Next-Generation Sequencing and Sequence Data Analysis

Author(s): Kuo Ping Chiu

DOI: 10.2174/9781681080925115010006

Evolution of DNA Sequencing Technologies

Pp: 17-24 (8)

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Next-Generation Sequencing and Sequence Data Analysis

Evolution of DNA Sequencing Technologies

Author(s): Kuo Ping Chiu

Pp: 17-24 (8)

DOI: 10.2174/9781681080925115010006

* (Excluding Mailing and Handling)

Abstract

Current nucleotide sequencing focuses on DNA sequencing. As you will see later in this chapter, direct RNA sequencing was de-selected by evolution. Instead, RNA molecules are converted to cDNA and subject to DNA sequencing. Moreover, DNA sequencing can be conducted by a number of sequencing technologies, each of which uses a company- or inventer-defined procedure and sequencing mechanism. By nature, both living organisms and non-living objects are constantly challenged by evolution. DNA sequencing technologies are of no exception. For living organisms, phenotypic variations resulted from genetic alterations are constantly tested by the surrounding environment, which allows the fittest to propagate more efficiently than the others. Similarly, using DNA sequencing technologies that we will discuss later in this chapter as an example, each technology has its pros and cons against one another. Also, their advantages and disadvantages co-evolve with, and depend on their environmental backgrounds. Here, we review the evolution of DNA sequencing technologies to appreciate the evolutionary process eventually leading to the development of Next-Generation Sequencing technologies.


Keywords: Next-generation sequencing, NGS, Sanger sequencing, Single-molecule sequencing.

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