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Scientific Reports Jun 2021We evaluated the effect of applying different sets of 16S rRNA primers on bacterial composition, diversity, and predicted function in chicken ceca. Cecal contents from...
We evaluated the effect of applying different sets of 16S rRNA primers on bacterial composition, diversity, and predicted function in chicken ceca. Cecal contents from Ross 708 birds at 1, 3, and 5 weeks of age were collected for DNA isolation. Eight different primer pairs targeting different variable regions of the 16S rRNA gene were employed. DNA sequences were analyzed using open-source platform QIIME2 and the Greengenes database. PICRUSt2 was used to determine the predicted function of bacterial communities. Changes in bacterial relative abundance due to 16S primers were determined by GLMs. The average PCR amplicon size ranged from 315 bp (V3) to 769 bp (V4-V6). Alpha- and beta-diversity, taxonomic composition, and predicted functions were significantly affected by the primer choice. Beta diversity analysis based on Unweighted UniFrac distance matrix showed separation of microbiota with four different clusters of bacterial communities. Based on the alpha- and beta-diversity and taxonomic composition, variable regions V1-V3(1) and (2), and V3-V4 and V3-V5 were in most consensus. Our data strongly suggest that selection of particular sets of the 16S rRNA primers can impact microbiota analysis and interpretation of results in chicken as was shown previously for humans and other animal species.
Topics: Animals; Bayes Theorem; Cecum; Chickens; DNA; DNA Primers; DNA, Bacterial; Gastrointestinal Microbiome; Gene Library; High-Throughput Nucleotide Sequencing; Phylogeny; Polymerase Chain Reaction; RNA, Ribosomal, 16S
PubMed: 34088939
DOI: 10.1038/s41598-021-91387-w -
BioTechniques Dec 2021A new approach for improved RT-PCR is described. It is based on primers designed to form controlled stem-loop and homodimer configurations, hence the name...
A new approach for improved RT-PCR is described. It is based on primers designed to form controlled stem-loop and homodimer configurations, hence the name 'double-bubble' primers. The primers contain three main regions for efficient RT-PCR: a 3' short overhang to allow reverse transcription, a stem region for hot start and a template-specific region for PCR amplification. As proof of principle, , SARS-CoV-2 synthetic RNA and SARS-CoV-2 virus-positive nasopharyngeal swabs were used as templates. Additionally, these primers were used to positively confirm the N501Y mutation from nasopharyngeal swabs. Evidence is presented that the double-bubble primers offer fast, specific, robust and cost-effective improvement in RT-PCR amplification for detection of gene expression in general and for diagnostic detection and genotyping of SARS-CoV-2 in particular.
Topics: COVID-19; COVID-19 Nucleic Acid Testing; DNA Primers; Genotype; Humans; Polymerase Chain Reaction; RNA, Viral; SARS-CoV-2; Sensitivity and Specificity
PubMed: 34519222
DOI: 10.2144/btn-2021-0063 -
Nature May 2022During the initiation of DNA replication, oligonucleotide primers are synthesized de novo by primases and are subsequently extended by replicative polymerases to...
During the initiation of DNA replication, oligonucleotide primers are synthesized de novo by primases and are subsequently extended by replicative polymerases to complete genome duplication. The primase-polymerase (Prim-Pol) superfamily is a diverse grouping of primases, which includes replicative primases and CRISPR-associated primase-polymerases (CAPPs) involved in adaptive immunity. Although much is known about the activities of these enzymes, the precise mechanism used by primases to initiate primer synthesis has not been elucidated. Here we identify the molecular bases for the initiation of primer synthesis by CAPP and show that this mechanism is also conserved in replicative primases. The crystal structure of a primer initiation complex reveals how the incoming nucleotides are positioned within the active site, adjacent to metal cofactors and paired to the templating single-stranded DNA strand, before synthesis of the first phosphodiester bond. Furthermore, the structure of a Prim-Pol complex with double-stranded DNA shows how the enzyme subsequently extends primers in a processive polymerase mode. The structural and mechanistic studies presented here establish how Prim-Pol proteins instigate primer synthesis, revealing the requisite molecular determinants for primer synthesis within the catalytic domain. This work also establishes that the catalytic domain of Prim-Pol enzymes, including replicative primases, is sufficient to catalyse primer formation.
