Application Notes

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Displaying  10  of 10 application notes
Reference Title and Description
203-821-662 A Comprehensive GC-TOFMS Metabolomics Workflow

Early Type 2 Diabetes prediction can be facilitated by the implementation of a metabolomics method for the identification of T2DM biomarkers. A complete automated derivatization workflow is explored.

203-821-502 High-Resolution GCxGC for Improved Yeast Metabolite Characterization

203-821-561 Introduction to Simply GCxGC

An Online Guide for Optimizing Comprehensive Two Dimensional GC Separations

203-821-569 StayClean Ion Source Stability

203-821-526 Metabolomic Profiling of Corn and Rice Extracts Using a Benchtop GC-TOFMS

203-821-504 Quantitative Analysis of y-Hydroxybutyrate in Hair using Target Analyte Finding Processing of Comprehensive GC-HRT Data

203-821-503 How Comprehensive is Your Analysis? Human Molecular Profiling Using High Resolution Time-of-Flight Mass Spectrometry

203-821-377 Utilization of Statistical Compare Software and Fisher Ratios Prior to Multivariate Analysis for Complex GCxGC-TOFMS Data in Order to Define Statistical Variation Between the Small Molecule Metabolite Profiles of Different Fish Species

203-821-447 Enhanced Metabolite Profiling: Hard and Soft Ionization High-Resolution Time-of-Flight Mass Spectrometry

203-821-422 Application of GC High Resolution Time-of-Flight Mass Spectrometry to Mouse Liver Metabolomic Analyses

Liver disease affects more than 800 million people worldwide causing at least 1.5 million deaths annually. Mice provided a reliable model for detection of polychlorinated biphenyls associated with non-alcoholic fatty liver disease.