Enhanced quantitative and structural characterization capabilities offer exceptional ion trap performance and versatility
DENVER (June, 03, 2011) - Thermo Fisher Scientific Inc., the world leader in serving science, today announced fundamentally redefined ion trap mass spectrometer capabilities with the introduction of its new dual-pressure linear ion trap system, the Thermo Scientific Velos Pro. With improved quantitative performance, faster scanning, Trap-Higher Energy Collision Dissociation (HCD) and enhanced robustness, the Velos Pro mass spectrometer expands the applicability of ion trap workflows.
To extend its capabilities to include ultra-high resolution and accurate mass, the Velos Pro ion trap is also available in combination with industry-leading Thermo Scientific Orbitrap technology as the Orbitrap Velos Pro and Orbitrap Elite hybrid mass spectrometers. The new mass spectrometers can be seen at Thermo Scientific hospitality suite at the Hyatt Regency in Centennial Ballroom D during the 59th Annual ASMS Conference on Mass Spectrometry and Allied Topics, from June 5-9 in Denver.
"The Thermo Scientific LTQ Velos ion trap mass spectrometer has always been recognized as a premier qualitative instrument," said Ian Jardine, vice president of global R&D, Thermo Fisher Scientific. "With the debut of the Velos Pro, we have markedly enhanced the ion trap's quantitative performance, while at the same time significantly expanding its qualitative capabilities. As a result, we now offer the most versatile and powerful ion trap on the market today."
The Velos Pro brings together four technology innovations that expand ion trap mass spectrometer performance and versatility:
- New detection electronics enable linear quantitation of up to 6 orders of magnitude for enhanced reproducibility and confidence in results.
- Fast scanning up to 66,000 Da/sec enables ultra high-throughput analyses, compatible with the fastest U-HPLC systems, without compromising data quality.
- New Trap-HCD fragmentation offers complementary, triple quadrupole-like fragmentation that facilitates structural elucidation, sequence assignment and quantitation of isobarically labeled peptides.
- Redesigned ion optics featuring novel "neutral-blocking" technology reduce downtime and improves robustness in all applications.
Trap-HCD fragmentation enables a new lower-cost, ion-trap-technology-based workflow for quantitative proteomics applications. Because Trap-HCD produces high ion intensities at low masses, a standalone ion trap can now be used to perform relative quantitation with isobarically labeled peptides, including applications requiring tandem mass tags (TMT).
For qualitative proteomics, Trap-HCD fragmentation provides greater sequence coverage and more confident sequence assignment and post-translational modification (PTM) identification. Fast scanning Trap-HCD complements other fragmentation methods including, collision-induced dissociation (CID), pulsed-Q dissociation (PQD) and
electron transfer dissociation (ETD), producing more MS/MS spectra per analysis designed to increase potential protein and peptide identifications. The Thermo Scientific Data Dependent Decision Tree algorithm for automated selection of the optimal fragmentation technique now incorporates Trap-HCD fragmentation.
For small molecule applications such as metabolism studies, the Velos Pro ion trap offers a qualitative and quantitative workflow in a single flexible system. Fast scanning and new detection capabilities yield direct improvements in quantitative performance, and provide richer, complementary MSn information for structural elucidation experiments across a range of applications. Trap-HCD fragmentation offers a complementary fragmentation methodology for the identification of novel
compounds such as metabolites.
LTQ Velos and LTQ Orbitrap Velos systems can be upgraded to the new Velos Pro systems, enabling customers to extend their initial investment to include the new ion trap technology.