Organ Tissue Homogenizer & Homogenization Protocol

Ideal for Organ Tissue Samples

Save Time, Effort and Get Superior Results with

Bullet Blender Homogenizer
  • Consistent Results
  • Samples Stay Cool
  • No Cross Contamination
  • Easy and Convenient
  • Risk Free
Do you spend lots of time and effort homogenizing organ samples? The Bullet Blender® is a multi-sample homogenizer that delivers high quality and superior yields. No other homogenizer comes close to delivering the Bullet Blender’s winning combination of top-quality performance and budget-friendly affordability.
  • Consistent and High Yield Results
    Run up to 24 samples at the same time under microprocessor-controlled conditions, ensuring experimental reproducibility and high yield. Process samples from 10mg or less up to 3.5g.
  • No Cross Contamination
    No part of the Bullet Blender® ever touches the organ tissue – the sample tubes are kept closed during homogenization. There are no probes to clean between samples.
  • Samples Stay Cool
    Homogenizing causes only a few degrees of heating. Our Gold models keep samples at 4°C.
  • Easy and Convenient to Use
    Just place beads and buffer along with your organ sample in standard tubes, load tubes directly in the Bullet Blender, select time and speed, and press start.
  • Risk Free Purchase
    The Bullet Blender® comes with a 30 day money back guarantee and a 2 year warranty. The simple, reliable design enables the Bullet Blenders to sell for a fraction of the price of ultrasonic or other agitation based instruments, yet provides an easier, quicker technique.

Protocols for Organ tissue

We have developed protocols for many different organ tissues. Explore the Protocols list t find a protocol suitable for the organ you are working with.

Selected publications for Organ tissue

See all of our Bullet Blender publications!

Falendysz, E. A., Lopera, J. G., Lorenzsonn, F., Salzer, J. S., Hutson, C. L., Doty, J., Gallardo-Romero, N., Carroll, D. S., Osorio, J. E., & Rocke, T. E. (2015). Further Assessment of Monkeypox Virus Infection in Gambian Pouched Rats (Cricetomys gambianus) Using In Vivo Bioluminescent Imaging. PLOS Neglected Tropical Diseases, 9(10), e0004130. https://doi.org/10.1371/journal.pntd.0004130
Eriksson, A., Williams, M. J., Voisin, S., Hansson, I., Krishnan, A., Philippot, G., Yamskova, O., Herisson, F. M., Dnyansagar, R., Moschonis, G., Manios, Y., Chrousos, G. P., Olszewski, P. K., Frediksson, R., & Schiöth, H. B. (2015). Implication of coronin 7 in body weight regulation in humans, mice and flies. BMC Neuroscience, 16(1), 13. https://doi.org/10.1186/s12868-015-0151-9
Zhang, Z., He, L., Hu, S., Wang, Y., Lai, Q., Yang, P., Yu, Q., Zhang, S., Xiong, F., Simsekyilmaz, S., Ning, Q., Li, J., Zhang, D., Zhang, H., Xiang, X., Zhou, Z., Sun, H., & Wang, C.-Y. (2015). AAL exacerbates pro-inflammatory response in macrophages by regulating Mincle/Syk/Card9 signaling along with the Nlrp3 inflammasome assembly. American Journal of Translational Research, 7(10), 1812–1825.
Melero, M., García-Párraga, D., Corpa, J., Ortega, J., Rubio-Guerri, C., Crespo, J., Rivera-Arroyo, B., & Sánchez-Vizcaíno, J. (2014). First molecular detection and characterization of herpesvirus and poxvirus in a Pacific walrus (Odobenus rosmarus divergens). BMC Veterinary Research, 10(1), 968. https://doi.org/10.1186/s12917-014-0308-2
Austin, W. R., Armijo, A. L., Campbell, D. O., Singh, A. S., Hsieh, T., Nathanson, D., Herschman, H. R., Phelps, M. E., Witte, O. N., Czernin, J., & Radu, C. G. (2012). Nucleoside salvage pathway kinases regulate hematopoiesis by linking nucleotide metabolism with replication stress. Journal of Experimental Medicine, 209(12), 2215–2228. https://doi.org/10.1084/jem.20121061
Kumar, M., Roe, K., Nerurkar, P. V., Namekar, M., Orillo, B., Verma, S., & Nerurkar, V. R. (2012). Impaired Virus Clearance, Compromised Immune Response and Increased Mortality in Type 2 Diabetic Mice Infected with West Nile Virus. PLoS ONE, 7(8), e44682. https://doi.org/10.1371/journal.pone.0044682
Rayner, K. J., Suarez, Y., Davalos, A., Parathath, S., Fitzgerald, M. L., Tamehiro, N., Fisher, E. A., Moore, K. J., & Fernandez-Hernando, C. (2010). MiR-33 Contributes to the Regulation of Cholesterol Homeostasis. Science, 328(5985), 1570–1573. https://doi.org/10.1126/science.1189862
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