Research Articles
Taming the Genetic Tsunami: How AI is Unlocking the Secrets of Our DNA
Explore how automated gene data integration with Databio is revolutionizing genomics by using AI to process massive genetic datasets and uncover biological insights.
The Hidden World of Circular RNA: A New Frontier in Cancer Biology
Explore the fascinating world of circular RNAs and their revolutionary role in cancer biology, from molecular sponges to diagnostic biomarkers.
Cracking the Code of a Hidden Infection: New Hope for Diagnosing Bone Tuberculosis
Discover how metabolomics is revolutionizing the diagnosis of Osteoarticular Tuberculosis through novel serum biomarkers and advanced analytical techniques.
The Viral Mystery in Tanzania's Cornfields: Discovering Maize-Associated Pteridovirus
Scientific discovery of Maize-associated pteridovirus (MaPV) in Tanzania's Arusha region using advanced metaviromics techniques
Cracking Alzheimer's Code: A Protein Map from a New Mouse Model
Explore how quantitative proteomics and novel mouse models are revolutionizing Alzheimer's disease research by mapping protein changes in the brain.
Cracking a Genetic Code: When High Cholesterol Strikes Twice in One Family
Explore the genetic mystery of complex heterozygous Familial Hypercholesterolemia and how cutting-edge science is revolutionizing diagnosis and treatment.
Cracking Neuroblastoma's Code: How Gene Networks Are Revolutionizing Childhood Cancer Treatment
Discover how WGCNA and multi-omics analysis are transforming neuroblastoma treatment through prognostic biomarker identification.
The Cellular Conspiracy: How a "Sponge" Fuels a Tough Breast Cancer
Unraveling the hidden role of FOXCUT and the p38 pathway in triple-negative breast cancer progression through molecular sponge mechanisms.
Maize's Genetic Gold Rush: Hunting for Hidden Treasures in the Corn Genome
Discover how genome-wide insertion and deletion markers are revolutionizing maize breeding and improving global food security
Cleaning Up the Genetic Noise: How Batch-Normalization Sharpens the Picture in Brain Cancer Research
Explore how batch-normalization using empirically defined negative control genes revolutionizes medulloblastoma research by removing technical noise from gene expression data.