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1.
限制性酶切位点关联DNA测序技术(restriction-site-associated DNA sequencing,RAD-seq)是在二代测序技术基础上发展起来的一种简化基因组技术(reduced-representation genome sequencing,RRGS)。RAD-seq利用限性核酸内切酶使基因组片段化,经过修饰后连接含标记的接头构建文库并进行测序。因其具有操作简单、实验成本低、通量高等优点,在分子生态学、进化基因组学、保护遗传学等领域得到应用。目前发展起来的RAD-seq技术主要包括利用稀有酶和物理打断方式进行基因组片段化的mbRAD、利用稀有酶和常见酶组合酶切的方式进行基因组片段化的ddRAD、利用IIB型限制性内切酶得到短片段文库的2bRAD、利用同裂酶和Illumina试剂盒建库的ezRAD和完全利用Nextera试剂盒建库的nextRAD。本文对每种RAD-seq技术的特点及其在昆虫种群遗传学、群落生态学、物种界定、系统发育和遗传连锁图谱构建等研究领域的应用进行了综述。  相似文献   

2.
本文介绍了构建水稻二化螟和三化螟"双酶切限制性酶切位点关联DNA测序"(Double digest restrictionsite associated DNA sequencing,ddRADseq)文库的方法。利用安捷伦2100生物分析仪对4种单酶切及2种双酶切的酶切产物片段大小及分布范围进行分析,筛选出Mlu C I和Nla III两种限制性内切酶组合对螟虫基因组DNA进行酶切。酶切后的DNA片段两端连接上特定的P1、P2接头后,用Pippin Prep回收大小为285-435 bp的DNA片段。通过PCR扩增进行文库的富集并引入index序列。构建好的ddRADseq文库用琼脂糖凝胶电泳和生物分析仪进行质量检测。本方法所构建的文库DNA片段长度、分布和摩尔浓度能够达到Illumina平台测序的技术要求。本研究证实了利用Mlu C I和Nla III组合酶切构建水稻螟虫基因组ddRADseq文库的可行性,为在水稻螟虫中利用ddRADseq技术开展生物地理学、种群遗传学和系统发育重建等方面的研究奠定基础。  相似文献   

3.
隶属于头索动物亚门的文昌鱼是现存生物中最近似于脊椎动物亚门直接祖先的一个类群,具有重要的进化地位,是研究脊椎动物原始祖先的重要材料和模式动物。随着文昌鱼实验室连续繁殖的成功,全基因组测序成为中国文昌鱼模式化急需完成的工作之一。文章从单条雄性白氏文昌鱼精巢组织中提取高质量的基因组DNA,经EcoRⅠ限制性内切酶和EcoRⅠ甲基化酶酶切,脉冲场电泳选择合适酶切DNA片段,连接线性磷酸化的载体pCC1BAC,转化大肠杆菌EPI300 E.coli,构建了含有44706个克隆的全基因组BAC(Bacterial artificial chromosome)文库,该文库平均插入片段80kb,具有9倍的基因组覆盖率,基本能够满足功能基因等研究需要,为中国文昌鱼全基因组测序打下基础。  相似文献   

4.
徐松  张娟  马立新 《遗传》2006,28(6):717-720
构建基因组文库是一项非常基础和重要的工作。但利用传统方法构建基因组文库存在操作步骤繁琐、背景高等问题。为了解决这些问题,对传统构建文库的方法进行了改进。由于Ear I位点经酶切后突出3个可变碱基,经过设计可使酶切后的两个粘端无法匹配,从而防止载体环化,所以用两个Ear I位点作为克隆位点。基因片段是通过用Sau3AI部分酶切基因组总DNA,并在部分酶切片段的3`凹端补一个碱基G获得,因此片段无法串连或环化。本实验构建了基于上述改进的ARS探针载体pHBM803/Trp,并分别用改进方法和传统方法构建水稻基因组文库进行比较。实验结果表明,经过上述两点改进可使文库质量大大提高。  相似文献   

