Relative migration time by Rahima Danishmand | 0 CommentsHow do I set up my processing method to calculate the RRT of the main peak to 10kD in karat 32 software?
Current proteomics software compatibility for ZenoTOF 7600 system by Christie Hunter | 4 CommentsBelow is a summary of various other software packages that are useful for processing proteomics data from the ZenoTOF 7600 system. Note this list is not comprehensive and only covers the tools we have lightly tested to date. Acquisition Type Software Files needed...
How to optimize sample plating to run Echo MS system in ‘Fast acquisition mode’ by Mackenzie Pearson | 0 CommentsThe Echo MS system can acquire data extremely rapidly, at 1 second per sample. To achieve this speed, it should be ensured that there is adequate time between ejections for the analyte signal to return to baseline between ejections. Plating your samples such that you...
High level method optimization considerations for Echo MS system by Mackenzie Pearson | 1 CommentWhile an in-depth discussion of method development and optimization for the Echo® MS system is beyond the scope of a community post, here are some points to consider as part of the process: The maximum recommended ion spray voltage for prolonged electrode life is 5000...
Relative migration time by Rahima Danishmand | CE, QA/QC, Questions, SCIEX OS softwareHow do I set up my processing method to calculate the RRT of the main peak to 10kD in karat 32 software?
Current proteomics software compatibility for ZenoTOF 7600 system by Christie Hunter | Data processing, Life Science Research, Proteomics, SCIEX information, ZenoTOF 7600 systemBelow is a summary of various other software packages that are useful for processing proteomics data from the ZenoTOF 7600 system. Note this list is not comprehensive and only covers the tools we have lightly tested to date. Acquisition Type Software Files needed...
How to optimize sample plating to run Echo MS system in ‘Fast acquisition mode’ by Mackenzie Pearson | Data acquisition, Echo MS, Optimizing Performance, Pharma, SCIEX information, TechnologyThe Echo MS system can acquire data extremely rapidly, at 1 second per sample. To achieve this speed, it should be ensured that there is adequate time between ejections for the analyte signal to return to baseline between ejections. Plating your samples such that you...
High level method optimization considerations for Echo MS system by Mackenzie Pearson | Biopharma, Data acquisition, Echo MS, Environmental / Industrial, Food / Beverage, Life Science Research, Optimizing Performance, Pharma, SCIEX information, TechnologyWhile an in-depth discussion of method development and optimization for the Echo® MS system is beyond the scope of a community post, here are some points to consider as part of the process: The maximum recommended ion spray voltage for prolonged electrode life is 5000...
Understanding MS1 Peak Intensity in ProteinPilot software by Christie Hunter | Data processing, Life Science Research, ProteinPilot, Proteomics, QTOF, SCIEX information, ZenoTOF 7600 systemThe “Intensity (Peptide)” values come from LCMSReconstruct, in ProteinPilot software 5.0. It maps the RT, m/z, intensity MS1 surface to find the peak information for the peptide. The Intensity (Peptide) is a weighted sum of the heights of the isotope series at the...
Breaking down the SCIEX Triple Quad™ 7500 LC-MS/MS System – QTRAP® Ready by Jianru Stahl-Zeng | Blogs, ClinicalSensitivity and robustness carry different meanings in the world of mass spectrometry. Generally, sensitivity refers to an instrument’s ability to achieve lower limits of detection (LOD). Robustness, on the other hand, refers to an instrument’s ability to consistently...
A rising star in food allergen research: proteomics of shellfish allergen by SCIEX Community | Blogs, Food / Beverage, Life Science Research, ProteomicsIt’s important to know what you’re eating, especially if you suffer from a food allergy. About 220 million people worldwide live with a food allergy.1 These numbers, along with the complexity and severity of conditions, continue to rise. In America, there are about 32 million food allergy sufferers—5.6 million of those are children under the age of 18.2.2 That’s 1 out of every 13 children, or about 2 in every classroom. From a financial perspective, the cost of food allergy childcare for US families is up to $25 billion