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DNA Sequence Analysis System is the process of applying a DNA, RNA, or peptide sequence to a variety of analytical techniques in order to comprehend its characteristics, functions, structures, or evolutionary history. Sequence alignment, database searches against biological sources, and other techniques are applied.
The rate of adding new sequences to databases rose very quickly once high-throughput technologies for producing gene and protein sequences were developed. The biology of creatures is not better understood by a scientist just because of this collection of sequences. But one important method to comprehend the biology of an organism from which the novel sequence originates is to contrast these new sequences to those with known functions.
The similarities between the examined sequences allows sequence analysis to be used to ascribe function to genes and proteins. The ability to compare sequences (sequence alignment) and then examine the alignment’s output to better understand its biology is now made possible by a variety of tools and approaches.
Sequence analysis in chemistry refers to methods for figuring out the order of a polymer made up of multiple monomers. The similar procedure is known as “sequencing” in the fields of molecular biology and genetics.
The Global DNA Sequence Analysis System market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
The ProDye Terminator DNA Sequence Analysis System, introduced by Promega, uses the same dyes used in Thermo Fisher Scientific’s BigDye Terminator V3.1 Cycle Sequencing Kit coupled with an unique thermostable DNA polymerase.
Promega launched it, along with SeqStudio genetic analyzers and Applied Biosystems genetic analyzers, and supports the use of ProDye chemistry on instruments like the Spectrum Compact CE System.