Characterizing homologues of crop domestication genes in poorly described wild relatives by high‐throughput sequencing of whole genomes

Wild crop relatives represent a source of novel alleles for crop genetic improvement. Screening biodiversity for useful or diverse gene homologues has often been based upon the amplification of targeted genes using available sequence information to design primers that amplify the target gene region across species. The crucial requirement of this approach is the presence of sequences with sufficient conservation across species to allow for the design of universal primers. This approach is often not successful with diverse organisms or highly variable genes. Massively parallel sequencing (MPS) can quickly produce large amounts of sequence data and provides a viable option for characterizing homologues of known genes in poorly described genomes. MPS of genomic DNA was used to obtain species‐specific sequence information for 18 rice genes related to domestication characteristics in a wild relative of rice, Microlaena stipoides. Species‐specific primers were available for 16 genes compared with 12 genes using the universal primer method. The use of species‐specific primers had the potential to cover 92% of the sequence of these genes, while traditional universal primers could only be designed to cover 80%. A total of 24 species‐specific primer pairs were used to amplify gene homologues, and 11 primer pairs were successful in capturing six gene homologues. The 23 million, 36‐base pair (bp) paired end reads, equated to an average of 2X genome coverage, facilitated the successful amplification and sequencing of six target gene homologues, illustrating an important approach to the discovery of useful genes in wild crop relatives.     

DNA analysis with multiplex microarray-enhanced PCR

We have developed a highly sensitive method for DNA analysis on 3D gel element microarrays, a technique we call multiplex microarray-enhanced PCR (MME-PCR). Two amplification strategies are carried out simultaneously in the reaction chamber: on or within gel elements, and in bulk solution over the gel element array. MME-PCR is initiated by multiple complex primers containing gene-specific, forward and reverse, sequences appended to the 3′ end of a universal amplification primer. The complex primer pair is covalently tethered through its 5′ end to the polyacryl- amide backbone. In the bulk solution above the gel element array, a single pair of unattached universal primers simultaneously directs pseudo-monoplex PCR of all targets according to normal solution-phase PCR. The presence of a single universal PCR primer pair in solution accelerates amplification within gel elements and eliminates the problem of primer interference that is common to conventional multiplex PCR. We show 10⁶-fold amplification of targeted DNA after 50 cycles with average amplification efficiency 1.34 per cycle, and demonstrate specific on-chip amplification of six genes in Bacillus subtilis. All six genes were detected at 4.5 pg of bacterial genomic DNA (equivalent to 10³ genomes) in 60 independent amplification reactions performed simultaneously in single reaction chamber.     

High sensitivity EndoV mutation scanning through real-time ligase proofreading

The ability to associate mutations in cancer genes with the disease and its subtypes is critical for understanding oncogenesis and identifying biomarkers for clinical diagnosis. A two-step mutation scanning method that sequentially used endonuclease V (EndoV) to nick at mismatches and DNA ligase to reseal incorrectly or nonspecifically nicked sites was previously developed in our laboratory. Herein we report an optimized single-step assay that enables ligase to proofread EndoV cleavage in real-time under a compromise between buffer conditions. Real-time proofreading results in a dramatic reduction of background cleavage. A universal PCR strategy that employs both unlabeled gene-specific primers and labeled universal primers, allows for multiplexed gene amplification and precludes amplification of primer dimers. Internally labeled PCR primers eliminate EndoV cleavage at the 5′ terminus, enabling high-throughput capillary electrophoresis readout. Furthermore, signal intensity is increased and artifacts are reduced by generating heteroduplexes containing only one of the two possible mismatches (e.g. either A/C or G/T). The single-step assay improves sensitivity to 1:50 and 1:100 (mutant:wild type) for unknown mutations in the p53 and K-ras genes, respectively, opening prospects as an early detection tool.     