5.
介绍一种新的方法构建近随机多肽文库。选取从大基因组物种的组织或细胞中提取的基因组DNA ,利用切割频率高的限制性内切酶切割 ,产生的短片段可以近似地认为是随机序列的片段 ,将它们与匹配的载体连接后转化进宿主细胞进行表达 ,从而获得近随机多肽文库。这样的文库可以用于蛋白质相互作用的研究。同一种基因组DNA可以利用不同的酶切 ,再分别连接到表达载体的不同读码框架 ,从而产生不同编码序列的多种近随机多肽文库。介绍了充分利用烟草基因组DNA构建两种不同酶切 ,三种读码框架 ,共六种不同编码序列的近随机多肽文库的方法。  相似文献   

6.
郑敬民  李坚  傅继梁   《生物工程学报》2001,17(5):566-569
利用小鼠HPRT基因组DNA片段和人工合成的含有FLP重组酶识别位点变异体FRT和F3RT序列的寡核苷酸 ,构建了针对小鼠HPRT基因位点的置换型打靶载体pSP HPRT Fneo F3。经过限制酶酶切及部分测序鉴定其结构正确后 ,将线性化了的打靶载体以电穿孔法导入ES细胞内 ,经G418和 6 -TG双药筛选和分子鉴定 ,得到了 2个在HPRT位点整合有FLP重组酶“交换盒”F Neo F3结构的双交换重组ES细胞克隆 ,为建立基于FLP重组酶介导的盒式交换的高效、定点转基因体系创造了条件.  相似文献   

7.
采用链霉亲和素包被的磁珠富集法筛选曼氏无针乌贼(Sepiella maindroni)微卫星位点。试验样品来自舟山六横岛,提取4个样品的DNA混合成DNA pool,用限制性内切酶Sau 3A I酶切。接上接头后构建基因组PCR文库,用生物素标记的(GT)15探针筛选。将筛选获得目的片段进行PCR扩增,连接pMD18-T载体,转入DH5α感受态大肠杆菌里,扩大培养后PCR筛选阳性克隆。总共选取278个克隆,对120个经过检测含有插入片段的克隆进行测序,发现102个克隆含有微卫星序列,阳性克隆比率为85%。除去重复测序和侧翼链不足的序列,可以设计引物的微卫星序列有64条。  相似文献   

8.
目的:构建细梢小卷蛾Rhyacionia leptotubula微卫星富集文库.方法:提取细梢小卷蛾基因组DNA,经限制性内切酶Rsa Ⅰ酶切,用(CT)10和(GT)10生物素探针与其杂交,利用磁珠富集含有微卫星的DNA序列,并对其进行PCR扩增,将扩增产物连接到pMD18-T载体后转入感受态大肠杆菌DH5α中,得到微卫星富集文库:结果:对100个克隆进行随机测序,获得98个微卫星序列,其中具有5次及以上碱基重复次数的微卫星克隆占26%,最高碱基重复次数为33次,非完美型占12%,说明构建的细梢小卷蛾微卫星富集文库是一个高质量的文库.结论:该文库的建立为后续筛选具高多态性的微卫星标记引物研究细梢小卷蛾的种群遗传结构、迁移扩散规律等奠定了基础.  相似文献   

9.
本研究以雨生红球藻34-1n为材料,提取其基因组DNA,利用限制性内切酶Sau3AⅠ对基因组DNA进行酶解,回收6~8kb的基因组DNA片段,并浓缩至200ng/μL。该片段与经BamH Ⅰ酶切和去磷酸化处理后的pUC18载体连接,然后电击转化到受体菌Escherichia.coli DH5α中,获得雨生红球藻34-1n的基因组文库。该文库的平均插入片段长度约为6.5kb,获得6×105个克隆数。通过PCR筛选,由雨生红球藻基因组文库中获得含bkt1序列的单克隆菌,与β-胡萝卜素氧化酶序列(GenBank:DQ086233.1)进行比对,结果表明bkt1基因组序列含有6个外显子。本研究为进一步鉴定雨生红球藻相关基因提供了一个文库平台。  相似文献   

