With the rise of next-generation sequencing methods, it has become increasingly possible to obtain genomewide sequence data even for nonmodel species. Such data are often used for the development of single nucleotide polymorphism (SNP) markers, which can subsequently be screened in a larger population sample using a variety of genotyping techniques. Many of these techniques require appropriate locus-specific PCR and genotyping primers. Currently, there is no publicly available software for the automated design of suitable PCR and genotyping primers from next-generation sequence data. Here we present a pipeline called Scrimer that automates multiple steps, including adaptor removal, read mapping, selection of SNPs and multiple primer design from transcriptome data. The designed primers can be used in conjunction with several widely used genotyping methods such as SNaPshot or MALDI-TOF genotyping. Scrimer is composed of several reusable modules and an interactive bash workflow that connects these modules. Even the basic steps are presented, so the workflow can be executed in a step-by-step manner. The use of standard formats throughout the pipeline allows data from various sources to be plugged in, as well as easy inspection of intermediate results with visualization tools of the user's choice.

• Keywords
• SNP genotyping, SNaPshot, next-generation sequencing, primer design, transcriptome,
• MeSH
• DNA Primers genetics   MeSH
• Genotyping Techniques methods   MeSH
• Polymerase Chain Reaction methods   MeSH
• Sequence Analysis, DNA methods   MeSH
• Transcriptome * MeSH
• Computational Biology methods   MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• DNA Primers MeSH

Tuber aestivum is becoming an important commodity of great economical value in some European countries. At the same time, it is a highly protected organism in other countries, where it needs careful treatment. A reliable method of detection in roots and soil is thus needed for assessment of geographic distribution, ecological studies and inoculation efficiency testing in man-made experiments. A PCR-based method of detection of T. aestivum using specific primers was therefore developed. A pair of PCR primers Tu1sekvF/Tu2sekvR selective for T. aestivum and some genotypes of Tuber mesentericum was designed on the basis of the known internal transcribed spacer T. aestivum sequences. TaiI restriction cleavage was then used to distinguish the two species. The selectivity of the designed primer pair was evaluated using DNA extracted from specimens of a further 13 Tuber spp. Subsequently, the selectivity and robustness to false-positive results with nontarget DNA of the designed primers was compared with two other primer pairs (UncI/UncII and BTAE-F/BTAEMB-R). The occurrence of T. aestivum in soil and ectomycorrhizae collected in its native habitat has been successfully detected using the designed primers and nested PCR. The method is reliable and thus suitable for detection of T. aestivum in the field.

• MeSH
• Ascomycota classification   genetics   isolation & purification   MeSH
• DNA Primers genetics   MeSH
• Molecular Sequence Data MeSH
• Mycorrhizae classification   genetics   isolation & purification   MeSH
• Polymerase Chain Reaction instrumentation   methods   MeSH
• Soil Microbiology * MeSH
• Publication type
• Journal Article MeSH
• Evaluation Study MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• DNA Primers MeSH

Dideoxynucleotide DNA sequencing is one of the principal procedures in molecular biology. Loss of an initial part of nucleotides behind the 3' end of the sequencing primer limits the readability of sequenced amplicons. We present a method which extends the readability by using sequencing primers modified by polyadenylated tails attached to their 5' ends. Performing a polymerase chain reaction, we amplified eight amplicons of six human genes (AMELX, APOE, HFE, MBL2, SERPINA1 and TGFB1) ranging from 106 bp to 680 bp. Polyadenylation of the sequencing primers minimized the loss of bases in all amplicons. Complete sequences of shorter products (AMELX 106 bp, SERPINA1 121 bp, HFE 208 bp, APOE 244 bp, MBL2 317 bp) were obtained. In addition, in the case of TGFB1 products (366 bp, 432 bp, and 680 bp, respectively), the lengths of sequencing readings were significantly longer if adenylated primers were used. Thus, single strand dideoxynucleotide sequencing with adenylated primers enables complete or near complete readability of short PCR amplicons.

