Application Notes
Synthesis to Analysis: Stable Isotope-Labeled Peptides for Proteomic Applications
Stable Isotope Dimethyl Labeling
Individuality Normalization when Labeling with Isotopic Glycan Hydrazide Tags (INLIGHT™): A Novel N-Linked Glycan Relative Quantification Strategy
The Use of Adenosine 5’-Triphosphate (γ-P18O4, 97%) for the Unambiguous Identification of Phosphopeptides
Selection and Synthesis to Analysis: Stable Isotope-Labeled Peptides for Proteomic Applications
Metabolic Isotopic Analysis Reveals Mitochondrial Loss of Function in pRb-Deficient Cells in vivo
Analysis of Whole-Body Branched-Chain Amino Acid Metabolism in Mice Utilizing 20% Leucine 13C6 and 20% Valine 13C5 Mouse Feed
Analysis of Tyrosine Kinase Signaling in Human Cancer by Stable Isotope Labeling with Heavy Amino Acids in Mouse Xenografts Utilizing Mouse Express® Lysine 13C6 Mouse Feed
Targeted LC-SRM/MS Quantification of Mammalian Synaptic Proteins with Mouse Express® Brain Tissue, a New Isotopically Labeled Proteome Standard
Stable Isotope Labeling in Mammals with 15N Spirulina
Metabolic Incorporation of Stable Isotope Labels into Glycans
Full-Length Expressed Stable Isotope-Labeled Proteins for Quantification
Translation and Implementation of PeptiQuant™ Plus Human Plasma BAK-270
Targeted MRM Screening of U-13C Lipid Yeast Extracts for Robust Lipidomics Applications
Fluxing Through Cancer: Tracking the Fate of 13C-Labeled Energy Sources Glucose and Glutamine in Cancer Cells and Mouse Tumors
Tracing Lipid Disposition in vivo Using Stable Isotope-Labeled Fatty Acids and Mass Spectrometry
Fluxing Through Cancer: Tracking the Fate of 13C-Labeled Energy Sources Glucose and Glutamine in Cancer Cells and Mouse Tumors
Determining Protein Turnover in Fish with D7-Leucine
Bile Acid Analysis in Mouse Samples to Study Liver Cholestasis Etiology
From QC to Quantitation: Utility of QReSS™ Metabolites in FBS Measurements
Standardizing Quantitative Metabolomics Analyses Through the QReSS™ Kit
Organic Acid Quantitation in Mouse Muscle by Ion Chromatography-Mass Spectrometry with Isotopically Labeled Standards
Pathway Targeted Metabolomic Analysis in Oral-Head and Neck Cancer Cells Using IC-MS
Development of Hyperpolarized Metabolic Contrast Agents Using PASADENA
Cell-Free Protein Synthesis with 2H/15N/13C-Labeled Amino Acids in H2O for the Production of Perdeuterated Proteins with 1H in the Exchangeable Positions
[2,3-13C]-Labeled Aromatic Residues as a Means to Improving Signal Intensities and Kick-Starting the Assignment of Membrane Proteins by Solid-State MAS-NMR
Effective Site Specific Isotopic Labeling 15N, 13C Glycine; 15N, 13C Phenylalanine; 15N Tryptophan) Expression Optimization Using BioExpress® 2000 Media
in vitro Protein Synthesis of Perdeuterated Proteins for NMR Studies
Top Ten Tips for Producing 13C, 15N Protein in Abundance
Efficient Uniform Isotope Labeling of Proteins Expressed in Baculovirus-Infected Insect Cells Using BioExpress® 2000
Optimization of BioExpress® Supplementation of M9 Cultures
Uniform Isotope Labeling of Eukaryotic Proteins in Methylotrophic Yeast for High-Resolution NMR Studies – Extension to Membrane Proteins
Stereospecific Leu/Val Methyl Labeling: An Important Technology for NMR Studies of High-Molecular-Weight Complexes
Specific Isotopic Labeling of Methyl Groups Has Extended the Molecular Weight Limits for NMR Studies of Protein Structure and Dynamics
Production of U-[2H], Thyr-γ2[13CH3] Labeled Proteins for Methyl-TROSY NMR
Human Biomonitoring: Attogram Level Sensitivity and Consequences for Analytical Standards Purity