Modulation of innate immunity in Nile tilapia (Oreochromis niloticus) by dietary supplementation of Bacillus subtilis endospores

Posted by Leanne Kodsman on

Rabbit Red Blood Cells from Innovative Research were recently used in the following study:

Modulation of innate immunity in Nile tilapia (Oreochromis niloticus) by dietary supplementation of Bacillus subtilis endospores

Oscar A.Galagarza, Stephen A.Smith, David J.Drahos, Joseph D.Eifert, Robert C.Williams, David D.Kuhn
Fish & Shellfish Immunology, December 2018

"... The activity of the alternative complement pathway (ACH50) was measured by use of the method of hemolysis of rabbit red blood cells (RRBC; Innovative Research, Novi, MI, USA), as previously described 18. Plasma from tilapia from days 14, 28 and 51 were used for estimation of alternative complement activity ..."

Related products available from Innovative Research also include:

  • Tags: Animal Blood Cells, Rabbit Red Blood Cells

    • The next big thing: it's what you do. The biological research materials you need to discover it? That's what we do! We love seeing how our products are being used in real-life applications and contributing to scientific acheivements every day. With thousands of published references and decades of proven results, you can count on us to help you source the high-quality biomaterials you need that will deliver reliable, consistent results - kit to kit, lot to lot, all study long. So what are you waiting for? All great discoveries start somewhere... yours starts with Innovative Research! Get in touch with our team today!


    Related Posts

    Unlock Your Research Potential with Our Premier E. Coli Competent Cells
    Dive into the world of unparalleled genetic research with our diverse lineup of E. coli...
    Read the Article
    Easy as PAI(-1): Celebrate Pi Day with Cutting-Edge Monoclonal Antibodies from Innovative Research
    In the ever-evolving landscape of molecular biology, precision tools are essential for ...
    Read the Article
    Revolutionizing Diabetes Treatment: Genetically Engineered Pseudo-Islets Achieve Insulin Independence
    In a groundbreaking study, researchers have pioneered a diabetes treatment that could r...
    Read the Article

    ← Older Post Newer Post →

    ×