• MeSH
• Dideoxynucleotides genetics   MeSH
• DNA Primers MeSH
• Humans MeSH
• Polymerase Chain Reaction * MeSH
• Sequence Analysis, DNA * MeSH
• Nucleic Acid Amplification Techniques * MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• Dideoxynucleotides MeSH
• DNA Primers MeSH

Plants and animals differ in the sequence context of the methylated sites in DNA. Plants exhibit cytosine methylation in CG, CHG, and CHH sites, whereas CG methylation is the only form present in mammals (with an exception of the early embryonic development). This fact must be taken into account in the design of primers for bisulfite-based genomic sequencing because CHG and CHH sites can remain unmodified. Surprisingly, no user-friendly primer design program is publicly available that could be used to design primers in plants and to simultaneously check the properties of primers such as the potential for primer-dimer formation. For studies concentrating on particular DNA loci, the correct design of primers is crucial. The program, called BisPrimer, includes 2 different subprograms for the primer design, the first one for mammals and the second one for angiosperm plants. Each subprogram is divided into 2 variants. The first variant serves to design primers that preferentially bind to the bisulfite-modified primer-binding sites (C to U conversion). This type of primer preferentially amplifies the bisulfite-converted DNA strands. This feature can help to avoid problems connected with an incomplete bisulfite modification that can sometimes occur for technical reasons. The second variant is intended for the analysis of samples that are supposed to consist of a mixture of DNA molecules that have different levels of cytosine methylation (e.g., pollen DNA). In this case, the aim is to minimize the selection in favor of either less methylated or more methylated molecules.

• MeSH
• Computer-Aided Design * MeSH
• DNA Primers chemistry   genetics   MeSH
• Magnoliopsida genetics   MeSH
• DNA Methylation MeSH
• Mammals genetics   MeSH
• Sequence Analysis, DNA methods   MeSH
• Sulfites chemistry   MeSH
• Software * MeSH
• Animals MeSH
• Check Tag
• Animals MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• DNA Primers MeSH
• hydrogen sulfite MeSH Browser
• Sulfites MeSH

Enzymatic synthesis of short (10-22 nt) base-modified oligonucleotides (ONs) was developed by nicking enzyme amplification reaction (NEAR) using Vent(exo-) polymerase, Nt.BstNBI nicking endonuclease, and a modified deoxyribonucleoside triphosphate (dNTP) derivative. The scope and limitations of the methodology in terms of different nucleobases, length, sequences, and modifications has been thoroughly studied. The methodology including isolation of the modified ONs was scaled up to nanomolar amounts and the modified ONs were successfully used as primers in primer extension and PCR. Two simple and efficient methods for fluorescent labeling of the PCR products were developed, based either on direct fluorescent labeling of primers or on NEAR synthesis of ethynylated primers, PCR, and final click labeling with fluorescent azides.

• MeSH
• Azides chemistry   MeSH
• Deoxyribonucleotides chemical synthesis   chemistry   metabolism   MeSH
• DNA Primers biosynthesis   genetics   MeSH
• Endonucleases metabolism   MeSH
• Fluorescent Dyes chemistry   MeSH
• Molecular Structure MeSH
• Oligonucleotides biosynthesis   MeSH
• Polymerase Chain Reaction * MeSH
• Click Chemistry MeSH
• Nucleic Acid Amplification Techniques * MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• Azides MeSH
• Deoxyribonucleotides MeSH
• DNA Primers MeSH
• Endonucleases MeSH
• Fluorescent Dyes MeSH
• Oligonucleotides MeSH

Haloalkane dehalogenases (HLDs) are hydrolytic enzymes that cleave carbon-halogen bonds in various halogenated compounds. Interest initially grew in HLDs as biocatalysts for bioremediation and later for biotransformation applications; each specific HLD within the HLD family has its own substrate specificity, enantioselectivity and product inhibition characteristics. We developed degenerate oligonucleotide primers for HLD-encoding genes and used these to PCR-amplify large hld gene fragments using genomic DNA from the microbial community of a chlorinated-solvent-contaminated aquifer as a template. An analysis of small subunit ribosomal RNA genes revealed a high complexity in the eubacterial population, dominated by α-, β- and γ-Proteobacteria, and Acidobacteria. Using HLD-family-specific primers, we also retrieved transcribed hld homologues from the microbial consortium of this contaminated site. The DNA-derived hld sequences were phylogenetically broadly distributed over both HLD subclasses I and II. Most hld sequences of the environmental RNA data set clustered in three groups within both HLD subclasses, indicating that a considerable proportion of the microbial consortium carrying hld genes was actively involved in haloalkane dehalogenation. The small sequence variation in hld genes and transcripts within each HLD cluster inferred the presence of a substantial pool of highly related HLD genes. The sequence variability appeared to be unevenly distributed over the HLD genes, however, with no apparent preference for a particular protein segment or domain.