Topics: Catalytic Domain; DNA; DNA Primase; DNA Primers; DNA Replication
PubMed: 35508653
DOI: 10.1038/s41586-022-04695-0 -
Methods in Molecular Biology (Clifton,... 2022Overlap extension PCR is one of the routinely used methods to generate mutagenic genes for the functional and structural study of proteins. However, it is time-consuming...
Overlap extension PCR is one of the routinely used methods to generate mutagenic genes for the functional and structural study of proteins. However, it is time-consuming to design the overlapping mutagenic primers and gene primers by manual operation. In this chapter, we present a Python script that is able to search all the possible primer combinations according to the preset definitions and calculate the necessary parameters of each primer for the users, which could facilitate the primer design process. Up to 256 pairs of primers can be provided for selection using this script.
Topics: DNA Primers; Mutagenesis; Mutagenesis, Site-Directed; Polymerase Chain Reaction
PubMed: 35727440
DOI: 10.1007/978-1-0716-2152-3_1 -
Chemical Communications (Cambridge,... Nov 2022Dynamic regulation of DNA origami nanostructures is important for the fabrication of intelligent DNA nanodevices. Toehold-mediated strand displacement is a common...
Dynamic regulation of DNA origami nanostructures is important for the fabrication of intelligent DNA nanodevices. Toehold-mediated strand displacement is a common regulation strategy, which utilizes trigger strands to assemble and disassemble nanostructures. Such trigger strands are required to be completely complementary to the corresponding substrate strands, which strictly demands orthogonality and accuracy of the sequence design. Herein, we present a disassembly strategy of DNA origami dimers based on polymerase-triggered strand displacement, where the polymerase primers, as the trigger strands, were only partially complementary to the toehold region of the substrate strands. To demonstrate the programmability of trigger strands, we utilized primers with different sequence combination patterns to disassemble DNA origami dimers. The statistical summary of AFM images and fluorescence curves proved the feasibility of the new strategy. The utilization of polymerase-triggered strand displacement on the disassembly of DNA origami structures enriches the toolbox for the dynamic regulation of DNA nanostructures.
Topics: Nucleic Acid Conformation; Nanotechnology; DNA; Nanostructures; DNA Primers; Polymers
PubMed: 36321546
DOI: 10.1039/d2cc03684c -
Parasitology Research Nov 2022Avian haemosporidian parasites have received considerable attention in ecology and evolution as a result of their wide distribution and ease of detection. However,...
Avian haemosporidian parasites have received considerable attention in ecology and evolution as a result of their wide distribution and ease of detection. However, conventional PCR-based detection methods may sometimes underestimate haemosporidian mixed infections, which are frequent in natural populations. This underestimation is due to differences in PCR sensitivity for detection of lineages within the mixed infections. Therefore, we designed new primers to amplify sequences that were not detected by the conventional primers and examined if our primers were useful for accurate detection of mixed infections. Blood samples were collected from 32 wild birds captured in Hokkaido, and 16 of these were positive for Leucocytozoon using the conventional primers, while 15 were positive using our primers. All positively amplified samples were sequenced, and we found that the conventional primers detected 16% (5/32) of multiple infections and none of them was a novel lineage, whereas our primers detected 44% (14/32) of multiple infections and ten of them were novel lineages. A phylogenetic analysis showed that the new primers can detect a wide range of Leucocytozoon lineages compared with that detected by the conventional primers. The results indicate that our primers are particularly suitable for revealing unique strains from multiple infections. Highly variable multiple infections in the same population of birds at the same location were found for the first time. We revealed a higher diversity of Leucocytozoon lineages in nature than expected, which would provide more information to better understand parasite diversity and host-vector interactions in wildlife.
