RNA Structure: Difference between revisions

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<h2>See Also</h2>
<h2>See Also</h2>
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<ul>
<li>[[Seconday Structure Prediction]]</li>
<li>[[Secondary Structure Prediction]]</li>
<li>[[Techniques for Determining RNA Structure]]</li>
<li>[[Techniques for Determining RNA Structure]]</li>
</ul>
</ul>

Revision as of 00:06, 17 August 2021

RNA molecules often adopt complex 3-dimensional structures in nature. The structure of RNA and other large biomolecules can be broken down into four levels of increasing complexity.


Primary Structure

Main article: Sequence

The primary structure of RNA consists of the nucleotide sequence, customarily written in the 5' to 3' direction.

 

Secondary Structure

Main article: Secondary Structural Motifs in RNA

The secondary structure of RNA is created by base pairing between complementary regions. Two general types of secondary structure are encountered in EteRNA: stacks and loops. Stacks, or helices, are regions of paired bases, while loops are regions of unpaired bases. An additional type of secondary structure, the pseudoknot, is not present in EteRNA puzzles. The EteRNA game currently displays secondary structure. Puzzles in EteRNA focus on the creation of sequences that adopt a given secondary structure. Secondary structure can be conveniently represented in dot-bracket notation.

 

Tertiary Structure

Main article: Tertiary Structure

The tertiary structure of RNA refers to the 3-dimensional structure of the molecule. While the secondary structure of a hairpin might specify the paired and unpaired bases, the tertiary structure describes the position of each atom in space. The biological activity of many RNAs requires that the molecule adopt a specific tertiary structure.

 

Quaternary Structure

The quaternary structure of RNA refers to complexes formed by multiple interacting RNA and/or protein molecules.

 

See Also