• MeSH
• Bacteria enzymology   genetics   MeSH
• Bacterial Proteins chemistry   genetics   MeSH
• RNA, Bacterial analysis   chemistry   MeSH
• DNA Primers * MeSH
• Phylogeny MeSH
• Hydrolases chemistry   genetics   MeSH
• Consensus Sequence MeSH
• Metagenome * MeSH
• Molecular Sequence Data MeSH
• Polymerase Chain Reaction methods   MeSH
• Amino Acid Sequence MeSH
• Sequence Alignment MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• Bacterial Proteins MeSH
• RNA, Bacterial MeSH
• DNA Primers * MeSH
• haloalkane dehalogenase MeSH Browser
• Hydrolases MeSH

The diagnosis of low grade prosthetic joint infection is difficult and time consuming. Nested-PCR for universal bacterial DNA segments detection of "orthopaedic" bacteria was tested in a laboratory setting. This method is based on amplification of the 16S bacterial ribosomal RNA coding sequences. 11 species of the most frequent bacterial pathogens (Staphylococcus aureus, Staphylococcus epidermidis, Streptococcus pyogenes, Streptococcus agalactiae, Enterococcus faecium, Enterococcus faecalis, Klebsiella pneumoniae, Escherichia coli, Proteus mirabilis, Pseudomonas aeruginosa, Serratia marcescens) involved in prosthetic joint infections were studied. All could be detected rapidly and sensitively by this method.

• MeSH
• Bacteria isolation & purification   MeSH
• Bacterial Infections microbiology   MeSH
• DNA Primers MeSH
• Prosthesis-Related Infections microbiology   MeSH
• Joints microbiology   MeSH
• Humans MeSH
• Polymerase Chain Reaction MeSH
• Joint Prosthesis * MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• DNA Primers MeSH

UNLABELLED: Anoxygenic phototrophs represent an environmentally important and phylogenetically diverse group of organisms. They harvest light using bacteriochlorophyll-containing reaction centers. Recently, a novel phototrophic bacterium, Gemmatimonas phototrophica, belonging to a rarely studied phylum, Gemmatimonadetes, was isolated from a freshwater lake in the Gobi Desert. To obtain more information about the environmental distribution of phototrophic Gemmatimonadetes, we collected microbial samples from the water column, upper sediment, and deeper anoxic sediment of Lake Taihu, China. MiSeq sequencing of the 16S rRNA, pufM, and bchY genes was carried out to assess the diversity of local phototrophic communities. In addition, we designed new degenerate primers of aerobic cyclase gene acsF, which serves as a convenient marker for both phototrophic Gemmatimonadetes and phototrophic Proteobacteria Our results showed that most of the phototrophic species in Lake Taihu belong to Alpha- and Betaproteobacteria Sequences of green sulfur and green nonsulfur bacteria (phototrophic Chlorobi and Chloroflexi, respectively) were found in the sediment. Using the newly designed primers, we identified a diverse community of phototrophic Gemmatimonadetes forming 30 operational taxonomic units. These species represented 10.5 and 17.3% of the acsF reads in the upper semiaerobic sediment and anoxic sediment, whereas their abundance in the water column was <1%. IMPORTANCE: Photosynthesis is one of the most fundamental biological processes on Earth. Recently, the presence of photosynthetic reaction centers has been reported from a rarely studied bacterial phylum, Gemmatimonadetes, but almost nothing is known about the diversity and environmental distribution of these organisms. The newly designed acsF primers were used to identify phototrophic Gemmatimonadetes from planktonic and sediment samples collected in Lake Taihu, China. The Gemmatimonadetes sequences were found mostly in the upper sediments, documenting the preference of Gemmatimonadetes for semiaerobic conditions. Our results also show that the phototrophic Gemmatimonadetes present in Lake Taihu were relatively diverse, encompassing 30 operational taxonomic units.

