Are you confused by software licensing? Do you want to know the difference between a subscription and a perpetual license? In this blog, we compare both options and explain the value of each choice for your laboratory. Years ago, the perpetual license model was the...
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Optimized rolling collision energy curves for IDA and SWATH DIA for peptides
During data dependent acquisition (DDA or IDA) or SWATH acquisition, the collision energy can be automatically adjusted according to the mass/charge and charge of the peptide. This dependency has been well characterized on our QTOF systems. By selecting rolling...
Assess the performance of the Echo® MS system
To obtain the best, most reproducible results using the Echo MS system, it is important to select the best solvent for your analyte and matrix and to ensure the flow rate is optimized for your solvent. Please review this flow rate optimization community post to...
Uploading data for use in OneOmics suite
There are two options for data storage when working with the OneOmics suite. You can store your data either within the SCIEX Cloud platform in the Data Store, or you can store data in BaseSpace (Illumina) and link your BaseSpace account with the SCIEX Cloud platform....
What is the difference between a rapid and a thorough search in ProteinPilot software?
When setting up your search in ProteinPilot software, you select either a Rapid Search or a Thorough Search in the Search Effort section. This setting determines which parts of the algorithm will be invoked and effectively how deep into your sample you will search to...
Breaking down the SCIEX Triple Quad™ 7500 LC-MS/MS System – QTRAP® Ready
Sensitivity 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...
The top 5 questions to ask when investing in accurate mass technology for forensic toxicology workflows
Are you considering the purchase of a high-resolution accurate mass (HRAM) instrument for your forensic toxicology lab? To help ensure you invest in a solution that ideally meets your needs, ask yourself the following key questions. 1. How do I ensure my results...
Calling SCIEX Software Users: Windows 10 Support for all SCIEX Software
As a researcher in a busy lab, the software driving your work is critical to your success, and the timely transition of SCIEX applications to Windows 10 is no exception. In early 2020 Microsoft will be ending Windows 7 support, and we want you to know we are taking...
Detect the Signal, Not the Noise
Improving the specificity and selectivity of your assay Your LC-MS assay is only as good as its power to discern your target compound from everything else. Standards dissolved in clean solvents can make beautiful assays, but analytes in real-world samples can behave...
Software Licensing Comparison: Subscription or Perpetual?
Are you confused by software licensing? Do you want to know the difference between a subscription and a perpetual license? In this blog, we compare both options and explain the value of each choice for your laboratory. Years ago, the perpetual license model was the...
Make the Leap from GC to LC-MS/MS
Choosing the best technique for your analysis can be tough. Should you go with gas chromatography/mass spectrometry (GC-MS) or liquid chromatography/tandem mass spectrometry (LC-MS/MS)? That’s the key question. That’s why we’re here to help. The Limitations of...
Industrialize Your Quantitative Proteomics Using a More Simplified Sample Prep
in part 1 and part 2 of this blog series we discussed how you can increase your efficiency for high throughput quantitative proteomics by industrializing your sample analysis and data processing. Microflow SWATH® Acquisition on your TripleTOF® system coupled with OneOmics™ data analysis tools allow you to run samples faster, collect data faster, and process your data files faster. It all adds up to getting more meaningful biological information in a shorter amount of time.
Industrialize Your Quantitative Proteomics with the OneOmics Project
For many labs, the days are long gone when it was acceptable to run only a few samples a week for your quantitative proteomics projects. The pressure for faster turn-around times, to support larger cohort studies, to sustain multiple research directions, and to transition from a purely unbiased discovery mode to verifying something truly unique and interesting, all demand a faster pace. Many labs are now being asked to analyze a hundred samples a week or more. In part 1 of this blog series, we saw how moving to a microflow SWATH workflow can dramatically increase your throughput with little compromise on overall results. In this part, we’ll address what to do with all of this data because it’s just no good if all we’ve done is move the bottleneck downstream.
Taking on Precision Medicine with Industrialized Proteomics
What if we could deliver the right treatment at the right time, to the right person to better, more effectively treat complex disease? This is the promise of precision medicine, to be able to approach complex disease treatment and prevention by taking into account individual variability in genes, environment, and lifestyle for each person.
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