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HT Homogenizer II™

$7,985.00

*Available to U.S. Customers Only

The redesigned HT Homogenizer II™ (formerly the HT Homogenizer™ by Talboys) is an excellent homogenizer for labs processing hundreds of samples daily.  At nearly half the cost of other plate homogenizers, the linear motion of the HT Homogenizer II™ ensures that all samples are processed consistently.  The homogenizer can be run at speeds as low as 300 rpm for mixing samples, or as high as 1600 rpm for homogenizing hard materials, such as kernels.

The second generation homogenizer incorporates a sleeker design and digital capabilities not available in the original model. It can grind samples at room or cryogenic temperatures and can accommodate deep well plates, vial sets, microfuge tubes, or any container that will fit on its oscillating platform.

Specifications

Speed Range

300 rpm – 1600 rpm

Motion

Vertical, 31 mm

Capacity

1 x deep well plate, 4 x standard well plates, 24 x 4 ml vials, 5 x 15 ml vials, 24 x 2 ml vials or any sample to 10.2 x 12.7 x 6.4 cm

Timer

1 second – 10 minutes

Programs

5 Preset Programs

Control

Digital

Dimensions

20.5 in x 17.5 in x 11.5 in (518 mm x 443 mm x 288 mm)

Net Weight

59 lb (26.8 kg)

Power

120V, 6.3A, 50/60Hz

Power Consumption

450 W

Safety Certification

TUV

Working Environment

40°F – 104°F, 20% – 85%RH, non-condensing

 

Unsure of which pre-filled tubes to use with your samples? Follow the link to see our comparison of pre-filled disruption tubes.

Citations:

Pallares, L. F.; Picard, S.; Ayroles, J. F. TM3’seq: A Tagmentation-Mediated 3’ Sequencing Approach for Improving Scalability of RNA-Seq Experiments. bioRxiv 2019, 585810. https://doi.org/10.1101/585810.

Fan, L.; Chae, E.; Gust, A. A.; Nürnberger, T. Isolation of Novel MAMP‐like Activities and Identification of Cognate Pattern Recognition Receptors in Arabidopsis Thaliana Using Next‐Generation Sequencing (NGS)–Based Mapping. Current Protocols in Plant Biology 2017, 2 (3), 173–189. https://doi.org/10.1002/cppb.20056.

Duneau, D.; Ferdy, J.-B.; Revah, J.; Kondolf, H.; Ortiz, G. A.; Lazzaro, B. P.; Buchon, N. Stochastic Variation in the Initial Phase of Bacterial Infection Predicts the Probability of Survival in D. Melanogaster. eLife 2017, 6, e28298. https://doi.org/10.7554/eLife.28298.

Duneau, D. F.; Kondolf, H. C.; Im, J. H.; Ortiz, G. A.; Chow, C.; Fox, M. A.; Eugénio, A. T.; Revah, J.; Buchon, N.; Lazzaro, B. P. The Toll Pathway Underlies Host Sexual Dimorphism in Resistance to Both Gram-Negative and Gram-Positive Bacteria in Mated Drosophila. BMC Biology 2017, 15 (1), 124. https://doi.org/10.1186/s12915-017-0466-3.

Tabor, D. E.; Mani, S.; Shen, X.; Chen, X.; Engbers, C.; Jacobson, S.; Broome, R.; Liu, J.; Justewicz, D.; Galinski, M. S. Rapid Clearance of Intranasally Administered DNA from Rat Tissues. Biologicals 2013, 41 (4), 247–253. https://doi.org/10.1016/j.biologicals.2013.04.004.

Asoro, F. G.; Newell, M. A.; Scott, M. P.; Beavis, W. D.; Jannink, J.-L. Genome-Wide Association Study for Beta-Glucan Concentration in Elite North American Oat. Crop Science 2013, 53 (2), 542–553. https://doi.org/10.2135/cropsci2012.01.0039.