Project description:Comparing sequences of archived viruses collected over many years to the present allows the study of viral evolution and contributes to the design of new vaccines. However, the difficulty, time and expense of generating full-length sequences individually from each archived sample have hampered these studies. Next generation sequencing technologies have been utilized for analysis of clinical and environmental samples to identify viral pathogens that may be present. This has led to the discovery of many new, uncharacterized viruses from a number of viral families. Use of these sequencing technologies would be advantageous in examining viral evolution. In this study, a sequencing procedure was used to sequence simultaneously and rapidly multiple archived samples using a single standard protocol. This procedure utilized primers composed of 20 bases of known sequence with 8 random bases at the 3'-end that also served as an identifying barcode that allowed the differentiation each viral library following pooling and sequencing. This conferred sequence independence by random priming both first and second strand cDNA synthesis. Viral stocks were treated with a nuclease cocktail to reduce the presence of host nucleic acids. Viral RNA was extracted, followed by single tube random-primed double-stranded cDNA synthesis. The resultant cDNAs were amplified by primer-specific PCR, pooled, size fractionated and sequenced on the Ion Torrent PGM platform. The individual virus genomes were readily assembled by both de novo and template-assisted assembly methods. This procedure consistently resulted in near full length, if not full-length, genomic sequences and was used to sequence multiple bovine pestivirus and coronavirus isolates simultaneously.

Project description:Although RNA-seq is a powerful tool, the considerable time and cost associated with library construction has limited its utilization for various applications. RNAtag-Seq, an approach to generate multiple RNA-seq libraries in a single reaction, lowers time and cost per sample, and it produces data on prokaryotic and eukaryotic samples that are comparable to those generated by traditional strand-specific RNA-seq approaches.

Project description:We have developed a dry-reagent dipstick test for simultaneous visual detection of two alleles in single nucleotide polymorphisms (SNPs). The strip comprises two test zones and a control zone. Oligonucleotide-functionalized gold nanoparticles are used as reporters. PCR-amplified DNA that spans the interrogated sequence is subjected to primer extension (PEXT) reactions using allele-specific primers. Digoxigenin-dUTP and biotin-dUTP are incorporated in the extended fragments. The primers contain an oligo(dA) segment at the 5' end. The PEXT products are applied to the sample area of the strip, which is then immersed in the appropriate buffer. As the buffer migrates along the strip by capillary action, the extension products of the two alleles are captured at the test zones from immobilized anti-digoxigenin and streptavidin, whereas the oligo(dA) segment of the primers hybridizes with oligo(dT) strands attached to gold nanoparticles, thus generating characteristic red lines. The excess nanoparticles are captured from immobilized oligo(dA) strands at the control zone of the strip. The test was applied to the genotyping of two SNPs of the Toll-like receptor 4 gene (Asp299Gly and Thr399Ile), one SNP of CYP2C19 gene (CYP2C19(*)3) and one SNP of the TPMT gene (TPMT(*)2). Contrary to most genotyping methods, the dipstick test does not require costly specialized equipment for detection of PEXT products. The PCR product is pipetted directly into the PEXT reaction mixture without prior purification. The high sensitivity of the strip allows completion of PEXT reaction in three cycles only (7 min). The visual detection of both alleles is complete in 15 min.

Project description:Single-cell assay for transposase-accessible chromatin with sequencing (scATAC-seq) resolves the heterogeneity of epigenetic states across cells but does not typically capture exonic mutations, which limits our knowledge of how somatic mutations alter chromatin landscapes. Here, we present a plate-based approach coupling high-sensitivity genotyping of genomic loci with high-content scATAC-seq libraries from the same single cells. We first describe steps for optimization of genotyping primers, followed by detailed guidance on the preparation of both scATAC-seq and single-cell genotyping libraries, fully automated on high-throughput liquid handling platforms. For complete details on the use and execution of this protocol, please refer to Turkalj, Jakobsen et al.1.

