Single-tube colony PCR for DNA amplification and transformant screening of oleaginous microalgae

Recently, several colony PCR methods have been developed to simplify DNA isolation procedure and facilitate PCR-based colony screening efforts in microalgae. A main drawback of current protocols is that cell collection, disruption, and genomic DNA extraction are required preceding the PCR step, making the colony PCR process laborious and costly. In the present study, we have developed a novel procedure that eliminates any steps of DNA extraction and allows the colony screening to be performed in a single PCR tube: algal cells (as low as 5,000) from agar plates or liquid cultures were directly transferred into a PCR tube containing 2× PCR buffer and boiled for 5–10 min depending on different algal strains, followed by addition of other PCR components (dNTPs, primers, and polymerase) and then subjected to conventional PCR reaction. The procedure documented here worked well not only for the model alga Chlamydomonas reinhardtii, but also for the thick-walled oleaginous strains such as Chlorella, Haematococcus, Nannochloropsis, and Scenedesmus with its efficacy independent on amplicon sizes and primer pairs. In addition, screening of Chlorella zofingiensis transformants was achieved using this method. Collectively, our single-tube colony PCR is a much simpler and more cost-effective procedure as compared to those previously reported and has broad applications including gene cloning, strain determination, and high-throughput screening of algae colonies and transformants for biomass and biofuel production.     

Template-blocking PCR: An advanced PCR technique for genome walking

This article describes the development of an improved method for the isolation of genomic fragments adjacent to a known DNA sequence based on a cassette ligation-mediated polymerase chain reaction (PCR) technique. To reduce the nonspecific amplification of PCR-based genome walking, the 3′ ends of the restriction enzyme-digested genomic DNA fragments were blocked with dideoxynucleoside triphosphate (ddNTP) and ligated with properly designed cassettes. The modified genomic DNA fragments flanked with cassettes were used as a template for the amplification of a target gene with a gene-specific primer (GSP) and a cassette primer (CP). The ddNTP blocking of the genomic DNA ends significantly reduced the nonspecific amplification and resulted in a simple and rapid walking along the genome. The efficiency of the template-blocking PCR method was confirmed by a carefully designed control experiment. The method was successfully applied for the cloning of the PGK1 promoter from Pichia ciferrii and two novel cellulase genes from Penicillium sp.     

Ultra-High Efficient Colony PCR for High Throughput Screening of Bacterial Genes

Current colony PCR methods are not suitable for screening genes encoded in genomic DNA and are limited to E. coli host strains. Here, we describe an ultra-high efficient colony PCR method for high throughput screening of bacterial genes embedded in the genomic DNA of any bacterial species. This new technique expands colony PCR method to several hosts as well as offers a rapid, less expensive and reliable bacterial genomic DNA extraction.     

TECHNICAL REPORT: Rapid confirmation of gene targeting in embryonic stem cells using two long-range PCR techniques

Gene targeting in mouse embryonic stem (ES) cells generally includes the analysis of numerous colonies to identify a few with mutations resulting from homologous recombination with a targeting vector. Thus, simple and efficient screening methods are needed to identify targeted clones. Optimal screening approaches require probes from outside of the region included in the targeting vector to avoid detection of the more common random insertions. However, the use of large genomic fragments in targeting vectors can limit the availability of cloned DNA, thus necessitating a strategy to obtain unique flanking sequences. We describe a rapid method to identify sequences adjacent to cloned DNA using long-range polymerase chain reaction (PCR) amplification from a genomic DNA library, followed by direct nucleotide sequencing of the amplified fragment. We have used this technique in two independent gene targeting experiments to obtain genomic DNA sequences flanking the mouse cholecystokinin (CCK) and gastrin genes. The sequences were then used to design primers to characterize ES cell lines with CCK or gastrin targeted gene mutations, employing a second long-range PCR approach. Our results show that these two long-range PCR methods are generally useful to rapidly and accurately characterize allele structures in ES cells     

A simple and rapid method for screening transformant yeast colonies using PCR.

A simple and rapid procedure for screening transformant yeast colonies is described. In this method, a trace amount of plasmid DNA is isolated from a small amount of yeast cell mass; then, the presence of the exogenous DNA in each yeast colony is detected by PCR amplification.     

