The objective of this research is to develop a novel computational prediction algorithm for non-coding RNA (ncRNA) genes using features computable for any genomic sequence without the need for comparative analysis. Existing comparative-based methods require the knowledge of closely related organisms in order to search for sequence and structural similarities.This approach imposes constraints on the type of ncRNAs, the organism, and the regions where thencRNAs can be found. We have developed a novel approach for ncRNA gene prediction without the limitations of current comparative-based methods.Our work has established a ncRNA database required for subsequent feature and genomic analysis. Furthermore, we have identified significant features from folding-, structural-, and ensemble-based statistics for use in ncRNA prediction.We have also examined higher-order gene structures, namely operons, to discover potential insights into how ncRNAs are transcribed.Being able to automatically identify ncRNAs on a genome-wide scale is immensely powerful for incorporating it into a pipeline for large-scale genome annotation.This work will contribute to a more comprehensive annotation of ncRNA genes in microbial genomes to meet the demands of functional and regulatory genomic studies.
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Genomic data mining for the computational prediction of small non-coding RNA genes