[12, 13] In this review, we describe NGS systems and discuss the

[12, 13] In this review, we describe NGS systems and discuss the application of these advanced technologies in hepatology. THE NGS IS now generally defined as the sequencing technology that employs parallel sequencing processes producing thousands or millions of sequence reads simultaneously. Rothberg and colleagues first succeeded in sequencing the Mycoplasma genitalium genome with 96% coverage and 99.96% accuracy in a single GS20 run.[13] The GS20 was the first NGS sequencer put on the market by 454 Life Sciences. In the following years, Roche

(Basel, Switzerland) absorbed 454 Life Sciences and extended GS20 to a new version Ibrutinib of the GS FLX titanium series. The GS FLX titanium series used a parallel pyrosequencing system capable of data output from 100 Mb to 500 Mb per run with a 400–500 bp read length. The pyrosequencing of this sequencer is based on measuring the pyrophosphate generated by the DNA polymerization reaction.[14, 15] DNA is fractionated into the fragments of 300–800 bp and these DNA fragments are ligated with short adapters that contain the binding of one fragment to a MAPK Inhibitor Library cell line streptavidin-coated bead.

Emulsion polymerase chain reaction (PCR) is carried out for fragment amplification, with water droplets containing one bead and PCR reagents immersed in oil. When the PCR amplification cycles are completed, denaturation beads carrying single-stranded DNA clones are placed into the wells of a fiber-optic slide. On the slide, amplified DNA bound to each of the beads containing sulfurylase and luciferase are sequenced. When one nucleotide is added to the complementary template by the polymerase reaction, a charge-coupled device (CCD) sensor can record the light signal from luciferin. Of note, the signal strength is proportional to the number of nucleotides.[13] This technology is defined as “sequencing-by-synthesis” and is called pyrosequencing in this system. GENERALLY, THE ROCHE/GS FLX titanium series, the Solexa Genome Analyzer (Illumina, San Diego, CA, USA) and the ABI

SOLiD system are now classified as second-generation acetylcholine NGS systems. However, the GS FLX series could obtain smaller amounts of data per run than the Illumina or SOLiD systems. Therefore, some technologists believe that Illumina and SOLiD sequencers are second-generation NGS systems. The Solexa sequencing system, acquired by Illumina, was commercialized in early 2007. The Illumina Genome Analyzer is also based on the “sequencing-by-synthesis” to produce short sequence reads of millions of surface amplified DNA fragments simultaneously. Starting with fragmentation of the genome DNA, adaptor-ligated DNA fragments are attached to the surface of a glass flow cell. The flow cell is separated into eight channels and the surfaces of the channels have covalently attached oligos complementary to the adaptors and ligated to the library DNA fragments.

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