Topics: Animals; Bird Diseases; Birds; Coinfection; Cytochromes b; DNA Primers; Haemosporida; Parasites; Phylogeny; Polymerase Chain Reaction; Protozoan Infections, Animal
PubMed: 36121563
DOI: 10.1007/s00436-022-07667-5 -
Chemical Communications (Cambridge,... Jun 2022We herein describe a palindromic hyperbranched rolling circle amplification (PH-RCA) reaction and its application for ultrasensitive detection of microRNAs (miRNAs). In...
We herein describe a palindromic hyperbranched rolling circle amplification (PH-RCA) reaction and its application for ultrasensitive detection of microRNAs (miRNAs). In this strategy, target miRNAs bind to a dumb-bell probe (DP) and initiate the RCA reactions, concomitantly converting the dumb-bell structure to the circular form, which then allows the annealing of the palindromic primers to promote an additional two RCA reactions. As a consequence of the RCA reactions promoted by both target miRNAs and palindromic primers, multiple long concatenated DNA strands would be produced. Importantly, the palindromic primers can also bind to numerous palindromic domains of the long linear single DNA strands, consequently promoting highly branched simultaneous extension reactions at multiple sites. By detecting the fluorescence signals resulting from the amplified DNA products, we successfully identified target miRNA under isothermal conditions with excellent specificity. The PH-RCA technique developed in this work would greatly advance the conventional RCA reaction and HRCA reaction by significantly enhancing the sensitivity and reducing the reaction time within 30 min.
Topics: DNA; DNA Primers; Limit of Detection; MicroRNAs; Nucleic Acid Amplification Techniques
PubMed: 35575999
DOI: 10.1039/d2cc01370c -
Microbiome Mar 2023Sequencing has been widely used to study the composition of the oral microbiome present in various health conditions. The extent of the coverage of the 16S rRNA gene...
BACKGROUND
Sequencing has been widely used to study the composition of the oral microbiome present in various health conditions. The extent of the coverage of the 16S rRNA gene primers employed for this purpose has not, however, been evaluated in silico using oral-specific databases. This paper analyses these primers using two databases containing 16S rRNA sequences from bacteria and archaea found in the human mouth and describes some of the best primers for each domain.
RESULTS
A total of 369 distinct individual primers were identified from sequencing studies of the oral microbiome and other ecosystems. These were evaluated against a database reported in the literature of 16S rRNA sequences obtained from oral bacteria, which was modified by our group, and a self-created oral archaea database. Both databases contained the genomic variants detected for each included species. Primers were evaluated at the variant and species levels, and those with a species coverage (SC) ≥75.00% were selected for the pair analyses. All possible combinations of the forward and reverse primers were identified, with the resulting 4638 primer pairs also evaluated using the two databases. The best bacteria-specific pairs targeted the 3-4, 4-7, and 3-7 16S rRNA gene regions, with SC levels of 98.83-97.14%; meanwhile, the optimum archaea-specific primer pairs amplified regions 5-6, 3-6, and 3-6, with SC estimates of 95.88%. Finally, the best pairs for detecting both domains targeted regions 4-5, 3-5, and 5-9, and produced SC values of 95.71-94.54% and 99.48-96.91% for bacteria and archaea, respectively.
CONCLUSIONS
Given the three amplicon length categories (100-300, 301-600, and >600 base pairs), the primer pairs with the best coverage values for detecting oral bacteria were as follows: KP_F048-OP_R043 (region 3-4; primer pair position for Escherichia coli J01859.1: 342-529), KP_F051-OP_R030 (4-7; 514-1079), and KP_F048-OP_R030 (3-7; 342-1079). For detecting oral archaea, these were as follows: OP_F066-KP_R013 (5-6; 784-undefined), KP_F020-KP_R013 (3-6; 518-undefined), and OP_F114-KP_R013 (3-6; 340-undefined). Lastly, for detecting both domains jointly they were KP_F020-KP_R032 (4-5; 518-801), OP_F114-KP_R031 (3-5; 340-801), and OP_F066-OP_R121 (5-9; 784-1405). The primer pairs with the best coverage identified herein are not among those described most widely in the oral microbiome literature. Video Abstract.