16S/18S/ITS扩增子高通量测序引物的生物信息学评估和改进

【背景】在过去的十几年里,基于核糖体RNA基因的扩增子测序技术被广泛用于各种生态系统中微生物群落的多样性检测。扩增子测序的使用极大地促进了土壤、水体、空气等环境中微生物生态的相关研究。【目的】随着高通量测序技术的不断发展和参考数据库的不断更新,针对不同的环境样本的引物选择和改进仍然需要更深入的校验。【方法】本文收集了目前在微生物群落研究中被广泛采用的标记基因扩增通用引物,包括16S rRNA基因扩增常用的8对通用引物和2对古菌引物、9对真菌转录间隔区(internal transcribed spacer,ITS)基因扩增引物,以及18S rRNA基因扩增的4对真核微生物通用引物和1对真菌特异性引物。这些引物中包括了地球微生物组计划(Earth Microbiome Project,EMP)推荐的2对16S rRNA基因扩增引物、1对ITS1基因扩增引物和1对18S rRNA基因扩增引物。采用最近更新的标准数据库对这些引物进行了覆盖度和特异性评价。【结果】EMP推荐的引物依然具有较高的覆盖度,而其他引物在覆盖度及对特定环境或类群的特异性上也各有特点。此外,最近有研究对这些通用引物进行了一些改进,而我们也发现,一个碱基的变化都可能会导致评价结果或扩增产物发生明显变化,简并碱基的引入既可以覆盖更多的物种,但同时也会在一定程度上降低关注物种的特异性。【结论】研究结果为微生态研究中标记基因的引物选择提供了一个广泛的指导,但在关注具体科学问题时,引物的选择仍需数据指导与实验尝试。     

重要肠道病原菌多重PCR-基因芯片检测方法研究

目的:建立并初步评价一种针对重要肠道病原菌的多重PCR 基因芯片检测方法。方法：对筛选出的特异引物进行多重PCR优化,将引物分别按种属内混合和种属间混合的方案排查引物间的竞争性抑制现象,再将不同菌属的模板混合,用相对应的混合引物扩增,探寻高效特异的引物组合。分别掺入和不掺入荧光素,验证其对混合PCR反应的影响,并与芯片杂交,探寻多重PCR扩增效率对芯片杂交的影响。分析不同数量引物组合产生的杂交结果,筛选出无交叉反应的最优引物组合。结果:种属内引物混合均得到特异性扩增结果。种属间混合霍乱弧菌和空肠弯曲菌得到部分预期条带,随着混合引物数量的增加,交叉抑制现象也增多。杂交信号强度随多重PCR扩增效率的增加而增强。反应中掺入荧光素的扩增条带产量低于无荧光素的产物。可将35对混合引物拆成3个体系分别标记样品,以避免假阴性结果。结论:PCR反应中掺入荧光素降低扩增效率和杂交效率,但并不影响对杂交结果的判读和数据分析。基因芯片杂交信号强度取决于多重PCR的扩增效率。肠道病原菌多重PCR 基因芯片检测方法具有较高的特异性,混合PCR可以分别按照种属内和种属间的引物组合方案用于多病原的筛检。该基因芯片检测可以采用3个引物体系完成样品标记。     

Development of a molecular diagnostic system to discriminate Dreissena polymorpha (zebra mussel) and Dreissena bugensis (quagga mussel)

A 3-primer PCR system was developed to discriminate invasive zebra (Dreissena polymorpha) and quagga (Dreissena bugensis) mussel. The system is based on: 1) universal primers that amplifies a region of the nuclear 28s rDNA gene from both species and 2) a species-specific primer complementary to either zebra or quagga mussel. The species-specific primers bind to sequences between the binding sites for the universal primers resulting in the amplification of two products from the target species and one product from the nontarget species. Therefore, nontarget products are positive amplification controls. The 3-primer system accurately discriminated zebra and quagga mussels from seven geographically distinct populations.     