• MeSH
• Bacteria classification   enzymology   genetics   MeSH
• Bacterial Proteins genetics   MeSH
• DNA, Bacterial chemistry   genetics   MeSH
• DNA Primers MeSH
• Geologic Sediments microbiology   MeSH
• Lakes microbiology   MeSH
• Polymerase Chain Reaction MeSH
• DNA, Ribosomal chemistry   genetics   MeSH
• RNA, Ribosomal, 16S genetics   MeSH
• Sequence Analysis, DNA MeSH
• Biota * MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Geographicals
• China MeSH
• Names of Substances
• Bacterial Proteins MeSH
• DNA, Bacterial MeSH
• DNA Primers MeSH
• DNA, Ribosomal MeSH
• RNA, Ribosomal, 16S MeSH

The common feature of all chytridiomycetous fungi, aerobic as well as anaerobic, is an abundance of chitin in their cell wall. The genes coding for chitinases have therefore been widely used as phylogenetic markers in ascomycetes. As their utility for Chytridiomycetes has not been determined we chose the gene encoding an enzyme involved in chitin degradation and energy metabolism, the beta-(1,4)-N-acetylglucosaminidase (nag1). Primer pair Nag-forward and Nag-reverse was used to create PCR product from 5 strains of anaerobic and 7 strains of aerobic chytrids. However, Blast search of sequenced amplicons showed that these primers are specific only for fungus Emericella nidulans. Amino acid alignment of Nag1 proteins of fungal, protozoal and bacterial origin available in GenBank database was therefore performed. Five amino acid regions were found to be conserved enough to serve as a suitable domain for the design of a set of primers for the universal amplification of the nag1 gene in the Neocallimastigales fungi.

• MeSH
• Acetylglucosaminidase chemistry   genetics   MeSH
• Aerobiosis MeSH
• Anaerobiosis MeSH
• Chytridiomycota enzymology   genetics   MeSH
• DNA, Fungal analysis   isolation & purification   MeSH
• DNA Primers genetics   MeSH
• Fungal Proteins genetics   MeSH
• Fungi classification   enzymology   genetics   growth & development   MeSH
• Polymerase Chain Reaction MeSH
• Nucleic Acid Amplification Techniques methods   MeSH
• Publication type
• Journal Article MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• Acetylglucosaminidase MeSH
• DNA, Fungal MeSH
• DNA Primers MeSH
• Fungal Proteins MeSH

In this study, we reported on the design of a multiplex real-time PCR assay based on SYBR Green I, incorporating dual priming adenine-thymine (AT)-rich primers for direct detection of MRSA from nasal samples. The multiplex real-time polymerase chain reaction (RT-PCR) assay reported in this study is based on SYBR Green I with incorporation of six dual priming AT-rich primers designed from the SCCmec/orf junction. A string (4-6 bp) of low-melting bases, such as adenine and thymine, was incorporated into the primers, which virtually divided a single primer in two functional regions, thus decreasing non-specific PCR products. The analytical sensitivity and specificity of the RT-PCR assay was determined with genomic DNA of reference strains (MRSA, MSSA, and MRCoNS). RT-PCR assay was performed for analysis of 72 nasal swab specimens, and the results were confirmed by use of a culture method. Furthermore, the results of RT-PCR were compared with LightCycler MRSA advance test. The multiplex RT-PCR assay reproducibly detected a minimum of 1 pg genomic DNA (31.5 copy of genome) of MRSA reference strains and clinical isolates, with a specific melting peak at 83.5 ± 1.5°C, and neither fluorescence nor a melting peak was detected in non-target isolates. The concordance rate between RT-PCR assay and culture method was 87.5% with Cohen's kappa value (κ) 0.75, which showed good agreement between the two assays. The sensitivity, specificity, positive predictive value, and negative predictive value of the assay were 93.5%, 82.9%, 80.5%, and 94.4%, respectively. In a comparative study for the detection of 72 nasal samples, the sensitivity, specificity, positive predictive value, and negative predictive value of the multiplex RT-PCR assay with respect to LightCycler MRSA advance test was 84.2%, 88.2%, 89%, and, 83.3%, respectively. The results of RT-PCR assay demonstrated high specificity (88.2%) and positive predictive value (89%) for the direct detection of MRSA from nasal samples.

• MeSH
• DNA Primers genetics   MeSH
• Real-Time Polymerase Chain Reaction methods   MeSH
• Humans MeSH
• Methicillin-Resistant Staphylococcus aureus classification   genetics   isolation & purification   MeSH
• Molecular Sequence Data MeSH
• Multiplex Polymerase Chain Reaction methods   MeSH
• Nose microbiology   MeSH
• Base Sequence MeSH
• Staphylococcal Infections diagnosis   microbiology   MeSH
• Check Tag
• Humans MeSH
• Publication type
• Journal Article MeSH
• Evaluation Study MeSH
• Research Support, Non-U.S. Gov't MeSH
• Names of Substances
• DNA Primers MeSH