Topics: Humans; Archaea; RNA, Ribosomal, 16S; Genes, rRNA; DNA Primers; Bacteria; Microbiota; High-Throughput Nucleotide Sequencing; Phylogeny
PubMed: 36949474
DOI: 10.1186/s40168-023-01481-6 -
BMC Bioinformatics Jun 2022This paper presents a new R/Bioconductor package, rprimer, for design of degenerate oligos and PCR assays for sequence variable viruses. A multiple DNA sequence...
BACKGROUND
This paper presents a new R/Bioconductor package, rprimer, for design of degenerate oligos and PCR assays for sequence variable viruses. A multiple DNA sequence alignment is used as input data, while the outputs consist of comprehensive tables (data frames) and dashboard-like plots. The workflow can be run directly from the R console or through a graphical user interface (Shiny application). Here, rprimer is demonstrated and evaluated by using it to design two norovirus genogroup I (GI) assays: one RT-qPCR assay for quantitative detection and one RT‑PCR assay for Sanger sequencing and polymerase-capsid based genotyping.
RESULTS
The assays generated were evaluated using stool samples testing positive for norovirus GI. The RT-qPCR assay accurately amplified and quantified all samples and showed comparable performance to a widely-used standardised assay, while the RT-PCR assay resulted in successful sequencing and genotyping of all samples. Merits and limitations of the package were identified through comparison with three similar freely available software packages. Several features were comparable across the different tools, but important advantages of rprimer were its speed, flexibility in oligo design and capacity for visualisation.
CONCLUSIONS
An R/Bioconductor package, rprimer, was developed and shown to be successful in designing primers and probes for quantitative detection and genotyping of a sequence-variable virus. The package provides an efficient, flexible and visual approach to degenerate oligo design, and can therefore assist in virus research and method development.
Topics: DNA Primers; Norovirus; Real-Time Polymerase Chain Reaction; Sequence Alignment
PubMed: 35717145
DOI: 10.1186/s12859-022-04781-0 -
Brazilian Journal of Microbiology :... Mar 2022Burkholderia pseudomallei causes a fatal and infectious disease, melioidosis or Whitmore's disease in humans and animals. Melioidosis is present in different parts of...
Burkholderia pseudomallei causes a fatal and infectious disease, melioidosis or Whitmore's disease in humans and animals. Melioidosis is present in different parts of the world and is endemic in Southeast Asia and Northern Australia. Accurate diagnosis of melioidosis is difficult due to its common flu-like symptoms, potentially long incubation period and erroneous identification as culture contaminant. Early diagnosis of the disease is essentially required for administration of suitable antibiotics and disease containment. The present study reports a rapid, specific and sensitive recombinase polymerase amplification lateral flow assay for detection of B. pseudomallei. Specific primers and probe were designed and the assay was performed at 41 °C for 20 min in a portable incubator. End products were detected using ready-to-use lateral flow strips. RPA lateral flow assay could detect ≥ 250 fg genomic DNA of B. pseudomallei and ≥ 50 copies of recombinant plasmid harbouring the target DNA sequence. The assay was found to be highly specific and did not cross-react with other bacterial strains. In artificially spiked human blood and urine samples, the detection limit of the assay was 4.8 × 10 and 4.95 × 10 CFU/mL of B. pseudomallei, respectively. The detection limit of assay after 6 h of enrichment of artificially spiked urine samples was found to be 4.95 × 10 CFU/mL of B. pseudomallei. Detection limit in artificially spiked tap water and soil samples was determined to be 7.5 × 10 CFU/mL and 3.3 × 10 CFU per 5 g of B. pseudomallei, respectively.
Topics: Animals; Burkholderia pseudomallei; DNA Primers; Humans; Melioidosis; Recombinases
PubMed: 35006582
DOI: 10.1007/s42770-021-00669-y