Abstract
Pseudouridine(Ψ) is widely popular among various RNA modifications which have been confirmed to occur in rRNA, mRNA, tRNA, and nuclear/nucleolar RNA. Hence, identifying them has vital significance in academic research, drug development and gene therapies. Several laboratory techniques for Ψ identification have been introduced over the years. Although these techniques produce satisfactory results, they are costly, time-consuming and requires skilled experience. As the lengths of RNA sequences are getting longer day by day, an efficient method for identifying pseudouridine sites using computational approaches is very important. In this paper, we proposed a multi-channel convolution neural network using binary encoding. We employed k-fold cross-validation and grid search to tune the hyperparameters. We evaluated its performance in the independent datasets and found promising results. The results proved that our method can be used to identify pseudouridine sites for associated purposes. We have also implemented an easily accessible web server at http://103.99.176.239/ipseumulticnn/.
Highlights
Pseudouridine is the most common RNA modification observed in both prokaryotes and eukaryotes [1]
Data were collected for three different species which are H. sapiens, S. cerevisiae and M. musculus represented by HS, SC and MM respectively
After training our models in the benchmark datasets, we examined its performance in the independent datasets by comparing the evaluation metrics with the existing predictors
Summary
Pseudouridine is the most common RNA modification observed in both prokaryotes and eukaryotes [1]. It is formed by the C synthase enzyme which leads to the proof of its occurrence in various kinds of RNAs [2]. This enzyme separates the uridine residue’s base from its sugar and rotates it 180 ̊ along the N3-C6 axis. Psudouridines play a vital role in both biological and genetic aspects of RNAs, especially for tRNA and rRNA. In case of rRNA, ribonucleoproteins are proved to be needed for pseudouridylation [4].
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