基于pDS132的基因敲除中创伤弧菌氯霉素的耐药性变化及影响

【背景】基于自杀载体的基因敲除在单基因敲除上的应用较为常见,但在多基因敲除过程中细菌耐药性的变化及对后续敲除的影响尚未明确。【目的】探究基于自杀载体pDS132的创伤弧菌vvhA与rtxA1双基因敲除株构建过程中,创伤弧菌对氯霉素耐药性的变化及对后续基因敲除的影响。【方法】基于自杀载体pDS132的同源重组法构建创伤弧菌YJ016的单基因敲除株YJ016-ΔvvhA、YJ016-ΔrtxA1和双基因敲除株YJ016-ΔvvhAΔrtxA1,记录单交换筛选时的氯霉素浓度与筛选平板上成功重组的菌株所占比例。琼脂稀释法测定野生型与敲除株的氯霉素最低抑菌浓度(Minimum InhibitoryConcentration,MIC)和抗性突变频率,纸片扩散法测定菌株对其他药物的敏感性,分析其对单交换筛选的影响。【结果】单基因敲除株的氯霉素MIC及氯霉素抗性突变频率高于野生型;双基因敲除株的庆大霉素抑菌圈直径小于野生型。单基因敲除时,单交换重组菌株的占比为100%(20/20);在YJ016-ΔvvhA上敲除rtxA1基因,氯霉素筛选浓度为2、4μg/mL时,单交换重组菌株的占比分别为40%(8/20)、5%(1/20);在YJ016-ΔrtxA1上敲除vvhA基因,氯霉素筛选浓度为2、4μg/mL时,单交换重组菌株的占比均为0%(0/20)。【结论】基于自杀载体pDS132的基因敲除中创伤弧菌氯霉素的耐药性升高,可能影响后续单交换重组的筛选,该结果为基于自杀载体的同源重组技术应用于多基因敲除提供了参考。     

A role for the Saccharomyces cerevisiae Rtt109 histone acetyltransferase in R-loop homeostasis and associated genome instability

The stability of the genome is occasionally challenged by the formation of DNA–RNA hybrids and R-loops, which can be influenced by the chromatin context. This is mainly due to the fact that DNA–RNA hybrids hamper the progression of replication forks, leading to fork stalling and, ultimately, DNA breaks. Through a specific screening of chromatin modifiers performed in the yeast Saccharomyces cerevisiae, we have found that the Rtt109 histone acetyltransferase is involved in several steps of R-loop-metabolism and their associated genetic instability. On the one hand, Rtt109 prevents DNA–RNA hybridization by the acetylation of histone H3 lysines 14 and 23 and, on the other hand, it is involved in the repair of replication-born DNA breaks, such as those that can be caused by R-loops, by acetylating lysines 14 and 56. In addition, Rtt109 loss renders cells highly sensitive to replication stress in combination with R-loop-accumulating THO-complex mutants. Our data evidence that the chromatin context simultaneously influences the occurrence of DNA–RNA hybrid-associated DNA damage and its repair, adding complexity to the source of R-loop-associated genetic instability.     

Efficient assembly of a large fragment of monkeypox virus genome as a qPCR template using dual-selection based transformation-associated recombination

Transformation-associated recombination (TAR) has been widely used to assemble large DNA constructs. One of the significant obstacles hindering assembly efficiency is the presence of error-prone DNA repair pathways in yeast, which results in vector backbone recircularization or illegitimate recombination products. To increase TAR assembly efficiency, we prepared a dual-selective TAR vector, pGFCS, by adding a P_ADH1-URA3 cassette to a previously described yeast-bacteria shuttle vector, pGF, harboring a P_HIS3-HIS3 cassette as a positive selection marker. This new cassette works as a negative selection marker to ensure that yeast harboring a recircularized vector cannot propagate in the presence of 5-fluoroorotic acid. To prevent pGFCS bearing ura3 from recombining with endogenous ura3-52 in the yeast genome, a highly transformable Saccharomyces cerevisiae strain, VL6-48B, was prepared by chromosomal substitution of ura3-52 with a transgene conferring resistance to blasticidin. A 55-kb genomic fragment of monkeypox virus encompassing primary detection targets for quantitative PCR was assembled by TAR using pGFCS in VL6-48B. The pGFCS-mediated TAR assembly showed a zero rate of vector recircularization and an average correct assembly yield of 79% indicating that the dual-selection strategy provides an efficient approach to optimizing TAR assembly.     

基于Red重组系统构建含Flag标签标记UL23基因的重组人巨细胞病毒

利用来源于λ噬菌体的Red系统,将Flag标签及两侧带有FRT位点的卡那霉素抗性基因片段插入原HCMV TowneBAC中UL23基因3 '末端区域,通过卡那抗性筛选带有抗性标记的重组菌株,并通过表达重组酶FLP的质粒pCP20去除卡那霉素抗性基因,得到带有Flag标签标记UL23基因和单一FRT位点的突变BAC.重组后的BAC分子同质粒pcDNA3.1(+)-pUL82共转染HFF细胞后重建重组HCMV.Western blotting检测证实所构建重组病毒能够表达含Flag标签标记的pUL23蛋白.此含有Flag标签标记UL23基因的重组HCMV的成功构建为了进一步研究人巨细胞病毒UL23基因及其产物的功能提供依据.     