Direct colony PCR for rapid identification of varied microalgae from freshwater environment

Molecular identification of microalgal species is vital and involves sequencing of specific markers present in the genome, which are unique to a genus. PCR is a vital tool for identification of microalgae; the preparation of template DNA for PCR by traditional methods requires large amount of algal cells and a time-consuming process. One simple way to reduce these complications is to use the microalgal colonies directly for amplification of required DNA fragments from the genome. In this study, a simple cell-disrupting method, using autoclaved glass powder, has been used for direct colony PCR of microalgae. Four morphologically different microalgal strains were chosen from freshwater samples, and the PCR amplification reaction was evaluated with three different molecular markers (rbcL, internal transcribed spacer 2, and 18S rDNA). PCR amplification was optimized with less number of cells (0.04?×?10⁵), minimal quantity of glass powder (0.5 mg), and in the presence of Milli-Q water for internal transcribed spacer marker. The isolated strains were identified as Desmodesmus sp. JQ782747, Coelastrum proboscideum JQ898144, Chlorella sorokiniana JQ898145, and Scenedesmus sp. JQ782746 based on sequence similarity. This direct microalgal colony PCR proves to be a simple and rapid method for detection of varied microalgal species.     

Examination of host genome for the presence of integrated fragments of Solenopsis invicta virus 1

A series of oligonucleotide primer pairs covering the entire genome of Solenopsis invicta virus 1 (SINV-1) were used to probe the genome of its host, S. invicta, for integrated fragments of the viral genome. All of the oligonucleotide primer sets yielded amplicons of anticipated size from cDNA created from an RNA template from SINV-1. However, no corresponding amplification was observed when genomic DNA (from 32 colonies of S. invicta) was used as template for the PCR amplifications. Host DNA integrity was verified by amplification of an ant-specific gene, SiGSTS1. The representation of fire ant colonies included both social forms, monogyne and polygyne, and those infected and uninfected with SINV-1. Furthermore, no amplification was observed from genomic DNA from ant samples collected from Argentina or the US. Thus, it appears that SINV-1 genome integration, or a portion therein, has not likely occurred within the S. invicta host genome.     

Rapid and Robust PCR-Based All-Recombinant Cloning Methodology

We report here a PCR-based cloning methodology that requires no post-PCR modifications such as restriction digestion and phosphorylation of the amplified DNA. The advantage of the present method is that it yields only recombinant clones thus eliminating the need for screening. Two DNA amplification reactions by PCR are performed wherein the first reaction amplifies the gene of interest from a source template, and the second reaction fuses it with the designed expression vector fragments. These vector fragments carry the essential elements that are required for the fusion product selection. The entire process can be completed in less than 8 hours. Furthermore, ligation of the amplified DNA by a DNA ligase is not required before transformation, although the procedure yields more number of colonies upon transformation if ligation is carried out. As a proof-of-concept, we show the cloning and expression of GFP, adh, and rho genes. Using GFP production as an example, we further demonstrate that the E. coli T7 express strain can directly be used in our methodology for the protein expression immediately after PCR. The expressed protein is without or with 6xHistidine tag at either terminus, depending upon the chosen vector fragments. We believe that our method will find tremendous use in molecular and structural biology.     

A simple PCR procedure for discovering microsatellites from small insert libraries

Microsatellite discovery from genomic libraries is tedious because of the low number of clones that contain inserts and costly because of screening methodologies. A new procedure for screening clones for microsatellite DNA is described herein. Instead of colony hybridization, a polymerase chain reaction (PCR) with two vector standard primers and one synthesized repeat primer was used to directly screen colonies. PCR of colonies that produced a strong smear in gels contained the desired motif, whereas a single strong band indicated the lack of the desired motif. This simple screening method is a cost‐effective way to identify microsatellite‐containing colonies.     