Project description:IntroductionThe molecular biology detection technology of the human ABO blood group system makes up for the limitations in many aspects compared with conventional serological typing technology. This study aimed to establish a new method to identify seven common ABO alleles (ABO*A1.01, ABO*A1.02, ABO*A2.01, ABO*B.01, ABO*O.01.01, ABO*O.01.02, and ABO*O.02.01) by two-dimensional polymerase chain reaction (2D PCR). 2D PCR can identify multiple target genes in a closed test tube by labeling specific primers with tags homologous to the sequence of fluorescently labeled probes, and melting curve analysis is performed after the fluorescent probes are hybridized with tag complementary sequences in PCR-specific products. In this study, 2D PCR and PCR sequence-specific primer (PCR-SSP) were combined to discriminate different alleles in a single reaction, which has the characteristics of high throughput, and compared with other typing techniques; the typing results can be obtained without additional operations.MethodsThe ABO*A1.01 allele genetic sequence was used as the reference sequence. The specific sense and antisense primers for seven common ABO alleles were designed on exons 6 and 7 according to the principle of 2D PCR and PCR-SSP. Single nucleotide polymorphism sites for identifying seven alleles were detected in FAM and HEX channels, respectively. Two hundred sixty DNA samples were enrolled for rapid ABO genotyping by 2D PCR, and 95 of them were selected for Sanger sequencing. The Kappa test was used to analyze the agreement of the methodologies.ResultsThese 7 alleles each had four characteristic melting valleys at different single nucleotide polymorphism loci. A total of 15 genotypes were detected, including ABO*A1.01/A1.02, ABO*A1.01/O.01.01, ABO*A1.01/O.01.02, ABO*A1.02/A1.02, ABO*A1.02/O.01.01, ABO*A1.02/O.01.02, ABO*B.01/B.01, ABO*B.01/O.01.01, ABO*B.01/O.01.02, ABO*O.01.01/O.01.01, ABO*O.01.01/O.01.02, ABO*O.01.02/O.01.02, ABO*A1.01/B.01, ABO*A1.02/B.01, and ABO*B.01/O.01. v (containing a rare ABO*O allele, based on the sequencing results). The Kappa test showed completely consistent results for 2D PCR and Sanger sequencing (Kappa = 1).ConclusionThe 2D PCR technique could be used for molecular typing of the ABO blood group, which was efficient, rapid, accurate, and economical.

Project description:Seed dormancy is a complex life history trait that determines the timing of germination and is crucial for local adaptation. Genetic studies of dormancy are challenging, because the trait is highly plastic and strongly influenced by the maternal environment. Using a combination of statistical and experimental approaches, we show that multiple alleles at the previously identified dormancy locus DELAY OF GERMINATION1 jointly explain as much as 57% of the variation observed in Swedish Arabidopsis thaliana, but give rise to spurious associations that seriously mislead genome-wide association studies unless modeled correctly. Field experiments confirm that the major alleles affect germination as well as survival under natural conditions, and demonstrate that locally adaptive traits can sometimes be dissected genetically.

Project description:The serotonin transporter, called SLC6A4, SERT or 5-HTT, modulates neurotransmission by removal of serotonin from the synapse of serotonergic neurons, facilitating serotonin reuptake into the presynaptic terminus. Selective serotonin reuptake inhibitors block the action of the serotonin transporter and are used to treat depression and other neuropsychiatric disorders. Three polymorphisms in the 5-HTT gene have been implicated in treatment response and neuropsychiatric disorders. A 44-bp promoter ins/del polymorphism (5-HTTLPR) produces primarily long and/or short alleles due to either 14 (short) or 16 (long) repeats of variably conserved 20-23 bp units. Also implicated, a 17-18 bp variable number tandem repeat found in intron2 (StIn2) is expressed as triallelic content with 9, 10, or 12 repeats (StIn2.9, StIn2.10 or StIn2.12). Finally, a single nucleotide polymorphism rs25531 located within the promoter polymorphic-linked region alters the function of the long promoter allele. We developed a PCR-based fragment analysis assay, which is analyzed on an ABI sequencer, whereby we are able to detect all three genotypes simultaneously. Using this technique, we identified novel sequences, which demonstrate promoter repeat regions containing (1) a 17 repeat with rs25531 A/G polymorphism, (2) two with 18-repeat units, (3) one with 20-repeat units and (4) a 24-repeat sequence. The novel repeats were confirmed by direct sequencing of gel-purified amplicons.

