Attack of the PCR clones: Rates of clonality have little effect on RAD‐seq genotype calls

Interpretation of high‐throughput sequence data requires an understanding of how decisions made during bioinformatic data processing can influence results. One source of bias that is often cited is PCR clones (or PCR duplicates). PCR clones are common in restriction site‐associated sequencing (RAD‐seq) data sets, which are increasingly being used for molecular ecology. To determine the influence PCR clones and the bioinformatic handling of clones have on genotyping, we evaluate four RAD‐seq data sets. Data sets were compared before and after clones were removed to estimate the number of clones present in RAD‐seq data, quantify how often the presence of clones in a data set causes genotype calls to change compared to when clones were removed, investigate the mechanisms that lead to genotype call changes and test whether clones bias heterozygosity estimates. Our RAD‐seq data sets contained 30%–60% PCR clones, but 95% of RAD‐tags had five or fewer clones. Relatively few genotypes changed once clones were removed (5%–10%), and the vast majority of these changes (98%) were associated with genotypes switching from a called to no‐call state or vice versa. PCR clones had a larger influence on genotype calls in individuals with low read depth but appeared to influence genotype calls at all loci similarly. Removal of PCR clones reduced the number of called genotypes by 2% but had almost no influence on estimates of heterozygosity. As such, while steps should be taken to limit PCR clones during library preparation, PCR clones are likely not a substantial source of bias for most RAD‐seq studies.     

Rapid and reliable screening of a tomato YAC library exclusively based on PCR

An improved procedure is presented to select clones from a tomato yeast artificial chromosome (YAC) library. The procedure is based exlcusively on the polymerase chain reaction (PCR). We combined DNA from approximately 36,000 YAC clones in pools containing 96-single YAC clones from one master plate and further in super pools representing 10 master plates. This pooling strategy allows the selection of single YAC clones homologous to a target sequence after three rounds of PCR using super pools, single pools, and single YAC clones as a template. Single YAC clones were spheroplasted prior to the third PCR round in order to omit the conventional radioactive colony hybridization step. To date, we applied this PCR-based selection strategy to isolate clones homologousto ten different sequence-tagged sites (STS) that are linked to genes targeted for map-based cloning. The selection of YAC clones can be readily accomplished within three days. The PCR-based screening strategy is easy to set up and contributes to a further acceleration of the construction of YAC contigs.     

Polymerase chain reaction amplification and sequence analysis of human mutant adenine phosphoribosyltransferase genes: the nature and frequency of errors caused by Taq DNA polymerase

Using the polymerase chain reaction (PCR) with Taq DNA polymerase, we have amplified a 2.4-kb fragment of genomic DNA containing the adenine phosphoribosyltransferase (APRT) gene from patients with APRT deficiency. Several clones from each patient were sequenced after subcloning the PCR product into M13mp18. Selected regions of the amplified fragment were also sequenced directly. This enabled us to distinguish PCR-induced errors from endogenous mutations and polymorphisms in each clone. 44 PCR errors were found in a total of 57,94 kb of DNA sequenced from 25 clones from 7 patients. All the errors were due to the PCR process and not to subcloning, as shown by sequence analysis of 5 APRT-positive clones isolated from a phage genomic library.     

Sequence verification as quality-control step for production of cDNA microarrays

To generate cDNA arrays in our core laboratory, we amplified about 2300 PCR products from a human, sequence-verified cDNA clone library. As a quality-control step, we sequenced the PCR products immediately before printing. The sequence information was used to search the GenBank database to confirm the identities. Although these clones were previously sequence verified by the company, we found that only 79% of the clones matched the original database after handling. Our experience strongly indicates the necessity to sequence verify the clones at the final stage before printing on microarray slides and to modify the gene list accordingly.     

用PCR直接筛选和鉴定虎纹捕鸟蛛毒素Ⅰ的重组阳性克隆

以合成的两段插入序列为上、下游引物用PCR法直接筛选插入有虎纹捕鸟蛛毒素Ⅰ（HWTX－Ⅰ）cDNA的重组阳性克隆。并用PCR法快速鉴定重组体中插入片段的正、反连接方向,扩增用引物是以位于克隆位点上游的一段载体序列上游引物,以插入序列为下游引物。对100个单克隆进行了上述两次PCR筛选鉴定,选取2个有靶片段插入并且为正向连接的重组子进行测序,其结果证实了插入片段及其方向的正确性。     

Systematic generation of sequence-tagged sites for physical mapping of human chromosomes: application to the mapping of human chromosome 7 using yeast artificial chromosomes.