Disruption of the Arabidopsis RAD50 gene leads to plant sterility and MMS sensitivity

The Rad50 protein is involved in the cellular response to DNA-double strand breaks (DSBs), including the detection of damage, activation of cell-cycle checkpoints, and DSB repair via recombination. It is essential for meiosis in yeast, is involved in telomere maintenance, and is essential for cellular viability in mice. Here we present the isolation, sequence and characterization of the Arabidopsis thaliana RAD50 homologue (AtRAD50) and an Arabidopsis mutant of this gene. A single copy of this gene is present in the Arabidopsis genome, located on chromosome II. Northern analysis shows a single 4.3 Kb mRNA species in all plant tissues tested, which is strongly enriched in flowers and other tissues with many dividing cells. The predicted protein presents strong conservation with the other known Rad50 homologues of the amino- and carboxy-terminal regions. Mutant plants present a sterility phenotype which co-segregates with the T-DNA insertion. Molecular analysis of the mutant plants shows that the sterility phenotype is present only in the plants homozygous for the T-DNA insertion. An in vitro mutant cell line, derived from the mutant plant, shows a clear hypersensitivity to the DNA-damaging agent methylmethane sulphonate, suggesting a role of RAD50 in double-strand break repair in plant cells. This is the first report of a plant mutated in a protein of the Rad50-Mre11-Xrs2 complex, as well as the first data suggesting the involvement of the Rad50 homologue protein in meiosis and DNA repair in plants.     

利用苏云金芽胞杆菌转座子Tn4430构建含cry1Ac10基因的解离载体

将cry1Ac10基因和苏云金芽胞杆菌的复制起始区连 接在一起,并在其两侧按相同方向各连接一个来自苏云金芽胞杆菌转座子Tn4430的解离位点,构成转移单位。再将革兰氏阳性细菌的抗性标记基因和大肠杆菌克隆载体pUC19与之连接,获得含cry1Ac10基因的解离载体pBMB801。将其转化苏云金芽胞杆菌无晶体突变体,再导入含解离酶基因的辅助质粒pBMB1200。在解离酶作用下,两个解离位点间发生重组,消除基在操作中的抗性标记基因等非必需基因片段,获得仅保留有完整cry1Ac10基因和来 自苏云金芽胞杆菌质粒复制起始区,在无抗生素选择压力下能稳定遗传的重组质粒pBMB801B 。     

一种高效构建同源重组DNA片段的方法——融合PCR

融合PCR技术（fusion PCR）采用具有互补末端的引物,形成具有重叠链的PCR产物,通过PCR产物重叠链的延伸,从而将不同来源的任意DNA片段连接起来,此技术在不需要内切酶消化和连接酶处理的条件下实现DNA片段的体外连接,为同源重组片段的构建提供了快速简捷的途径。对原有的融合PCR技术进行改进,以三个同源重组线性DNA片段的构建为例,详细论述了改进的融合PCR技术的反应过程及技术体系。结果表明,改进的融合PCR技术可以同时进行三个片段及四个片段的融合反应,产物长度均在4.5kb以上,各同源重组片段在扩增过程中均无突变发生,获得的片段可以用于后续实验分析。     

在小鼠胚胎干细胞进行基因打靶的策略

基因打靶技术是一种通过同源重组按预期方式改变生物活体的遗传信息的实验手段,与小鼠胚胎干细胞培养系统相结合,使得人们可以方便地将各种突变引入小鼠体内,得以从生物整体水平上研究高等真核生物基因的表达、调控及其生理功能.扼要介绍了近年来在小鼠胚胎干细胞进行基因打靶的研究进展.     

不同鸟类生境网络复合与优化——以苏锡常地区白鹭、鸳鸯、雉鸡为例

通过复合优化不同焦点物种的生境网络表征多数物种生境网络实现物种多样性保护,具有重要理论价值和实践意义。以苏锡常地区为研究区域,以白鹭、鸳鸯和雉鸡3种鸟类为焦点物种,通过采用生境斑块约束条件模型与最小成本路径法相结合的方法识别出生境网络;从满足集合覆盖问题视角出发,通过采用网络构成要素复合的方法进行网络复合,其中廊道与廊道的复合通过采用评价生态系统服务价值的方法实现;通过采用观测数据为生境斑块和迁移廊道增补依据的方法进行复合生境网络优化。结果表明:生境网络经过复合,廊道总面积、总长度及生态系统服务价值在分别减少了16%、68%和10%的情况下,保持了斑块间的连接度、兼顾到经济效益和生态效益最大化、覆盖了占总数86%以上的75处观测点;复合生境网络经过优化,覆盖了2010年及以后所有84处观测点,廊道总面积、总长度及生态系统服务价值分别增加了19%、21%和27%;说明生境网络复合优化定量分析方法和思路具有可行性,为网络复合研究提供了借鉴。     

Advances in chloroplast engineering

The chloroplast is a pivotal organelle in plant cells and eukaryotic algae to carry out photosynthesis, which provides the primary source of the world＇s food. The expression of foreign genes in chloroplasts offers several advantages over their expression in the nucleus： high-level expression, transgene stacking in operons and a lack of epigenetic interference allowing stable transgene expression. In addition, transgenic chloroplasts are generally not transmitted through pollen grains because of the cytoplasmic localization. In the past two decades, great progress in chloroplast engineering has been made. In this paper, we review and highlight recent studies of chloroplast engineering, including chloroplast transformation procedures, controlled expression of plastid transgenes in plants, the expression of foreign genes for improvement of plant traits, the production of biopharmaceuticals, metabolic pathway engineering in plants, plastid transformation to study RNA editing, and marker gene excision system.