistance cassette, mutants defective in LAHG were generated. In two identical mutants, sll0886, a tetratricopeptide repeat (TPR)-family membrane protein gene, was disrupted. Targeted insertion of sll0886 and three downstream genes showed that the phenotype was not due to a polar effect. The sll0886 mutant shows normal photoheterotrophic growth when the light intensity is at 2.5 micromol m(-2) s(-1) or above, but no growth at 0.5 micromol m(-2) s(-1). Homologs to sll0886 are also present in cyanobacteria that are not known of LAHG. sll0886 and homologs may be involved in controlling different physiological processes that respond to light of low fluence.     

阿维链霉菌中aveD基因阻断对阿维菌素合成的影响

利用用于基因破坏的重组质粒pCZ2 (pKC1 1 39∷ 475bpaveD)对阿维菌素 (Avermectin)产生菌阿维链霉菌 (Streptomycesavermitilis) 76- 9的aveD基因进行插入失活 ,将获得的aveD破坏子进行摇瓶发酵和阿维菌素初步提取和HPLC检测 ,发现破坏子仅产生四个主要组分 ,但它们的保留时间分别比Bla、Blb、B2a和B2b的略长。进而将粗提液纯化并获得晶体 ,以UV、IR、NMR ( 1H NMR和13C NMR)和MS进行结构分析 ,并结合HPLC检验 ,证明它们属于C5 氧 阿维菌素B。说明阿维链霉菌的aveD基因破坏 ,不仅丧失了合成阿维菌素A组分的能力 ,也造成了其下游的aveF基因不能表达 ,因此只产生了C5 氧 阿维菌素B。     

A large-scale protein protein interaction analysis in Synechocystis sp. PCC6803.

Protein-protein interactions (PPIs) play crucial roles in protein function for a variety of biological processes. Data from large-scale PPI screening has contributed to understanding the function of a large number of predicted genes from fully sequenced genomes. Here, we report the systematic identification of protein interactions for the unicellular cyanobacterium Synechocystis sp. strain PCC6803. Using a modified high-throughput yeast two-hybrid assay, we screened 1825 genes selected primarily from (i) genes of two-component signal transducers of Synechocystis, (ii) Synechocystis genes whose homologues are conserved in the genome of Arabidopsis thaliana, and (iii) genes of unknown function on the Synechocystis chromosome. A total of 3236 independent two-hybrid interactions involving 1920 proteins (52% of the total protein coding genes) were identified and each interaction was evaluated using an interaction generality (IG) measure, as well as the general features of interacting partners. The interaction data obtained in this study should provide new insights and novel strategies for functional analyses of genes in Synechocystis, and, additionally, genes in other cyanobacteria and plant genes of cyanobacterial origin.