Sequencing-independent method to generate oligonucleotide probes targeting a variable region in bacterial 16S rRNA by PCR with detachable primers

Oligonucleotide probes targeting the small-subunit rRNA are commonly used to detect and quantify bacteria in natural environments. We developed a PCR-based approach that allows synthesis of oligonucleotide probes targeting a variable region in the 16S rRNA without prior knowledge of the target sequence. Analysis of all 16S rRNA gene sequences in the Ribosomal Database Project database revealed two universal primer regions bracketing a variable, population-specific region. The probe synthesis is based on a two-step PCR amplification of this variable region in the 16S rRNA gene by using three universal bacterial primers. First, a double-stranded product is generated, which then serves as template in a linear amplification. After each of these steps, products are bound to magnetic beads and the primers are detached through hydrolysis of a ribonucleotide at the 3' end of the primers. This ultimately produces a single-stranded oligonucleotide of about 30 bases corresponding to the target. As probes, the oligonucleotides are highly specific and could discriminate between nucleic acids from closely and distantly related bacterial strains, including different species of VIBRIO: The method will facilitate rapid generation of oligonucleotide probes for large-scale hybridization assays such as screening of clone libraries or strain collections, ribotyping microarrays, and in situ hybridization. An additional advantage of the method is that fluorescently or radioactively labeled nucleotides can be incorporated during the second amplification, yielding intensely labeled probes.     

Interspecific polymorphism at non-coding regions of chloroplast,mitochondrial DNA and rRNA IGS region in Elymus species

Several published universal primers for amplification of non-coding regions of chloroplast, mitochondrial and ribosomal (rRNA) IGS region were tested whether they can amplify respective regions in Elymus species. PCR-RFLP analysis of the chloroplast, mitochondral DNA, and rRNA IGS region of the genus Elymus was used to determine if the method could be employed to detect inter-specific variation in this genus. Published universal primers for amplification of trnK [tRNA-Lys (UUU) exon 1]-trnK [tRNA-Lys (UUU) exon2], and mitochondrial nad1 exon B-nadl exon C intron successfully amplified the respective regions in Elymus species. However, the primers for amplification of chloroplast trnD-trnT intron and rRNA IGS failed to amplify the respective region in Elymus species. New primer pairs were designed and successfully amplified the cpDNA trnD-trnT intron and rRNA IGS region in Elymus species. The amplification products were digested with seven restriction enzymes. The results showed that the investigated regions of chloroplast and mitochondrial genomes are variable in most of the tested taxa and contain multiple variable regions. These regions should serve as useful molecular markers in phylogenetic studies of closely related species, at least at the interspecific level in Elymus. It is likely that further studies, including larger sample sizes, more regions of these genomes and/or more powerful methods for the detection of cpDNA and mt DNA variation will reveal additional variation for this genus. Highly inter- and intra-specific polymorphisms for rRNA IGS region were detected, suggesting the IGS will be a useful molecular marker for population studies of Elymus species.     

Fifteen novel universal primer pairs for sequencing whole chloroplast genomes and a primer pair for nuclear ribosomal DNAs

Chloroplast genome information helps improve the phylogenetic resolution and can act as organelle-scale barcodes in recently radiated plant groups. Previously we reported that nine universal primer pairs could amplify angiosperm whole chloroplast genomes by long-range polymerase chain reaction and using next-generation sequencing. Although these primers show high universality and efficiency for sequencing whole chloroplast genomes in angiosperms, they did not fully resolve the following two issues surrounding sequencing angiosperm chloroplast genomes: (i) approximately 30% of angiosperms cannot be amplified successfully; and (ii) only fresh leaves can be applied. In this study, we designed another set of 15 universal primer pairs for amplifying angiosperm whole chloroplast genomes to complement the original nine primer pairs. Furthermore, we designed a primer pair for nuclear ribosomal DNAs (nrDNAs). To validate the functionality of the primers, we tested 44 species with silica gel-dried leaves and 15 species with fresh leaves that have been shown to not be amplified with the original nine primer pairs. The result showed that, in 65.9% and 88.6% of the 44 species with silica gel-dried leaves, the whole chloroplast genome and nrDNAs could be amplified, respectively. In addition, all 15 fresh leaf samples could have the whole chloroplast genome successfully amplified. The nrDNAs comprise partial sequences of 18S and 26S, along with the complete sequence of 5.8S and the internal transcribed spacers ITS1 and ITS2. The mean size of nrDNA was 5800 bp. This study shows that the 15 universal primer set is an indispensable tool for amplifying whole chloroplast genomes in angiosperms, and these are an important supplement to the nine reported primer pairs.     

