A Predictive Model for Secondary RNA Structure Using Graph Theory and a Neural Network.

Koessler, Denise Renee

08 May 2010

In this work we use a graph-theoretic representation of secondary RNA structure found in the database RAG: RNA-As-Graphs. We model the bonding of two RNA secondary structures to form a larger structure with a graph operation called merge. The resulting data from each tree merge operation is summarized and represented by a vector. We use these vectors as input values for a neural network and train the network to recognize a tree as RNA-like or not based on the merge data vector. The network correctly assigned a high probability of RNA-likeness to trees identified as RNA-like in the RAG database, and a low probability of RNA-likeness to those classified as not RNA-like in the RAG database. We then used the neural network to predict the RNA-likeness of all the trees of order 9. The use of a graph operation to theoretically describe the bonding of secondary RNA is novel.

graph theory

artificial neural network

graph models

math modeling

secondary RNA

RNA structure

RNA as Graphs

RNA

tree graph

application of graph theory

vertex identification

merge

predictive model

Discrete Mathematics and Combinatorics

Mathematics

Physical Sciences and Mathematics