Accurate Prediction of B-form/A-form DNA Conformation from Primary Sequence: A Machine Learning and Free energy Handshake

03 July 2020, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

DNA carries the genetic code of life. Different conformations of DNA are associated with various biological functions. Predicting the conformation of DNA from its primary sequence, although desirable, is a challenging problem owing to the polymorphic nature of DNA. Although a few efforts were made in this regard, currently there exists no method that can accurately predict the conformation of right- handed DNA solely from the sequence. In this study, we present a novel approach based on machine learning that predicts A-DNA and B-DNA conformational propensities of a sequence with high accuracy (~95%). In addition, we show that the impact of the dinucleotide steps in determining the conformation agrees qualitatively with the free energy cost for A-DNA formation in water. This method enables us to examine the genomic sequence to understand the prospective biological roles played by the A-form of DNA.

Keywords

structure prediction
A/B DNA
Machine Learning
XGBoost
Nucleotide Sequence
Genome

Supplementary materials

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DNA AB SI
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