Chapter 2:
Nucleic Acids as the Blueprint
Authors(s): J. Patrick Fitch
Published: 2002
DOI: 10.1117/3.449265.ch2
Abstract
It has been more than 135 years since Gregor Mendel observed that several distinct traits of peas were inherited at statistical rates predicted by the traits of the parents. However it was not until 1944 that inherited traits and deoxyribonucleic acid were linked. DNA contains the biochemical codes for the inheritance that Mendel observed. The DNA associated with a specific trait or function is known as a gene. The entire set of information represented in the DNA is known as the genome. This combines the word “gene” with the suffix “ome” for mass. DNA is a macromolecule built from repeating subunits (see Fig. 2.1). Each of the subunits contains one of four bases. The “size” of a genome is usually expressed as the number of base pairs (bp) of double-stranded DNA (dsDNA) in an organism. Because the base pairs of dsDNA can be generated from the bases of either of the complementary pieces of single-stranded DNA (ssDNA), the “size” of the genome may also be expressed as the number of bases (b). For instance, the human genome contains about 3 billion base pairs of DNA. Convenient units are thousands of bases (kb) and millions of bases (Mb). Ribonucleic acid is a macromolecule similar to DNA that is also measured in units of bases.
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CHAPTER 2
22 PAGES


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