10.
将鹅源腺病毒Y81G4株全基因组DNA的HindⅢ酶切片段分别插入质粒pUC18, 成功构建了全基因组DNA文库.在此基础上,将重组质粒携带的插入片段切出、回收并分别用地高辛标记后作为探针,与经限制酶BamHI、EcoRI、PstI、Eco RV消化的病毒基因组DNA进行Southern Blotting,杂交结果经比较综合后获得了该病毒基因组DNA的HindⅢ、Ba mH I、EcoR I、PstI、EcoR V限制性内切酶的物理图谱.利用已发表的含有鸡EDS76病毒AA-2 株基因组DNA右末端的重组质粒pBE42作为探针,与本病毒两末端重组质粒进行Southern Blo tting,根据同源性杂交结果确定了本病毒基因组DNA物理图谱与EDSVAA-2株相应的方向. 本病毒基础因组DNA物理图谱的精确构建,为进行基因组结构分析,筛选复制非必需区,构建禽腺病毒载体打下了基础.  相似文献   

11.

Background

2b-RAD (type IIB endonucleases restriction-site associated DNA) approach was invented by Wang in 2012 and proven as a simple and flexible method for genome-wide genotyping. However, there is still plenty of room for improvement for the existent 2b-RAD approach. Firstly, it doesn’t include the samples pooling in library preparation as other reduced representation libraries. Secondly, the information of 2b-RAD tags, such as tags numbers and distributions, in most of species are unknown. The purposes of the research are to improve a new 2b-RAD approach which possesses samples pooling, moreover to figure out the characteristic and application potentiality of 2b-RAD tags by bioinformatics analysis.

Results

Twelve adapter1 and an adapter2 were designed. A library approach comprising digestion, ligation, pooling, PCR and size selection were established. For saving costs, we used non-phosphorylated adapters and indexed PCR primers. A F2 population of rice (Oryza sativa .L) was genotyped to validate the new approach. On average, 2000332 high quality reads of each sample were obtained with high evenness. Totally 3598 markers containing 3804 SNPs were discovered and the missing rate was 18.9%. A genetic linkage map of 1385 markers was constructed and 92% of the markers’ orders in the genetic map were in accordance with the orders in chromosomes. Meanwhile, the bioinformatics simulation in 20 species showed that the BsaXI had the most widespread recognition sites, indicating that 2b-RAD tags had a powerful application potentiality for high density genetic map. Using modified adapters with a fix base in 3′end, 2b-RAD was also fit for QTL studies with low costs.

Conclusions

An improved 2b-RAD genotyping approach was established in this research and named as I2b-RAD. The method was a simple, fast, cost-effective and multiplex sequencing library approach. It could be adjusted by selecting different enzymes and adapters to fit for alternative uses including chromosomes assembly, QTL fine mapping and even natural population analysis.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-956) contains supplementary material, which is available to authorized users.  相似文献   

12.
2b-RAD: a simple and flexible method for genome-wide genotyping   总被引:3,自引:0,他引:3  
Wang S  Meyer E  McKay JK  Matz MV 《Nature methods》2012,9(8):808-810
We describe 2b-RAD, a streamlined restriction site-associated DNA (RAD) genotyping method based on sequencing the uniform fragments produced by type IIB restriction endonucleases. Well-studied accessions of Arabidopsis thaliana were genotyped to validate the method's accuracy and to demonstrate fine-tuning of marker density as needed. The simplicity of the 2b-RAD protocol makes it particularly suitable for high-throughput genotyping as required for linkage mapping and profiling genetic variation in natural populations.  相似文献   

13.
Most restriction endonucleases bridge two target sites before cleaving DNA: examples include all of the translocating Type I and Type III systems, and many Type II nucleases acting at their sites. A subset of Type II enzymes, the IIB systems, recognise bipartite sequences, like Type I sites, but cut specified phosphodiester bonds near their sites, like Type IIS enzymes. However, they make two double-strand breaks, one either side of the site, to release the recognition sequence on a short DNA fragment; 34 bp long in the case of the archetype, BcgI. It has been suggested that BcgI needs to interact with two recognition sites to cleave DNA but whether this is a general requirement for Type IIB enzymes had yet to be established. Ten Type IIB nucleases were tested against DNA substrates with one or two copies of the requisite sequences. With one exception, they all bridged two sites before cutting the DNA, usually in concerted reactions at both sites. The sites were ideally positioned in cis rather than in trans and were bridged through 3-D space, like Type II enzymes, rather than along the 1-D contour of the DNA, as seen with Type I enzymes. The standard mode of action for the restriction enzymes that excise their recognition sites from DNA thus involves concurrent action at two DNA sites.  相似文献   

