Optima MAX-TL
Uncomplicated, Uncompromised Performance
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Great!
Centrifugation
My entire protein purification research depended on good centrifugation. I had access to this piece of equipment and it certainly did make my life easier. Leak-proof and adjustable!
Review Date: 23 Jul 2021 | Beckman Coulter Life Sciences
Physiology
I had over 30 years of research and I always had Beckman centrifuges. If I was starting out now, I would select this equipment.
Review Date: 17 Jan 2014 | Beckman Coulter Life Sciences
The Ultimate Ultracentrifuge Performance Package
Optima MAX has the highest g-force ever. But optimal productivity in the lab takes more than force. Optima MAX combines maximum force, capacity, and ease of operation to achieve benchtop performance that's worlds apart from any other system. With advanced rotor features, superior design, and enhanced efficiency, Optima takes productivity to the MAX.
MAXimum Performance / Convenience
Reduced separation time
Improved resolution
Greater volume
Improves work flow and productivity
Reduces time spent transporting samples
Occupies less space
Analysis of Nanotoxicity: Particle Characterization & Centrifugation
This application note provides insight into the inherent shortcomings that are present in traditional cellular toxicity assays, and how these shortcomings are magnified when the toxicity assay involves nanomaterial. Nanomedicine is a field common to materials scientists, chemists, biomedical engineers, biologists and medical scientists. Beckman Coulter tools enable quantification of cellular toxicity caused by nanoparticles; reducing time to remove aggregated particles and quantifying cell toxicity in the presence of single-walled carbon nanotubes.
Stability of the Human Immunodeficiency Virus-1 Reverse Transcriptase Heterodimer
This application note describes the characterization of a heteroassociating system. The thermodissociation is studied using band sedimentation analysis, whilst the electrostatic dissociation is studied using boundary sedimentation analysis. Analytical ultracentrifugation represents a powerful methodology for expressing HIV-1 viral components. In conjunction with appropriate data analysis methodologies, analytical ultracentrifugation can be used to examine sample purity, detect and characterize conformational changes, determine subunit stoichiometries, characterize assembly and disassembly mechanisms of macromolecular complexes, and measure equilibrium constants and thermodynamic parameters of associating systems.
High-Performance Exosome Purification and Characterization via Density Gradient Ultracentrifugation and Dynamic Light Scattering
This application note presents a simple workflow using automation, centrifugation and dynamic light scattering (DLS), to purify and analyze exosome samples. The Biomek 4000 laboratory automation workstation and the Optima MAX-XP ultracentrifuge provide a consistent, reproducible and high-throughput method for exosome analysis.