Extraction of genomic DNA from yeasts for PCR-based applications

We have developed a quick and low-cost genomic DNA extraction protocol from yeast cells for PCR-based applications. This method does not require any enzymes, hazardous chemicals, or extreme temperatures, and is especially powerful for simultaneous analysis of a large number of samples. DNA can be efficiently extracted from different yeast species (Kluyveromyces lactis, Hansenula polymorpha, Schizosaccharomyces pombe, Candida albicans, Pichia pastoris, and Saccharomyces cerevisiae). The protocol involves lysis of yeast colonies or cells from liquid culture in a lithium acetate (LiOAc)-SDS solution and subsequent precipitation of DNA with ethanol. Approximately 100 nanograms of total genomic DNA can be extracted from 1 × 10(7) cells. DNA extracted by this method is suitable for a variety of PCR-based applications (including colony PCR, real-time qPCR, and DNA sequencing) for amplification of DNA fragments of ≤ 3500 bp.     

Rapid and simple preparation of mushroom DNA directly from colonies and fruiting bodies for PCR

We have optimized a simple and rapid preparation procedure for mushroom DNA extraction from colonies on media or from fruiting bodies for PCR amplification. The protocol combines microwaving twice for 1 min, cooling for 10 min, and centrifuging for 5 min. By using this procedure, more than 100 samples of mushroom DNA can be prepared within 1 h. The DNA obtained can be used for (1) identifying mushroom species by PCR and subsequent sequencing, (2) amplifying low copy number genes (at least 2,000 bp), and (3) screening genetic transformants. This technique will contribute to the mycology of mushroom species.     

一种基于PCR技术鉴定单拷贝转基因烟草的方法

为了鉴定携带单拷贝外源基因的转基因烟草植株,以烟草核基因组上已知的单拷贝内源基因（RNR2）为内参,转基因烟草植株基因组DNA为模板,在同一PCR反应体系中扩增内源基因（RNR2）和外源目的基因（NPTⅡ）。反应产物在琼脂糖凝胶上电泳,获得了预期大小的两条特异性扩增条带。经ImageJ软件捕捉分析两条目的条带的灰度比,当T1代转基因烟草植株中外源基因与内源基因的扩增条带灰度比为1时,所检测植株即为单拷贝外源基因的转基因烟草植株。孟德尔经典遗传学方法证实了上述检测结果高度可信。     

一种用于PCR扩增的丝状真菌DNA快速提取方法

丝状真菌在工业、农业、医药以及基础生物学研究中具有重要作用。利用遗传转化技术对丝状真菌进行菌株改良和基因功能分析, 也越来越受到重视。然而, 丝状真菌DNA提取方法繁琐、费时, 难以满足利用PCR技术高通量筛选转化子的需要。本文以曲霉菌为例建立了一种快速提取丝状真菌DNA的实验方法, 微波处理置于10 × TE buffer中的菌丝即可得到DNA。RAPD试验和PCR扩增证明, 该方法提取的DNA能够达到PCR扩增的要求。研究结果为高通量快速筛选丝状真菌转化子奠定了基础。     

A rapid reliable method to use specific probes labelling polymerase chain reaction (PCR) products.

Polymerase chain reaction (PCR) has allowed highly sensitive detection and amplification of individual DNA sequences. To generate specific probes for genes or cDNAs that have not yet been cloned, it is often necessary to label PCR products which are then used in Southern or Northern hybridizations or for screening cDNA and genomic DNA libraries. In this paper a rapid and versatile method of using PCR products, as specific probes, is described, after digestion with EcoRI in buffer H, in the presence of PCR reaction buffer, and purification of the PCR products for avoid the interference by competition of unlabelled dCTP in the directionally random labelling.     

Enhanced error-prone RCA mutagenesis by concatemer resolution

Error-prone rolling circle amplification (RCA) is a promising alternative to error-prone PCR for random mutagenesis. The main disadvantage of error-prone RCA is the low transformation efficiency of the DNA concatemer produced in the amplification reaction. We improved the method by introducing loxP recombination site of bacteriophage P1 Cre recombinase into the target plasmid and reducing the concatemer by Cre recombinase to plasmid-sized units, increasing the number of transformants 50-fold in non-error-prone and 13-fold in error-prone conditions. The efficiency improvement was verified by obtaining 115 ± 57 ceftazidime resistant colonies per recombined RCA reaction from randomly mutated TEM-1 β-lactamase gene library whereas only 9 ± 11 colonies were gained without recombination. Supplementation of the error-prone RCA with Cre/loxP recombination is a simple and useful tool to increase the transformable library size.     

