Research Articles
Beyond the Blueprint: Why Your Genes Need a Context Menu
Explore how contextual analysis of gene expression data is transforming our understanding of biology, health, and disease by examining when and where genes are active.
Disarming a Cancer's Weapon: How a Cellular "Traffic Cop" Makes Tough Cancers Vulnerable
Discover how PDZK1 protein sensitizes Triple-Negative Breast Cancer cells to erlotinib by promoting EGFR degradation and inhibiting phosphorylation.
Unlocking Life's Code: The Hunt for Regulatory Motifs in Our Genome
Explore the fascinating world of regulatory motif discovery - from basic concepts to cutting-edge meta-analysis approaches in genomics.
Cracking DNA's Code: How AI Predicts Harmful Genetic Mutations
Explore how Temporal Convolutional Networks are revolutionizing the prediction of harmful genetic mutations through deep learning approaches in genomics.
How Immune Genes Betray AML Patients: The Prognostic Power of ITGAM and CD163
Exploring how immune-related genes in the bone marrow microenvironment predict treatment resistance and poor outcomes in acute myeloid leukemia patients.
Cracking the Genetic Code: How Bioinformatics Unlocks the Secrets of Alternative Splicing
Explore how bioinformatics revolutionizes alternative splicing research, revealing how genes produce multiple proteins and advancing medical treatments.
The Plant Cold Fighters: Unraveling the Evolutionary Story of CBF/DREB1 Proteins
Explore the evolutionary history of CBF/DREB1 proteins across 43 plant species and their role in temperature stress response in potatoes.
The Chemical Whisperers: How Scientists Are Decoding the Body's Hidden Messages
Explore how integrative analysis in untargeted metabolomics is revolutionizing our understanding of health and disease by decoding the body's chemical messages.
The Celery Secret: How a Plant Compound Tricks Cancer Cells into Self-Destruction
Discover how quercetin, a plant compound found in celery and apples, induces apoptosis in colon cancer cells through transcriptome analysis and bioinformatics.
Taming the Errors: How Scientists Filtered Noise from SOLiD Sequencing Data
Explore how scientists developed computational frameworks to filter noise from SOLiD sequencing data, improving accuracy in genetic analysis and clinical applications.