Project description:The ability to compare the abundance of one RNA molecule to another is a crucial step for understanding how gene expression is modulated to shape the transcriptome landscape. However, little information is available about the relative expression of the different classes of coding and non-coding RNA or even between RNA of the same class. In this study, we present a complete portrait of the human transcriptome that depicts the relationship of all classes of non-ribosomal RNA longer than sixty nucleotides. The results show that the most abundant RNA in the human rRNA-depleted transcriptome is tRNA followed by spliceosomal RNA. Surprisingly, the signal recognition particle RNA 7SL by itself occupied 8% of the ribodepleted transcriptome producing a similar number of transcripts as that produced by all snoRNA genes combined. In general, the most abundant RNA are non-coding but many more protein coding than non-coding genes produce more than 1 transcript per million. Examination of gene functions suggests that RNA abundance reflects both gene and cell function. Together, the data indicate that the human transcriptome is shaped by a small number of highly expressed non-coding genes and a large number of moderately expressed protein coding genes that reflect cellular phenotypes.

Project description:A detection system based on a multiplex reverse transcription (RT) polymerase chain reaction (PCR) was developed to simultaneously identify multiple viruses in the lily plant. The most common viruses infecting lily plants are the cucumber mosaic virus (CMV), lily mottle virus (LMoV), lily symptomless virus (LSV). Leaf samples were collected at lily-cultivation facilities located in the Kangwon province of Korea and used to evaluate the detection system. Simplex and multiplex RT-PCR were performed using virus-specific primers to detect single-or mixed viral infections in lily plants. Our results demonstrate the selective detection of 3 different viruses (CMV, LMoV and LSV) by using specific primers as well as the potential of simultaneously detecting 2 or 3 different viruses in lily plants with mixed infections. Three sets of primers for each target virus, and one set of internal control primers were used to evaluate the detection system for efficiency, reliability, and reproducibility.

Project description:BACKGROUND: Hepatitis C virus (HCV) genotype distribution is different in various regions. A variety of strategies could be used to detect HCV genotypes and subtypes. The aim of the present study was to introduce a genotyping method by an in-house protocol that could be used to determine HCV drug-resistant variants and phylogeny studies. METHODS: Samples from 91 patients with thalassemia were used for HCV genotyping by Cobas 4800 platform, and 50 cases of 1a, 1b, and 3a genotypes underwent amplification and sequencing of NS5A and NS5B by using consensus primers via conventional reverse transcription-polymerase chain reaction (RT-PCR) method. An ABI 3730xl system used for direct sequencing. Raw sequences were analyzed by popular bioinformatics software MEGA6 and CLC workbench 5. Phylogenetic construction was drawn using 1000 replicates bootstrap by the neighbor-joining method. Multiple sequence alignment (MSA) was performed for mutation detection. RESULTS: Sequencing results of 50 HCV isolates subtypes 1a (31/45), 3a (15/22) and 1b (4/8) NS5A and NS5B genes showed there were 72 NS5A and 105 NS5B mutations. Moreover, 8 resistant associated substitutions (RASs) were identified in nine thalassemia cases by multiple sequence alignment (MSA) protein analysis. The phylogenetic tree construct drew confirmed by the Cobas HCV genotyping results. CONCLUSION: The phylogenetic analysis could be a useful tool for HCV genotyping in case of determining the drug-resistant substitutions; however, it is time-consuming and needs expert analysis and interpretation. This preliminary study in Iranian patients with thalassemia introduces specific conventional RT-PCR to find RASs to direct acting antivirals (DAAs) and subtype determination at the same time.