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<p>[[File:Bases_in_rna.jpg|250px|right]]Bases are components of [[nucleotides]], which in turn are the building blocks of [[RNA]] and [[DNA]]. The four bases commonly | <p>[[File:Bases_in_rna.jpg|250px|right]]Bases are components of [[nucleotides]], which in turn are the building blocks of [[RNA]] and [[DNA]]. The four bases commonly encountered in RNA are [[adenine]], [[guanine]], [[cytosine]], and [[uracil]]. Bases are sometimes called nitrogenous bases to emphasize the presence of nitrogen in this part of the RNA molecule. A base differs from a [[nucleotide]] in its lack of [[ribose]] and [[phosphate]].</p> | ||
<h2>Base Pairing</h2> | <h2>Base Pairing</h2> | ||
<p style="padding-left: 30px;"><em>Main Article</em> : [[Base Pair]]ing</p> | <p style="padding-left: 30px;"><em>Main Article</em> : [[Base Pair]]ing</p> | ||
Revision as of 08:09, 17 April 2013
Bases are components of nucleotides, which in turn are the building blocks of RNA and DNA. The four bases commonly encountered in RNA are adenine, guanine, cytosine, and uracil. Bases are sometimes called nitrogenous bases to emphasize the presence of nitrogen in this part of the RNA molecule. A base differs from a nucleotide in its lack of ribose and phosphate.
Base Pairing
Main Article : Base Pairing
Bases interact with one another by hydrogen bonding and stacking. These interactions help stabilize folded RNA structures. In EteRNA, three types of base pairs are encountered: AU pairs, GC pairs, and GU pairs.
Structure
Bases are flat, with the large top and bottom surfaces interacting only weakly with water. Purine bases have a a two-ring structure, while pyrimidine bases have a smaller single-ring structure.
Abbreviations
<tbody> </tbody>| Abbreviation | Base |
| A | Adenine |
| G | Guanine |
| C | Cytosine |
| U | Uracil |
| R | Adenine or Guanine (Purine Bases) |
| Y | Cytosine or Uracil (Pyrimidine Bases) |
| M | Adenine or Cytosine (Amino Bases) |
| K | Uracil or Guanine (Keto Bases) |
| N | Any base |
Base Tautomerism
Bases can exist in different structural isomers known as tautomers. In each case, one tautomer is heavily favored over others. The ability to shift between tautomeric forms is important in the formation of certain noncanonical base pairs and contributes mutation during replication of RNA and DNA.
