Research Articles
Personalized Targets: How Tumor Mutations Are Revolutionizing Multiple Myeloma Treatment
Explore how neoantigens and tumor mutations are transforming multiple myeloma treatment through personalized immunotherapy approaches.
Seeing the Invisible: How Computer Simulations Unlock the Secrets of Life's Molecular Machinery
Explore how RIKEN's Computational Biophysics Research Team uses molecular dynamics simulations to reveal the hidden dance of cellular machinery.
DNA's Secret Shape: How a Twisted Discovery Is Revolutionizing Genetics
Discover how Z-DNA's unique C2'alpha-hydroxylation is transforming our understanding of genetics and gene regulation.
The Silent Storm: How Ticks Battle Stress and Why It Matters
Explore how ticks cope with stress from blood feeding, pathogens, and climate change, and why this matters for controlling tick-borne diseases.
The Hidden Enemy Within: Unlocking the Secrets of Breast Cancer Stem Cells
Exploring breast cancer stem cells (BCSCs) - the key to understanding cancer recurrence, metastasis, and therapy resistance.
Decoding Busulfan Resistance in Pediatric Leukemia: A Genomic Revolution
How cutting-edge genome science is uncovering the reasons why some childhood leukemias resist chemotherapy.
The Social Network of Your Cells: Mapping the Interactome
Explore the fascinating world of interactome networks - the dynamic communication system within our cells that makes life possible.
Attaining Fluency in Bioinformatics—the Gremlins Are Coming!
Explore how bioinformatics transforms biological data into life-saving insights through AI, single-cell technologies, and revolutionary tools reshaping medicine and biology.
Silent Revolution in Bone Cancer: How Non-Coding RNAs Are Changing Our Fight Against Osteosarcoma
Exploring how non-coding RNAs are revolutionizing the diagnosis and treatment of osteosarcoma, the most common primary malignant bone tumor in children and young adults.
Salt and Switch: How Simple Chemical Tweaks Are Creating Powerful Cancer Medicines
Discover how pharmaceutical salts and N-acyl derivatives are revolutionizing cancer drug development through simple chemical modifications.