The first one of the four deoxynucleotides (dNTPs) is added to th

The first one of the four deoxynucleotides (dNTPs) is added to the sequencing reaction, and the DNA polymerase catalyzes its incorporation into the DNA strand, in case there is complementarity. During each incorporation event, a phosphodiester bond between the dNTPs is Fluoro Sorafenib formed, releasing pyrophosphate (PPi) in a quantity equivalent to the amount of incorporated nucleotide. In sequence, the enzyme ATP sulfurylase converts PPi to ATP in the presence of APS. ATP is used in the conversion of luciferin to oxyluciferin mediated by the enzyme luciferase. This gives rise to light in intensity that is proportional to the amount of ATP used. Light is detected by a charge coupled device camera and detected as a peak in a pyrogram. The height of each peak is proportional to the number of nucleotides incorporated.

The system is regenerated with the enzyme apyrase that degrades ATP and unincorporated dNTPs. Then, the next dNTP is added. Addition of dNTPs is performed one at a time. Generation of a signal indicates which nucleotide is the next one occurring in the sequence. As the process goes on, the complementary DNA strand grows and the nucleotide sequence is determined according to the signal peaks in the pyrogram. Fig. 1 The 454 pyrosequencing approach. The 454 pyrosequencing technology has evolved over the years, with consequent increase in the length of sequence reads and output. The first-generation instrument (GS 20) yields 100 bp sequence reads and up to 60 Mb per individual run. The second-generation instrument (GS FLX) yields 250 bp sequence reads and up to 150 Mb per run.

The third-generation (XLR and now GS FLX Titanium) yields 400 bp sequence reads and about 500 Mb per run. Recently, the GS FLX+was released, which offers read lengths up to 1 kb with a mode read length of 700 bp. Other NGS platforms The Applied Biosystems Sequencing by Oligonucleotide Ligation and Detection (SOLiD) system is based on sequencing-by-ligation technology. In the SOLiD approach, sequencing is obtained by measuring serial ligation of an oligonucleotide to the sequencing primer by a DNA ligase enzyme (33). Like in pyrosequencing, DNA fragments are ligated to oligonucleotide adapters, attached to beads, and then amplified by emulsion PCR to provide sufficient signal for the sequencing reactions.

Beads are deposited on a flow cell surface, and the ligase-mediated sequencing begins by annealing of the sequencing primer to the adapter sequences on each amplified Dacomitinib fragment. In a unique approach of sequencing using interrogation probes, each ligation step is accompanied by fluorescence detection, after which a regeneration step prepares the extended primer for the next round of ligation (29, 31). The newest sequencers using this technology can generate sequence reads that are 50 to 75 bp long.

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