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A Review of Next Generation Sequencing Methods and its Applications in Laboratory Diagnosis

Srivalsa Bhaskaran, Chithralekha Saikumar

2022Journal of Pure and Applied Microbiology11 citationsDOIOpen Access PDF

Abstract

Next-generation sequencing (NGS) is a new technology used to detect the sequence of DNA and RNA and to detect mutations or variations of significance. NGS generates large quantities of sequence data within a short time duration. The various types of sequencing includes Sanger Sequencing, Pyrosequencing, Sequencing by Synthesis (Illumina), Ligation (SoLID), Single molecule Fluorescent Sequencing (Helicos), Single molecule Real time Sequencing (Pacbio), Semiconductor sequencing (Ion torrent technology), Nanopore sequencing and fourth generation sequencing. These methods of sequencing have been modified and improved over the years such that it has become cost effective and accessible to diagnostic laboratories. Management of Outbreaks, rapid identification of bacteria, molecular case finding, taxonomy, detection of the zoonotic agents and guiding prevention strategies in HIV outbreaks are just a few of the many applications of Next Generation sequencing in clinical microbiology.

Topics & Concepts

Ion semiconductor sequencingNanopore sequencingDNA sequencingSanger sequencingPyrosequencingComputational biologyMassive parallel sequencingBiologyIllumina dye sequencingWhole genome sequencingSingle cell sequencingDNA sequencerGeneticsGenomeExome sequencingDNAMutationGeneNanopore and Nanochannel Transport StudiesBacteriophages and microbial interactionsRNA modifications and cancer
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