毛细管电泳四色荧光检测法分析茶树SSR标记

将毛细管电泳四色荧光栓测技术应用于茶树SSR标记分析.该方法采用三引物PCR扩增SSR位点,三引物即在5'端加有M13尾巴序列(5'-CACGACGTTGTAAAACGAC-3')的特异正向引物、特异反向引物及带有荧光标记的通用型M13引物:为了运用四色荧光检测系统使通过一次毛细管电泳能同时检测3个以上的SSR位点,采用蓝、绿、黑3种不同颜色的荧光染料分别对3个M13引物进行标记. 应用该方法对42个茶树品种(系)的16个SSR位点进行遗传分析的结果表明:此法具有简便、可靠、低成本及高通量的优点;且随着所分析SSR位点数的增加,降低成本的效果更加显著.采用建立的方法,还筛选获得了11个多态性丰富的可应用于茶树遗传研究的SSR标记.     

Highly effective sequencing whole chloroplast genomes of angiosperms by nine novel universal primer pairs

Chloroplast genomes supply indispensable information that helps improve the phylogenetic resolution and even as organelle‐scale barcodes. Next‐generation sequencing technologies have helped promote sequencing of complete chloroplast genomes, but compared with the number of angiosperms, relatively few chloroplast genomes have been sequenced. There are two major reasons for the paucity of completely sequenced chloroplast genomes: (i) massive amounts of fresh leaves are needed for chloroplast sequencing and (ii) there are considerable gaps in the sequenced chloroplast genomes of many plants because of the difficulty of isolating high‐quality chloroplast DNA, preventing complete chloroplast genomes from being assembled. To overcome these obstacles, all known angiosperm chloroplast genomes available to date were analysed, and then we designed nine universal primer pairs corresponding to the highly conserved regions. Using these primers, angiosperm whole chloroplast genomes can be amplified using long‐range PCR and sequenced using next‐generation sequencing methods. The primers showed high universality, which was tested using 24 species representing major clades of angiosperms. To validate the functionality of the primers, eight species representing major groups of angiosperms, that is, early‐diverging angiosperms, magnoliids, monocots, Saxifragales, fabids, malvids and asterids, were sequenced and assembled their complete chloroplast genomes. In our trials, only 100 mg of fresh leaves was used. The results show that the universal primer set provided an easy, effective and feasible approach for sequencing whole chloroplast genomes in angiosperms. The designed universal primer pairs provide a possibility to accelerate genome‐scale data acquisition and will therefore magnify the phylogenetic resolution and species identification in angiosperms.     

In situ amplification using universal energy transfer-labeled primers.

We developed an amplification detection system in which a universal energy transfer-labeled primer (UniPrimer) is used in combination with any target-specific primer pair. The target specific primers each have a 5' tail sequence, which is homologous to the 3' end of the UniPrimer which, in turn, has a hairpin structure on the 5' end. The hairpin structure brings the fluorophore and quencher into close proximity when the primer is free in solution, providing efficient quenching. When the primer is incorporated into the PCR product, the hairpin structure is unfolded and a fluorescent signal can be detected. Using hepatitis C and human papillomavirus as model systems, this study demonstrates several advantages in the hot-start in situ PCR technique with the UniPrimer system, including target specific detection of one DNA copy per cell without a separate in situ hybridization step and detection of an RNA target by RT in situ PCR without overnight DNase digestion. The UniPrimer-based in situ PCR allows rapid and simple detection of any DNA or RNA target without concern for the background from DNA repair invariably evident in paraffin-embedded tissue when a labeled nucleotide is used.     