农杆菌介导转化莱茵衣藻体系的优化

[目的]为建立根癌农杆菌介导的莱茵衣藻快速简便高效的遗传转化体系,本研究以模式生物莱茵衣藻为受体材料,从转化方法和转化子快速鉴定两个方面进行了优化.[方法]比较了固体培养基共培养转化方法和液体培养基共培养转化方法对根癌农杆菌LBA 4404介导的莱茵衣藻CC425转化效率的影响;研究并比较了(1)首先经过TE裂解再进行...     

An improved colony PCR procedure for genetic screening of <Emphasis Type="Italic">Chlorella</Emphasis> and related microalgae

A colony PCR technique was applied for both genomic and chloroplast DNA in the green microalgae Chlorella. Of five different lysis buffers, Chelex-100 was superior for DNA extraction, PCR and DNA storage. It also was insensitive to variations in cell density. The conditions established for an improved PCR formulation are applicable for screening of genetically-engineered transformants as well as bioprospecting of natural microalgal isolates. Besides multiple Chlorella species, we also demonstrate the efficacy of Chelex-100 for colony PCR with a number of other microalgal strains, including Chlamydomonas reinhardtii, Dunaliella salina, Nannochloropsis sp., Coccomyxa sp., and Thalassiosira pseudonana.     

Tapping diversity lost in transformations—in vitro amplification of ligation reactions

Molecular evolution is a powerful means of engineering proteins. It usually requires the generation of a large recombinant DNA library of variants for cloning into a phage or plasmid vector, and the transformation of a host organism for expression and screening of the variant proteins. However, library size is often limited by the low yields of circular DNA and the poor transformation efficiencies of linear DNA. Here we have overcome this limitation by amplification of recombinant circular DNA molecules directly from ligation reactions. The amplification by bacteriophage Phi29 polymerase increased the number of transformants; thus from a nanogram-scale ligation of DNA fragments comprising two sub-libraries of variant antibody domains, we succeeded in amplifying a highly diverse and large combinatorial phage antibody library (>10⁹ transformants in Escherichia coli and 10⁵-fold more transformants than without amplification). From the amplified library, but not from the smaller un-amplified library, we could isolate several antibody fragments against a target antigen. It appears that amplification of ligations with Phi29 polymerase can help recover clones and molecular diversity otherwise lost in the transformation step. A further feature of the method is the option of using PCR-amplified vectors for ligations.     

电转化法构建变形链球菌UA159 comD缺陷菌株

目的构建变形链球菌UAl59密度感应相关的comD基因缺陷菌株,为进一步研究该基因功能做准备。方法根据同源重组原理,利用变形链球菌UAl59comD基因同源重组DNA片段,采用电击转化方法获取转化菌落,通过形态学观察、生化特性检测、PCR及测序、RT-PCR对缺陷菌进行鉴定。结果在含有红霉素（10μg/mL）的琼脂平板上出现转化菌落,鉴定结果均显示转化菌为comD缺陷菌。结论成功构建了变形链球菌UA159comD基因缺陷菌株。     

Use of PCR-Based Methods for Rapid Differentiation of Lactobacillus delbrueckii subsp. bulgaricus and L. delbrueckii subsp. lactis

Two PCR-based methods, specific PCR and randomly amplified polymorphic DNA PCR (RAPD-PCR), were used for rapid and reliable differentiation of Lactobacillus delbrueckii subsp. bulgaricus and L. delbrueckii subsp. lactis. PCR with a single combination of primers which targeted the proline iminopeptidase (pepIP) gene of L. delbrueckii subsp. bulgaricus allowed amplification of genomic fragments specific for the two subspecies when either DNA from a single colony or cells extracted from dairy products were used. A numerical analysis of the RAPD-PCR patterns obtained with primer M13 gave results that were consistent with the results of specific PCR for all strains except L. delbrueckii subsp. delbrueckii LMG 6412^T, which clustered with L. delbrueckii subsp. lactis strains. In addition, RAPD-PCR performed with primer 1254 provided highly polymorphic profiles and thus was superior for distinguishing individual L. delbrueckii strains.