14.
Type III restriction enzymes are multifunctional heterooligomeric enzymes that cleave DNA at a fixed position downstream of a non-symmetric recognition site. For effective DNA cleavage these restriction enzymes need the presence of two unmethylated, inversely oriented recognition sites in the DNA molecule. DNA cleavage was proposed to result from ATP-dependent DNA translocation, which is expected to induce DNA loop formation, and collision of two enzyme-DNA complexes. We used scanning force microscopy to visualise the protein interaction with linear DNA molecules containing two EcoP15I recognition sites in inverse orientation. In the presence of the cofactors ATP and Mg(2+), EcoP15I molecules were shown to bind specifically to the recognition sites and to form DNA loop structures. One of the origins of the protein-clipped DNA loops was shown to be located at an EcoP15I recognition site, the other origin had an unspecific position in between the two EcoP15I recognition sites. The data demonstrate for the first time DNA translocation by the Type III restriction enzyme EcoP15I using scanning force microscopy. Moreover, our study revealed differences in the DNA-translocation processes mediated by Type I and Type III restriction enzymes.  相似文献   

15.
The BcgI endonuclease exemplifies a subset of restriction enzymes, the Type IIB class, which make two double-strand breaks (DSBs) at each copy of their recognition sequence, one either side of the site, to excise the sequence from the remainder of the DNA. In this study, we show that BcgI is essentially inactive when bound to a single site and that to cleave a DNA with one copy of its recognition sequence, it has to act in trans, bridging two separate DNA molecules. We also show that BcgI makes the two DSBs at an individual site in a highly concerted manner. Intermediates cut on one side of the site do not accumulate during the course of the reaction: instead, the DNA is converted straight to the final products cut on both sides. On DNA with two sites, BcgI bridges the sites in cis and then generally proceeds to cut both strands on both sides of both sites without leaving the DNA. The BcgI restriction enzyme can thus excise two DNA segments together, by cleaving eight phosphodiester bonds within a single-DNA binding event.  相似文献   

16.
A new method to improve the efficiency of flanking sequence identification by genome walking was developed based on an expanded, sequential list of criteria for selecting candidate enzymes, plus several other optimization steps. These criteria include: step (1) initially choosing the most appropriate restriction enzyme according to the average fragment size produced by each enzyme determined using in silico digestion of genomic DNA, step (2) evaluating the in silico frequency of fragment size distribution between individual chromosomes, step (3) selecting those enzymes that generate fragments with the majority between 100 bp and 3,000 bp, step (4) weighing the advantages and disadvantages of blunt-end sites vs. cohesive-end sites, step (5) elimination of methylation sensitive enzymes with methylation-insensitive isoschizomers, and step (6) elimination of enzymes with recognition sites within the binary vector sequence (T-DNA and plasmid backbone). Step (7) includes the selection of a second restriction enzyme with highest number of recognition sites within regions not covered by the first restriction enzyme. Step (8) considers primer and adapter sequence optimization, selecting the best adapter-primer pairs according to their hairpin/dimers and secondary structure. In step (9), the efficiency of genomic library development was improved by column-filtration of digested DNA to remove restriction enzyme and phosphatase enzyme, and most important, to remove small genomic fragments (<100 bp) lacking the T-DNA insertion, hence improving the chance of ligation between adapters and fragments harbouring a T-DNA. Two enzymes, NsiI and NdeI, fit these criteria for the Arabidopsis thaliana genome. Their efficiency was assessed using 54 T(3) lines from an Arabidopsis SK enhancer population. Over 70% success rate was achieved in amplifying the flanking sequences of these lines. This strategy was also tested with Brachypodium distachyon to demonstrate its applicability to other larger genomes.  相似文献   