Basic to the development of long-range physical maps of DNA are the detection and localization of landmarks within recombinant clones. Sequence-tagged sites (STSs), which are short stretches of DNA that can be specifically detected by the polymerase chain reaction (PCR), can be used as such landmarks. Our interest is to construct physical maps of whole human chromosomes by localizing STSs within yeast artificial chromosome (YAC) clones. Here we describe a generalized strategy for the systematic generation of large numbers of STSs specific for human chromosome 7. These STSs can be detected by PCR assays developed following the sequencing of anonymous pieces of chromosome 7 DNA, which was derived from flow-sorted chromosomes or from lambda clones made from DNA of a human-hamster hybrid cell line. Our approach for STS generation is tailored for the development of PCR assays capable of screening a large YAC library. In this study, we report the generation of 100 new STSs specific to human chromosome 7.     

A 3.5 genome equivalent multi access YAC library: construction, characterisation, screening and storage.

The construction of a yeast artificial chromosome (YAC) primary gridded library of 35,000 clones from human lymphoblastoid (48,XXXX) cell line DNA is described. The average YAC size is approximately 350kb representing a greater than 3.5 times coverage of the genome. The library is stored at -70 degrees C as gridded clones on nylon filters impregnated with 20% glycerol and as glycerol suspensions of individual clones in microtitre plates providing a prolonged multi-user potential. To date we have used 14 single copy probes to screen this library by colony hybridisation as well as PCR and have isolated between 1 and 5 YAC clones for every probe.     

Semiautomated clone verification by real-time PCR using molecular beacons

Conventional, high-throughput PCR analysis of common elements utilizing numerous primer sets and template DNA requires multiple rounds of PCR to ensure optimal conditions. Laborious gel electrophoresis and staining is then necessary to visualize amplification products. We propose novel multicolor molecular beacons, to establish a high-throughput, PCR-based sequence tagged site (STS) detection system that swiftly and accurately confirms marker content in template containing common repeat elements. A simple, one-tube, real-time PCR assay system was developed to specifically detect regions containing CA and GATA repeats. Ninety-six samples can be confirmed for marker content in a closed-tube format in 3 h, eliminating product confirmation on agarose gels and avoiding crossover contamination. Multiple STSs can be detected simultaneously in the same reaction tube by utilizing molecular beacons labeled with multicolor fluorophores. Template DNA from 260 RPCI-11 bacterial artificial chromosome (BAC) clones was examined for the presence of CA and/or GATA repeats using molecular beacon PCR and compared with conventional PCR results of the same clones. Of the 205 clones containing CA and GATA repeats, we were able to identify 129 clones (CA, n = 99; GATA, n = 30) by using molecular beacons and only 121 clones (CA, n = 92; GATA, n = 29) by conventional PCR amplification. As anticipated, 55 clones that contained sequences other than CA or GATA failed molecular beacon detection. Molecular beacon PCR, employing beacons specific for tandem repeat elements, provides a fast, accurate, and sensitive multiplex detection assay that will expedite verification of marker content in a multitude of template containing these repeats.     

单菌落PCR法直接快速鉴定重组克隆

利用单菌落PCR法直接筛选含有GFP、LTB-ST外源基因的重组克隆,阳性克隆可以扩增出目的条带,和质粒PCR扩增的结果一致。同时,单菌落PCR法也可应用于重组质粒转化后的农杆菌的筛选,单菌落PCR法的扩增结果和农杆菌液扩增的结果一致。结果表明,单菌落PCR法是一个有效简便的鉴定重组阳性克隆的方法。     

Rapid screening of libraries with radiolabeled DNA sequences generated by PCR using highly degenerate oligonucleotide mixtures.

The PCR technique can use protein-derived oligonucleotide sequences as primers to develop probes for screening recombinant libraries. Here we report a method with highly degenerate mixtures of oligonucleotides as primers for the PCR that eliminates the need to identify or isolate the DNA sequences derived by PCR. The method uses the pool of PCR-generated DNA sequences radiolabeled during the extension reaction as a probe, combined with highly stringent hybridization and wash conditions that permit only homologous sequences to hybridize and therefore target desired clones. This technique was used successfully to clone the receptor for tumor necrosis factor.     

