Next-generation sequencing (NGS) is a high-throughput technology that enables the simultaneous sequencing of millions of DNA fragments. This technology has revolutionized the field of genomics and has become an essential tool in various applications, including genetic research, drug discovery, and clinical diagnostics. However, before sequencing can be performed, a crucial step is the preparation of the sample. NGS sample preparation involves several critical steps, including DNA extraction, library preparation, and quality control, among others. In this blog, we will discuss each of these steps in detail.
DNA Extraction
The first step in NGS sample preparation is DNA extraction. DNA extraction involves the isolation of genomic DNA from the sample material. There are several methods available for DNA extraction, including column-based methods, magnetic bead-based methods, and organic solvent-based methods. The choice of method depends on the type of sample material, the quantity and quality of DNA required, and the downstream applications.
Column-based methods use silica columns to bind the DNA, and the DNA is then eluted from the column. These methods are widely used as they are efficient and provide high-quality DNA suitable for NGS. Magnetic bead-based methods involve the use of magnetic beads to bind the DNA. These methods are highly efficient and provide high yields of high-quality DNA. Organic solvent-based methods involve the use of organic solvents such as phenol-chloroform to extract DNA. These methods are efficient but can be time-consuming and require additional purification steps to remove contaminants.
Library Preparation
Once the genomic DNA has been extracted, the next step is library preparation. Library preparation involves several steps, including fragmentation, end-repair, adaptor ligation, and amplification. The aim of library preparation is to generate a library of DNA fragments that can be sequenced by the NGS platform.
Fragmentation involves breaking the genomic DNA into smaller fragments. There are several methods available for fragmentation, including sonication, enzymatic digestion, and mechanical shearing. Sonication involves the use of ultrasonic waves to break the DNA into smaller fragments. Enzymatic digestion involves the use of enzymes such as restriction enzymes to cut the DNA into smaller fragments. Mechanical shearing involves the use of mechanical forces such as sonication or nebulization to break the DNA into smaller fragments.
End-repair involves the addition of nucleotides to the ends of the DNA fragments to generate blunt ends. Adaptor ligation involves the addition of adaptors to the ends of the DNA fragments. The adaptors contain sequences that enable the fragments to bind to the flow cell on the NGS platform. Amplification involves the amplification of the DNA fragments using polymerase chain reaction (PCR). PCR is used to generate sufficient amounts of DNA for sequencing and involves the use of primers that anneal to the adaptor sequences.
Quality Control
After library preparation, the next step is quality control. Quality control involves assessing the quantity and quality of the DNA library. There are several methods available for quality control, including gel electrophoresis, fluorometry, and qPCR.
Gel electrophoresis involves the separation of DNA fragments on an agarose gel. The fragments are visualized using ethidium bromide or other fluorescent dyes. This method is useful for assessing the size distribution of the DNA fragments. Fluorometry involves the use of fluorescent dyes that bind to DNA. The intensity of the fluorescence is proportional to the quantity of DNA present. This method is useful for assessing the quantity of the DNA library. qPCR involves the use of primers that anneal to the adaptor sequences. The quantity of the DNA library is assessed by measuring the amount of PCR product.
Data Analysis
Once the sequencing has been completed, the final step is data analysis. NGS data analysis involves several steps, including data pre-processing, alignment, variant calling, and functional annotation. Data pre-processing involves quality control, adapter trimming, and read filtering. Alignment involves mapping the reads to a reference genome or de novo assembly. Variant calling involves identifying variations between the sample and the reference genome or assembly. Functional annotation involves annotating the variants with functional information, such as gene annotations, functional pathways, and protein-protein interactions.
Market Overview
The NGS Sample Preparation Market has been growing rapidly in recent years, driven by the increasing adoption of NGS technology in various applications, including genetic research, drug discovery, and clinical diagnostics. The market is highly competitive, with several key players, including Illumina, Thermo Fisher Scientific, QIAGEN, and Agilent Technologies, among others. The market is expected to continue to grow, driven by the increasing demand for NGS technology in research and clinical settings, as well as the development of new and innovative NGS sample preparation products and services.
The NGS sample preparation market is projected to reach $3,279.3 million by 2026, growing from $1,468.9 million in 2020, at a CAGR of 14.24% during the forecast period 2021-2026.
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In Conclusion,
The NGS sample preparation market is a rapidly growing and highly competitive industry that plays a critical role in enabling NGS technology for various applications. With the increasing demand for NGS technology in research, drug discovery, and clinical diagnostics, the market is expected to continue to grow in the coming years. The development of new and innovative NGS sample preparation products and services, coupled with the growing focus on precision medicine and personalized genomics, is expected to drive further growth in the market. As such, the NGS sample preparation market represents a significant opportunity for companies operating in the NGS space to innovate and develop new solutions to meet the growing demand for high-quality NGS data.
The new NGS Sample Preparation Market report offers a comprehensive study of the current scenario of the market including major market dynamics.
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The major players in the NGS Sample Preparation Market include Congenica Ltd, Agilent Technologies., BGI, Biomatters Ltd., Bio-Rad Laboratories, Inc., DNASTAR, Hoffmann-La Roche Ltd, Eurofins, Genomatix GmbH, Scientific Foundation Medicine, Macrogen, Illumina, Myriad Genetics, Pacific Biosciences of California, Oxford Nanopore Technologies, Perkin Elmer, Partek Incorporated, PierianDx, Quest Diagnostics Incorporated, QIAGEN, and Thermo Fisher Scientific..
This section includes a holistic view of the competitive landscape that includes various strategic developments such as key mergers & acquisitions, future capacities, partnerships, financial overviews, collaborations, new product developments, new product launches, and other developments.Get more information on "Global NGS Sample Preparation Market Research Report" by requesting FREE Sample Copy at https://www.valuemarketresearch.com/contact/ngs-sample-preparation-market/download-sampleMarket SegmentationThe broad NGS Sample Preparation Market has been sub-grouped into the Workflow, Aapplication, End-Use and Region.
The report studies these subsets with respect to the geographical segmentation.
NGS Sample Preparation Market: IntroductionAccording to the report, the global NGS sample preparation market was valued at US$ 758.5 Mn in 2019.
Next-generation sequencing (NGS) has revolutionized genomic research.
In terms of product type, the global NGS sample preparation market has been classified into instruments, and kits, reagents, and consumables.
The segment is anticipated to expand at a high CAGR during the forecast period, owing to rise in the demand for NGS sample preparation across the world.Request Brochure –https://www.transparencymarketresearch.com/sample/sample.php?flag=B_id=68159In terms of on end user, the global NGS sample preparation market has been split into hospitals & clinical diagnostic centers, biotechnology & pharmaceutical companies, academic & research institutes, and others (CROs, CMOs, etc.).
The expansion of the market in the region can be attributed to a well-developed healthcare sector.
Technological developments in NGS sample preparation is the other major factor that is likely to propel the NGS sample preparation market in the region.Request COVID Analysis on Iron NGS Sample Preparation Market –https://www.transparencymarketresearch.com/sample/sample.php?flag=covid19_id=68159NGS Sample Preparation Market: Key PlayersKey players are expanding their footprint to consolidate their positions in the global NGS sample preparation market due to lucrative opportunities to increase their share.
