Latest Science News
NIH Develops Digital Twin of Eye Cells for AMD Treatment
NIH scientists created a 3D digital replica of retinal pigment epithelial cells to study age-related macular degeneration (AMD), revealing how cells lose polarity in the disease. This AI-driven atlas tracks subcellular changes, aiding therapeutic discovery for vision loss.
Kapil Bharti noted its potential for broader biomedical research.
Tumors Reprogram Immune Cells to Aid Cancer Growth
University of Geneva researchers found tumors reprogram neutrophils to promote cancer instead of fighting it. These immune cells, normally defenders, fuel tumor growth when altered inside malignancies.
The discovery highlights a surprising immune system vulnerability.
New Compound Mic-628 Resets Body Clock to Combat Jet Lag
Scientists identified Mic-628, which shifts the body's internal clock forward by targeting a key protein, halving jet lag recovery time. This advance addresses challenges in advancing circadian rhythms.
It promises reliable clock adjustments for shift workers and travelers.
Climate Models Overlook Plankton's Carbon Sequestration Role
Tiny marine plankton building calcium shells play a major role in pulling carbon to deep ocean, missed by climate models. These organisms regulate Earth's climate more than previously thought.
New research urges model updates for accurate predictions.
Epstein-Barr Virus Linked to Multiple Sclerosis via Immune Buildup
Research shows Epstein-Barr virus provokes immune cells in MS patients, with large buildups targeting the virus in nervous systems. This missing link suggests active immune provocation in the disease.
Findings could lead to new MS therapies.
Molecular Glue Explains Spider Silk's Super Strength
Scientists uncovered tiny molecular interactions acting as glue in spider silk proteins, explaining its legendary strength and flexibility. This breakthrough reveals the silk's unbreakable properties at molecular level.
Applications may include advanced materials.
Quantum Error Correction Trick Advances Practical Computers
A new experiment enables quantum operations with continuous error fixing, addressing qubit disruption issues. This clever trick brings scalable quantum computers closer to reality.
It overcomes key instability during calculations.
Sugar-Targeting Antibodies Fight Superbugs
Australian scientists designed antibodies targeting unique bacterial sugars to combat drug-resistant superbugs. This method exploits bacteria-specific molecules for precise attack.
It offers hope against deadly resistant infections.
Juno Reveals Jupiter's True Size and Wind Effects
NASA's Juno mission shows deep winds distort Jupiter's gravity, revealing it's smaller than previously thought. Microwave data exposed structural atmospheric impacts on planetary shape.
Findings refine models of gas giant interiors.
Space Weather May Trigger Earthquakes, Study Proposes
A theoretical study links high-altitude space weather activity to deep Earth seismic processes. It explores subtle influences from above on tectonic events.
This surprising connection could reshape earthquake prediction.
Finerenone Improves Ovary Function in Insufficiency
Finerenone boosts ovary function in mice and aids egg production in women with primary ovarian insufficiency. The drug shows promise for reproductive health treatments.
Human trials indicate mature egg production benefits.
Lab-Grown Blood Vessels Mimic Real Complexity on Chip
Texas A&M researchers built vessel-chips replicating human blood vessels' twists, branches, and aneurysms. This advances disease modeling beyond straight-pipe approximations.
It improves blood flow and pathology studies.