Identification and classification of endogenous retroviruses in cattle

The aim of this study was to identify the endogenous retrovirus (ERV) sequences in a bovine genome. We subjected bovine genomic DNA to PCR with degenerate or ovine ERV (OERV) family-specific primers that aimed to amplify the retroviral pro/pol region. Sequence analysis of 113 clones obtained by PCR revealed that 69 were of retroviral origin. On the basis of the OERV classification system, these clones from degenerate PCR could be divided into the beta3, gamma4, and gamma9 families. PCR with OERV family-specific primers revealed an additional ERV that was classified into the bovine endogenous retrovirus (BERV) gamma7 family. In conclusion, here we report the results of a genome scale study of the BERV. Our study shows that the ERV family expansion in cattle may be somewhat limited, while more diverse family members of ERVs have been reported from other artiodactyls, such as pigs and sheep.     

人基因组YAC克隆DNA的Alu－PCR反应条件的系统研究

在人基因组ＹＡＣ克隆的Ａｌｕ－ＰＣＲ指纹分析中要求ＤＮＡ且扩增带具有ＹＡＣ特征性;在用ＡｌＵ－ＰＣＲ方法对ＹＡＣ克隆中的人类基因组ＤＮＡ片段进行特异的同位素标记时则要求被扩增标记的ＤＮＡ序列在插入片段中具有一定的弥散性。我们建立了两种不同的Ａｌｕ－ＰＣＲ反应体系以满足这一不同要求,并已得到较为满意的结果。根据不同条件下的Ａｌｕ－ＰＣＲ结果,分析了多引发位点ＰＣＲ中的一些现象,并作出了解释。     

Name that microbe: rapid identification of taxa responsible for individual fragments in fingerprints of microbial community structure

Polymerase chain reaction (PCR)‐based ‘fingerprinting’ methods, such as Terminal restriction fragment length polymorphism, Length Heterogeneity‐Polymerase Chain Reaction (LH‐PCR) and Automated Ribosomal Intergenic Spacer Analysis (ARISA) make possible quantitative studies of microbial community structure and dynamics. Here we outline a strategy for the rapid and cost‐effective isolation of 16S clones corresponding to particular fragment sizes in a fingerprint, based on applying the fingerprinting method to pools of colonies from a clone library. This allows the definitive identification of taxa responsible for the most important bands in the community fingerprint from a full 16S sequence. It offers significant advantages over random selection of clones and removes a significant barrier to the use of these methods.     

A PCR-based high-throughput screen with multiround sample pooling: application to somatic cell gene targeting

Here, we describe a method of systematic PCR screening with multiround sample pooling for the isolation of rare PCR-positive samples. As an example, we have applied this protocol to the recovery of gene-targeted clones in human somatic cells comprising only 0.02-0.17% of cells transduced with targeting vectors. Initially, cells infected with targeting vectors are seeded and grown in fourteen 96-well tissue culture plates. Samples are then collected from these plates and subjected to two rounds of pooling to yield twelve 'superpools' used for an initial PCR. After identifying PCR-positive samples, de-pooling is carried out with successive rounds of PCR screening, using samples of decreasing complexity. Single-cell cloning is subsequently performed to isolate gene-targeted clones. The entire protocol can be completed in 4-8 weeks depending on the proliferative capacity of the cell line.     

Uniform amplification of multiple DNAs by emulsion PCR

When several DNAs are amplified by PCR in one PCR tube, biased amplification is known to occur because amplification efficiency differs from one DNA to another. Therefore, we conducted PCR in the water in oil-emulsion (W/O emulsion) to examine whether the procedure allows the uniform amplification of several DNAs. In the amplification of a model library consisting of two clones, the emulsification of the PCR mixture successfully reduced the difference in its amplification efficiency to approximately one-seventh the value obtained without emulsification. Furthermore, we conducted repeated PCR to amplify a model library consisting of ten short hairpin RNA (shRNA) expression vectors as a model experiment for gene discovery using an shRNA expression library. Consequently, the emulsification of the PCR mixture successfully reduced PCR bias. Our results indicate that emulsion PCR is capable of uniformly amplifying libraries of shRNA, ribozyme, cDNA, and others, and is useful also for gene discovery using these libraries.     