Multiplex PCR with the blunt hairpin primers for next generation sequencing

The multiplex PCR is one of the important methods to enrich the target DNAs for next generation sequencing. The non-specific amplification and interaction between the primers are the pivotal challenges of multiplex PCR. Here, we introduce the novel blunt hairpin primers for effective reducing the primer dimers and mispriming events. We also used a pair of auxiliary primers to enhance PCR efficiency. We simultaneously amplified 89 target regions from 44 samples and sequenced all amplicons on ion torrent PGM platform. Among all the filtrated amplicons (3438 different amplicons), 99.7, 97.6, 90.1 and 72.8% had sequencing depths fell within 200, 100, 50 and 25-fold range. The sequencing depth variations among all the samples were less than 27-fold. We also amplified multiplex regions with blunt hairpin, stick hairpin and normal linear primers, and the blunt hairpin primers could significantly reduce the amount of primer dimers and unspecific products.These results show that multiplex PCR with the blunt hairpin primers is a flexible, specific and economical target-region captured approach for the next generation sequencing.     

Annealing control primer system for improving specificity of PCR amplification

A novel primer designed to improve the specificity of PCR amplification, called the annealing control primer (ACP), comprises a tripartite structure with a polydeoxyinosine [poly(dI)] linker between the 3' end target core sequence and the 5' end nontarget universal sequence. We show that this ACP linker prevents annealing of the 5' end nontarget sequence to the template and facilitates primer hybridization at the 3' end to the target sequence at specific temperatures, resulting in a dramatic improvement of annealing specificity. The effect of this linker is demonstrated by the incorporation of ACP sequences as primers during the amplification of target nucleotide sequence and as hybridization probes in the genotyping of single nucleotide polymorphisms. This is the first report to show that a poly(dI) linker between two different sequences of ACP forms a bubble-like structure and disrupts or destabilizes DNA duplex formation at certain annealing temperatures.     

Development of a versatile cassette for directional genome walking using cassette ligation-mediated PCR and its application in the cloning of complete lipolytic genes from Bacillus species

Since the invention of the PCR technology, adaptation techniques to clone DNA fragments flanking the known sequence continue to be developed. We describe a perfectly annealed cassette available in almost unlimited quantities with variable sticky-and blunt-end restriction enzyme recognition sites for efficient restriction and ligation with the restricted target genomic DNA. The cassette provides a 200-bp sequence, which is used to design a variety of cassette-specific primers. The dephosphorylation prevents cassette self-ligation and creates a nick at the cassette: target genome DNA ligation site suppressing unspecific PCR amplifications. We introduce the single-strand amplification PCR (SSA-PCR) technique where a lone known locus-specific primer is firstly used to enrich the targeted template DNA strand resulting in significant PCR product specificity during the second round conventional nested PCR. The distance between the known locus-specific primer and the nearest location of the restriction enzyme used determined the length of the obtained PCR product. We used this technique to walk downstream into the isochorismatase and upstream into the hypothetical conserved genes flanking the mature extracellular lipase gene from Bacillus licheniformis. We further demonstrated the potential of the technique as a cost-effective method during PCR-based prospecting for novel genes by designing "universal" degenerate primers that detected homologues of Family VII bacterial lipolytic genes in Bacillus species. The cassette ligation-mediated PCR was used to clone complete nucleotide sequences encoding functional lipolytic genes from B. licheniformis and Bacillus pumilus.     

