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Whether you would like to detect the diversity of microbial communities or discover rare somatic mutations in complex samples. CD Genomics could provide professional, cost-efficient and high-speed amplicon sequencing services to meet your project requirements.<br>
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Amplicon Sequencing Services Amplicon sequencing is based on NGS technology or PacBio SMRT sequencing. The ultra-deep sequencing of amplicons (PCR products) allows efficient variant identification and characterization. This technique has a wide range of applications, including 16S/18S/ITS gene sequencing, SNP genotyping, CRISPR sequencing, somatic/complex variant discovery, antibody screening sequencing, immune repertoire sequencing, et al. Whether you would like to detect the diversity of microbial communities or discover rare somatic mutations in complex samples. CD Genomics could provide professional, cost-efficient and high-speed amplicon sequencing services to meet your project requirements. Key Features and Advantages Providing high-sensitive detection levels through ultra-deep sequencing Achieving high coverage by sequencing hundreds of thousands of amplicons per reaction Cost-efficient and fast turnaround time Microbial culture is not necessary Wide range of amplicons from 100 bp to 10 kb Sample Types Purified or unpurified PCR products, fragmented DNA, gDNA, restriction digested material, and plasmids. Sequencing Workflow Fig.1 Sequencing workflow. Sequencing strategies CD genomics recommended
Table 1. Strategies for amplicon sequencing. Amplicon Size Sequencing Configuration Applications SNP Genotyping Genome editing clone verification Somatic/complex variant discovery 100-250 bp Illumina PE 150 Antibody heavy or light chain 16S/18S/ITS gene sequencing 250-550 bp Illumina PE 250/300 Paired antibody heavy and light chains Full-length 16S Variant phasing >550 bp PacBio Sequel Information analysis process For diversity detection Data quality control OTU clustering Alpha Diversity (Sample complexity analysis) Beta Diversity (Multi-sample comparative analysis, PCoA/PCA/NMDS/Simper) Analysis of species differences between groups (T-test/Metastat/ LEfSe) Analysis of community structure differences between groups (Anosim/MRPP/Adonis/Amova) Correlation analysis of environmental factors (Spearman/Mantel test/CCA/RDA/dbRDA/VPA) Network analysis Function prediction (PICRUSt/FAPROTAX/Tax4fun/FunGuild) Advanced analysis (enterotype analysis/ Bayesian analysis) For variant identification
Fig.2 Data analysis for variant identification. References 1. Betge J, Kerr G, Miersch T, et al. 2015. Amplicon sequencing of colorectal cancer: variant calling in frozen and formalin-fixed samples. Plos One 10:e0127146. Ison SA, Delannoy S, Bugarel M, et al. 2016. Targeted amplicon sequencing for single-nucleotide-polymorphism genotyping of attaching and effacing Escherichia coli O26:H11 cattle strains via a high-throughput library preparation technique. Appl Environ Microbiol 82:640-649. 2. Source: https://www.cd-genomics.com/amplicon-sequencing-services.html