Effective molecular examination of eukaryotic plankton species diversity in environmental seawater using environmental PCR,PCR-RFLP,and sequencing

Phytoplankton are primary producers and can be important indicators of environmental change. To monitor the plankton species composition of environmental seawater samples, we developed a molecular method composed of colony polymerase chain reaction (PCR), polymerase chain reaction–restriction fragment length polymorphism (PCR-RFLP), and sequencing. A clone library of the ribosomal small subunit RNA gene (18S rDNA) in the nuclear genome was constructed by environmental PCR using a newly designed primer set and clones were directly amplified by colony PCR. To select unique putative clones, we choose a PCR-RFLP method that employed two restriction enzymes (MseI and Tsp509I). After the PCR-RFLP pattern was evaluated, selected clones were sequenced and analyzed. In this study, we revealed the hidden biodiversity in environmental seawater containing a wide range of taxonomic groups in the Alveolata (Ciliphora and Dinophyceae), Euglenozoa, Stramenopiles (Bacillariophyta), and Viridiplantae (Chlorophyta) without the need to conduct extensive colony isolation techniques. Moreover, we found species of fungi and Metazoa (Arthropoda, Annelida, and Mollusca). Therefore, this improved molecular method can be used to generate a robust database describing the species diversity of environmental samples and provide useful information regarding the dynamics of the eukaryotic plankton community structure.     

Construction and characterisation of a yeast artificial chromosome library containing three haploid maize genome equivalents

We have constructed a yeast artificial chromosome (YAC) library using high-molecular-weight DNA prepared from agarose-embedded leaf protoplasts of the maize inbred line UE95. This library contains 79 000 clones with an average insert size of 145 kb and should therefore represent approximately three haploid genome equivalents. The library is organised as an ordered array in duplicate microtitre plates. Forty-one pools of DNA from 1920 individual clones have been prepared for rapid screening of the library by the polymerase chain reaction (PCR). Using this approach, together with conventional colony hybridisation, we have been able to identify between one and eight positive clones for every probe used.     

Rapid and quantitative detection of homologous and non-homologous recombination events using three oligonucleotide MLPA

Embryonic stem (ES) cell technology allows modification of the mouse germline from large deletions and insertions to single nucleotide substitutions by homologous recombination. Identification of these rare events demands an accurate and fast detection method. Current methods for detection rely on Southern blotting and/or conventional PCR. Both the techniques have major drawbacks, Southern blotting is time-consuming and PCR can generate false positives. As an alternative, we here demonstrate a novel approach of Multiplex Ligation-dependent Probe Amplification (MLPA) as a quick, quantitative and reliable method for the detection of homologous, non-homologous and incomplete recombination events in ES cell clones. We have adapted MLPA to detect homologous recombinants in ES cell clones targeted with two different constructs: one introduces a single nucleotide change in the PCNA gene and the other allows for a conditional inactivation of the wild-type PCNA allele. By using MLPA probes consisting of three oligonucleotides we were able to simultaneously detect and quantify both wild-type and mutant alleles.     

Genomic microarrays in the spotlight

Microarray-based comparative genomic hybridization (array-CGH) has emerged as a revolutionary platform, enabling the high-resolution detection of DNA copy number aberrations. In this article we outline the use and limitations of genomic clones, cDNA clones and PCR products as targets for genomic microarray construction. Furthermore, the applications and future aspects of these arrays for DNA copy number analysis in research and diagnostics, epigenetic profiling and gene annotation are discussed. These recent developments of genomic microarrays mark only the beginning of a new generation of high-resolution and high-throughput tools for genetic analysis.     

Identification of low frequency knockout mutants in Dictyostelium discoideum created by single or double homologous recombination

Generation and characterization of knockout clones is a widely used approach to evaluate the specific function of a gene product in Dictyostelium discoideum. The mutant clones are generally obtained by double homologous recombination in the target gene. A frequent limitation to obtaining mutants is the low frequency of homologous recombination. Here we present an easy method to identify rare mutants, based on PCR analysis of pools of clones. This method also allows the isolation of functional knockout mutants created by a single homologous recombination event, which can be more frequent than a double recombination event.