17.
The kinetics of the reactions of the EcoRI restriction endonuclease at individual recognition sites on the DNA from bacteriophage lambda were found to differ markedly from site to site. Under certain conditions of pH and ionic strength, the rates for the cleavage of the DNA were the same at each recognition site. But under altered experimental conditions, different reaction rates were observed at each recognition site. These results are consistent with a mechanism in which the kinetic stability of the complex between the enzyme and the recognition site on the DNA differs among the sites, due to the effect of interactions between the enzyme and DNA sequences surrounding each recognition site upon the transition state of the reaction. Reactions at individual sites on a DNA molecule containing more than one recognition site were found to be independent of each other, thus excluding the possibility of a processive mechanism for the EcoRI enzyme. The consequences of these observations are discussed with regard to both DNA-protein interactions and to the application of restriction enzymes in the study of the structure of DNA molecules.  相似文献   

18.
According to the current paradigm type IIE restriction endonucleases are homodimeric proteins that simultaneously bind to two recognition sites but cleave DNA at only one site per turnover: the other site acts as an allosteric locus, activating the enzyme to cleave DNA at the first. Structural and biochemical analysis of the archetypal type IIE restriction enzyme EcoRII suggests that it has three possible DNA binding interfaces enabling simultaneous binding of three recognition sites. To test if putative synapsis of three binding sites has any functional significance, we have studied EcoRII cleavage of plasmids containing a single, two and three recognition sites under both single turnover and steady state conditions. EcoRII displays distinct reaction patterns on different substrates: (i) it shows virtually no activity on a single site plasmid; (ii) it yields open-circular DNA form nicked at one strand as an obligatory intermediate acting on a two-site plasmid; (iii) it cleaves concertedly both DNA strands at a single site during a single turnover on a three site plasmid to yield linear DNA. Cognate oligonucleotide added in trans increases the reaction velocity and changes the reaction pattern for the EcoRII cleavage of one and two-site plasmids but has little effect on the three-site plasmid. Taken together the data indicate that EcoRII requires simultaneous binding of three rather than two recognition sites in cis to achieve concerted DNA cleavage at a single site. We show that the orthodox type IIP enzyme PspGI which is an isoschisomer of EcoRII, cleaves different plasmid substrates with equal rates. Data provided here indicate that type IIE restriction enzymes EcoRII and NaeI follow different mechanisms. We propose that other type IIE restriction enzymes may employ the mechanism suggested here for EcoRII.  相似文献   

19.
Bing Zhou  Nongan Chen  Qiliang Li 《Gene》1988,70(2):405-409
Partial digestion of a target DNA fragment with 4-bp-recognition restriction enzymes followed by a forced ligation to an M13 vector was employed for the construction of a subfragment library. The library can be used for either shotgun or non-random nucleotide sequencing. Application of the partial digests generated with the 4-bp recognition restriction enzymes instead of DNase I in the improved non-random strategy for nucleotide sequencing (Li and Wu, 1987) made the procedure as easy as that of the random strategy. The library can also be used in shotgun nucleotide sequencing directly, and few self-ligated subfragments were found. The usefulness of this procedure was demonstrated by the sequencing of a goat 6.5-kb EcoRI fragment, which is located 5' to the globin gene.  相似文献   

20.
Type III restriction enzymes have been demonstrated to require two unmethylated asymmetric recognition sites oriented head-to-head to elicit double-strand break 25–27 bp downstream of one of the two sites. The proposed DNA cleavage mechanism involves ATP-dependent DNA translocation. The sequence context of the recognition site was suggested to influence the site of DNA cleavage by the enzyme. In this investigation, we demonstrate that the cleavage site of the R.EcoP15I restriction enzyme does not depend on the sequence context of the recognition site. Strikingly, this study demonstrates that the enzyme can cleave linear DNA having either recognition sites in the same orientation or a single recognition site. Cleavage occurs predominantly at a site proximal to the DNA end in the case of multiple site substrates. Such cleavage can be abolished by the binding of Lac repressor downstream (3′ side) but not upstream (5′ side) of the recognition site. Binding of HU protein has also been observed to interfere with R.EcoP15I cleavage activity. In accordance with a mechanism requiring two enzyme molecules cooperating to elicit double-strand break on DNA, our results convincingly demonstrate that the enzyme translocates on DNA in a 5′ to 3′ direction from its recognition site and indicate a switch in the direction of enzyme motion at the DNA ends. This study demonstrates a new facet in the mode of action of these restriction enzymes.  相似文献   

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