Deconstructing the Polymerase Chain Reaction: Understanding and Correcting Bias Associated with Primer Degeneracies and Primer-Template Mismatches

The polymerase chain reaction (PCR) is sensitive to mismatches between primer and template, and mismatches can lead to inefficient amplification of targeted regions of DNA template. In PCRs in which a degenerate primer pool is employed, each primer can behave differently. Therefore, inefficiencies due to different primer melting temperatures within a degenerate primer pool, in addition to mismatches between primer binding sites and primers, can lead to a distortion of the true relative abundance of targets in the original DNA pool. A theoretical analysis indicated that a combination of primer-template and primer-amplicon interactions during PCR cycles 3–12 is potentially responsible for this distortion. To test this hypothesis, we developed a novel amplification strategy, entitled “Polymerase-exonuclease (PEX) PCR”, in which primer-template interactions and primer-amplicon interactions are separated. The PEX PCR method substantially and significantly improved the evenness of recovery of sequences from a mock community of known composition, and allowed for amplification of templates with introduced mismatches near the 3’ end of the primer annealing sites. When the PEX PCR method was applied to genomic DNA extracted from complex environmental samples, a significant shift in the observed microbial community was detected. Furthermore, the PEX PCR method provides a mechanism to identify which primers in a primer pool are annealing to target gDNA. Primer utilization patterns revealed that at high annealing temperatures in the PEX PCR method, perfect match annealing predominates, while at lower annealing temperatures, primers with up to four mismatches with templates can contribute substantially to amplification. The PEX PCR method is simple to perform, is limited to PCR mixes and a single exonuclease step which can be performed without reaction cleanup, and is recommended for reactions in which degenerate primer pools are used or when mismatches between primers and template are possible.     

应用多重标记引物增强寡核苷酸芯片的荧光信号强度

寡核苷酸芯片技术是一种高通量发掘和采集生物信息的强大技术平台,目前已广泛应用于生物科学领域 . 为改善寡核苷酸芯片的分析性能,对影响芯片杂交结果的因素,如片基表面的化学处理、探针的长度、间隔臂的长度、杂交条件等,进行了深入的研究和优化 . 对寡核苷酸芯片而言,仍有待解决的问题是如何产生更强的荧光信号来改善其检测灵敏度 . 利用两种类型的多个荧光分子标记的引物,来增强二维寡核苷酸芯片平面上的荧光信号强度 . 两种引物分别命名为：多标记线性引物和多标记分支引物 . 通过增加标记在目标 DNA 片段上的荧光分子数,可以显著增强寡核苷酸芯片上相应捕获探针的信号强度 . 实验表明,使用多标记引物能将所用的寡核苷酸微阵列的检测限 ( 以能够检测的最低模板量计算 ) 降低至单荧光标记引物的 1/100 以下,多重标记技术是一种有效增强微型化探针矩阵检测灵敏度的信号放大方法 .     

New Molecular Screening Tools for Analysis of Free-Living Diazotrophs in Soil

Free-living nitrogen-fixing prokaryotes (diazotrophs) are ubiquitous in soil and are phylogenetically and physiologically highly diverse. Molecular methods based on universal PCR detection of the nifH marker gene have been successfully applied to describe diazotroph populations in the environment. However, the use of highly degenerate primers and low-stringency amplification conditions render these methods prone to amplification bias, while less degenerate primer sets will not amplify all nifH genes. We have developed a fixed-primer-site approach with six PCR protocols using less degenerate to nondegenerate primer sets that all amplify the same nifH fragment as a previously published PCR protocol for universal amplification. These protocols target different groups of diazotrophs and allowed for direct comparison of the PCR products by use of restriction fragment length polymorphism fingerprinting. The new protocols were optimized on DNA from 14 reference strains and were subsequently tested with bulk DNA extracts from six soils. These analyses revealed that the new PCR primer sets amplified nifH sequences that were not detected by the universal primer set. Furthermore, they were better suited to distinguish between diazotroph populations in the different soils. Because the novel primer sets were not specific for monophyletic groups of diazotrophs, they do not serve as an identification tool; however, they proved powerful as fingerprinting tools for subsets of soil diazotroph communities.     

