Abstract
The TATA box and 5'untranslated region (5'UTR) are critical regulatory elements that influence gene expression in plant defense responses. In rice (Oryza sativa), these elements modulate transcriptional and translational regulation during infection by the blast pathogen Magnaporthe oryzae. This study investigates the functional significance of the TATA box and 5'UTR in rice defense signaling by analyzing promoter and 5'UTR variations in key defense-related genes. Through comparative genomics, expression profiling, and mutagenesis assays, we show that 60% of defense genes with specific TATA box motifs exhibit enhanced transcription, while 5'UTR variants increase translational efficiency by up to 2-fold, contributing to blast resistance. These regulatory mechanisms provide a framework for targeted breeding and biotechnological interventions to enhance disease resistance in rice. Our findings highlight the importance of these elements in fine-tuning rice immune responses and suggest potential targets for improving disease resistance in rice cultivars.