AMoDeBic: An adaptive Multi-objective Differential Evolution biclustering algorithm of microarray data using a biclustering binary mutation operator.

In bioinformatics, biclustering is a crucial optimization task that can reveal hidden patterns and identify groups of genes that behave similarly under certain conditions. This study aims to efficiently identify high-quality and cohesive biclusters that share common characteristics across two data dimensions. To achieve this, we propose the first biclustering approach that utilizes Multi-objective Differential Evolution (DE), which is a novel technique for gene group discovery. Additionally, we introduce the Biclustering Binary Differential Evolution (BBDE), a new mutation operator that combines node addition and deletion, guided by an adaptive factor F. We thoroughly tested our method's effectiveness taking into account biological relevance, noise, overlap resistance, and statistics. We compared our results to state of the art algorithms using both synthetic and real datasets like Yeast Cell Cycle, Saccharomyces cerevisiae, and Human B Cell. Our algorithms outperformed the comparisons and effectively identified significant biclusters. • Multi-objective evolutionary biclustering approach using differential evolution. • BBDE: An adaptive mutation operator to adjust DE for biclustering. • A powerful approach for identifying multiple large biclusters simultaneously. [ABSTRACT FROM AUTHOR]