MethyScan：一种甲基化特异性PCR引物设计及评估工具

DNA甲基化是重要的表观遗传现象,对基因表达发挥重要调控功能.大量研究表明,基因DNA甲基化是重要的临床诊断生物标志物.在临床上,实施快速、准确的DNA甲基化状态检测是诊断应用的前提和关键.甲基化特异性PCR(methylation specific PCR,MSP)通过将两种引物与甲基化、非甲基化模板各自特异性结合和扩增,实现基因甲基化状态的区分,是切实可行、简单便捷的临床诊断实验技术.但是,不同于常规PCR,MSP主要存在如何强化引物-甲基化/非甲基化模板特异性结合、降低引物序列Tm值差异、去除假阳性扩增及提高敏感性等四大难点.尽管大多数MSP引物设计软件对上述难题都提出了各自解决办法,但在引物设计影响因素考虑、设计与评估并行处理及特异性扩增预测等方面仍然存在较大缺陷.为此,本研究通过对MethPrimer、MSPPrimer、MethBlast、BiSearch等现有MSP引物设计软件原理的深入探究,以及对Bowtie、SAMtools和BEDTools等工具的有效综合整合,基于图形库Matplotlib和第三方Python功能库BioPython与Primer3-py实现了具有系列优点的甲基化特异性PCR引物设计与评估可视化工具MethyScan.它具有引物设计、基因组索引、引物评估等三大完整功能模块,不仅可快速进行MSP引物设计,实现巢式(Nested)引物适配,还可基于4种基因组碱基转换模板分析引物结合信息,图形化展示非特异性扩增与目的片段差异,从而综合评估引物特异性-非特异性扩增.同时,对食管癌、结直肠癌等多种恶性肿瘤中6个潜在生物标志物TFPI-2、NDRG4、CDKN2A、CD44、CASP8和SDHD的甲基化引物设计对比结果表明,MethyScan不仅可获得更多CpG位点的检测引物,而且所获得MSP引物位置与其他软件结果相同或相近,且引物间Tm值差值更小.总之,作为首个图形化展示特异性-非特异性扩增差异MSP引物设计工具,MethyScan可有效提高甲基化引物设计准确性,为临床DNA甲基化检测项目开展、检测试验实施及诊断试剂盒研发提供有力支撑.MethyScan工具下载地址:https://github.com/bioinfo-ibms-pumc/MethyScan.     

New molecular screening tools for analysis of free-living diazotrophs in soil

Free-living nitrogen-fixing prokaryotes (diazotrophs) are ubiquitous in soil and are phylogenetically and physiologically highly diverse. Molecular methods based on universal PCR detection of the nifH marker gene have been successfully applied to describe diazotroph populations in the environment. However, the use of highly degenerate primers and low-stringency amplification conditions render these methods prone to amplification bias, while less degenerate primer sets will not amplify all nifH genes. We have developed a fixed-primer-site approach with six PCR protocols using less degenerate to nondegenerate primer sets that all amplify the same nifH fragment as a previously published PCR protocol for universal amplification. These protocols target different groups of diazotrophs and allowed for direct comparison of the PCR products by use of restriction fragment length polymorphism fingerprinting. The new protocols were optimized on DNA from 14 reference strains and were subsequently tested with bulk DNA extracts from six soils. These analyses revealed that the new PCR primer sets amplified nifH sequences that were not detected by the universal primer set. Furthermore, they were better suited to distinguish between diazotroph populations in the different soils. Because the novel primer sets were not specific for monophyletic groups of diazotrophs, they do not serve as an identification tool; however, they proved powerful as fingerprinting tools for subsets of soil diazotroph communities.