Skip to content
  • Wednesday, 10 June 2026
  • 1:03 pm
  • Follow Us
Lab DB
  • Home
  • About Us
    • About Us
    • Affiliate Disclosure
    • Cookie Policy
    • Disclaimer
    • Privacy Policy
    • DMCA
    • Terms of Service
  • Contact Us
  • FAQ
  • Home
  • Duke-NUS Researchers Identify DEAF1 Protein as Key Regulator in Muscle Regeneration and Treatment for Sarcopenia and Cachexia
Stem Cell & Regenerative Medicine

Duke-NUS Researchers Identify DEAF1 Protein as Key Regulator in Muscle Regeneration and Treatment for Sarcopenia and Cachexia

Dwi Wanna May 30, 2026 0

In an era defined by a rapidly aging global population, the medical community is facing an unprecedented rise in age-related…

Read More
Stem Cell & Regenerative Medicine

Duke-NUS Medical School Scientists Discover DEAF1 Protein Mechanism as Key to Reversing Muscle Loss in Sarcopenia and Cancer Cachexia

Dwi Wanna Mar 24, 2026 0

As the global population undergoes a profound demographic shift toward an older age profile, the prevalence of age-related physical decline…

Read More
Sai Life Sciences plans to recruit 700+ professionals in FY27 as Indian CRDMO demand acceleratesScientists just found a way to 3D print one of the hardest metals on EarthMolecular Breakthrough in Alzheimers Pathology Reveals Neurotoxic Death Complex as Key Therapeutic TargetHow breast cancer cells survive in bone marrow after remission
MEDVi Under Scrutiny: AI-Powered Telehealth Startup Faces FDA Warnings, Deceptive Marketing Allegations, and Multiple Lawsuits Despite Meteoric GrowthLLMOps in 2026: The 10 Tools Every Team Must HaveHigh-Dimensional Topological Structures Discovered in Entangled Photons Offer New Framework for Quantum Information StabilityWater-in-Diesel Emulsion Technology Offers Significant Emissions Reduction Potential Without Engine Modification
Optimizing spaCy for Production-Grade NLP: Advanced Techniques for Speed and AccuracyForests’ Ancient Carbon Cycle Disrupted by Pervasive Nitrogen Pollution, New Study RevealsTWiV 1292: Clinical update with Dr. Daniel GriffinCornell University Researchers Develop Breakthrough Nonhormonal Male Contraceptive Targeting Cellular Meiosis
YOU MAY HAVE MISSED
Data Science & Bioinformatics
Optimizing spaCy for Production-Grade NLP: Advanced Techniques for Speed and Accuracy
Evan Lee Salim Jun 6, 2026
Molecular & Cell Biology
Forests’ Ancient Carbon Cycle Disrupted by Pervasive Nitrogen Pollution, New Study Reveals
Angie Faith Jun 6, 2026
Microbiology & Immunology
TWiV 1292: Clinical update with Dr. Daniel Griffin
Lina Irawan Jun 6, 2026
Stem Cell & Regenerative Medicine
Cornell University Researchers Develop Breakthrough Nonhormonal Male Contraceptive Targeting Cellular Meiosis
Dwi Wanna Jun 6, 2026

Copyright © 2025 | Powered by WordPress | News Gadgets by ThemeArile

  • Home
  • About Us
    • About Us
    • Affiliate Disclosure
    • Cookie Policy
    • Disclaimer
    • Privacy Policy
    • DMCA
    • Terms of Service
  • Contact Us
  • FAQ