AB SCIEX, a global leader in life science analytical technologies, today introduced the TripleTOF 6600 system with SWATH Acquisition 2.0 – the company’s revolutionary solution for quantitative proteomics. This high-resolution, accurate-mass system, combined with the new SWATH Acquisition 2.0, brings new power to proteomic data challenges for advanced biomarker discovery and systems biology. As the emphasis in proteomics research shifts from cataloguing to comprehensive quantitation, the AB SCIEX solution is uniquely positioned, enabling the quantification of thousands of proteins across large sample sets with a level of data completeness and quantitative accuracy and precision that have only been achievable by “gold-standard,” targeted MRM in the past.
“The TripleTOF 6600 system with SWATH 2.0 truly transforms proteomics research by providing an advanced level of data completeness and quantitative accuracy” said Rainer Blair, President of AB Sciex, “The new platform empowers researchers to gain greater insights into biomarkers and disease pathways, which...
AB SCIEX SWATH Acquisition incorporates a data-independent acquisition strategy and has re-invigorated the proteomics community’s interest in comprehensive data by fragmenting every detectable peptide in the sample in order to acquire quantitative MS/MS data. This approach has been shown to increase the capacity of targeted proteomics experiments by over 30-fold and reduce study time by as much as 90 percent. Now, with the increased dynamic range of the TripleTOF 6600 System, researchers can more deeply interrogate complex samples. Combined with innovative variable window acquisition and the SWATH 2.0 processing software, a significant improvement in quantitative results has been realized.
Ruedi Aebersold, Ph.D., professor at the Institute of Molecular Biology at the ETH in Zurich, Switzerland, comments, "SWATH has already proven its enormous value as a critical discovery and large-scale quantification workflow. The combination of variable window SWATH acquisition with the increased dynamic range of the TripleTOF 6600 will give biological scientists a more precise and complete view of each sample, potentially leading to biological insights that have never been achieved before.”
Early experiments comparing TripleTOF 6600 System with SWATH 2.0 to other systems have demonstrated the quantification of up to 90 percent more peptides with CVs of less than 20 percent (a threshold often used to determine good limits of quantitation in LC/MS data). These advances in capacity and data completeness are expected to make integration with large-scale biology experiments, such as genomics and transcriptomics, much more accessible.
“To take advantage of the full potential of proteomics in translational research, we need to quantitate thousands of proteins in a single experiment with accuracy.,” said Jennifer Van Eyk, Ph.D., Director of the Advanced Clinical Biosystems Institute at Cedars-Sinai Medical center and Director of basic science research in the Barbara Streisand Women’s Heart Center in the Cedars-Sinai Heart Institute and the Erika J. Glazer Chair in Women’s Heart Health. “The TripleTOF and SWATH system has enabled us to do this for the first time and contributed to accelerating my research objectives.”
About AB SCIEX
AB SCIEX helps to improve the world we live in by enabling scientists and laboratory analysts to push the limits in their field and address the complex analytical challenges they face. The company's global leadership and world-class service and support in the liquid chromatography-mass spectrometry industry have made it a trusted partner to thousands of the scientists and lab analysts worldwide who are focused on basic research, drug discovery and development, food and environmental testing, forensics and clinical research. With over 25 years of proven innovation, AB SCIEX excels by listening to and understanding the ever-evolving needs of its customers to develop reliable, sensitive and intuitive solutions that continue to redefine what is achievable in routine and complex analysis.