m 5 C-TNKmer: Identification of 5-methylated base Cytosine of Ribonucleic Acid using Supervised Machine Learning Techniques Article Swipe

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Computational biology RNA Identification (biology) Cytosine Computer science Epigenetics Artificial intelligence Biology Machine learning DNA Chemistry Biochemistry Gene Botany

Shahid Shahid , Dilawar Shah , Mohammad A. U. Khan , Shujaat Ali , Mohammad Abrar , Asfandyar Khan , Muhamad Tahir ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.22541/au.172217286.61464837/v1 · OA: W4401061979

5-methylcytosine (m 5C) is a widely known epigenetic moderation in RNA types. Methyltransferases catalyze the genesis of m5C. This site of RNA plays a crucial role in many biological activities. For many years in DNA, the synthetic process and biological role of m 5C sites have remained the concentrating domain for researchers. Recently, many characters of RNA m 5C sites have been discovered, but it is still considered in their infancy. The accurate and systematic detection and classification of m 5C remains a challenging task. The existence of m 5C sites shows a thriving role in numerous organic activities. Machine learning techniques are alternatives to laboratory experiments, which will ease the m 5C site's identification in Homo sapiens. This article presents a novel computational model named m 5C-TNkmer to extract RNA sequences. The model is enriched with the k-mer feature extraction technique. Four subdatasets of the primary data set are created: DNC, TNC, tetra-NC, and penta-NC. The results highlighted that m 5C-TNKmers achieved 96.15% accuracy. The suggested technique is a talented one that will help scientists correctly identify RNA m 5C sites and their modification. It provides a clue to better understanding genetic function and controlling roles.