This application note presents a reversed-phase LC method capable of separating all relevant reduction-induced LMW species of the NISTmAb.
Top-down characterization of engineered Bcl-xL proteoforms
October 11th 2024Top-down fragmentation enables rapid characterization of phosphorylated proteins without extensive sample preparation and digestion. In this study, electron capture dissociation (ECD) was used to fragment proteoforms of the cell death-related protein, Bcl-xL. Using these methods, 85–90% sequence coverage was achieved for Bcl-xL proteoforms, allowing for effective localization of phosphorylation within minutes.
Antibody peptide mapping using the new Agilent ExD cell
October 11th 2024Enhanced antibody analysis using electron capture dissociation (ECD) allows for precise glycan localization in low-abundance glycopeptides. This study compares the fragmentation of trastuzumab tryptic digests using ECD and collision-induced dissociation (CID). While CID generates abundant glycan HexNAc ions at 204 m/z, ECD preserves the labile glycan group, enabling accurate site localization.
Identification of Amino Acid Isomers Using Electron Capture Dissociation
October 11th 2024Electron capture dissociation produces distinct fragments of amino acid side chains, enabling the identification of isomeric amino acids such as leucine and isoleucine. This application note demonstrates the isomer identification workflow for peptides and intact proteins using the new Agilent ExD cell and ExDViewer software for fragment analysis.
Trends, Best Practices, and Analytical Challenges in Chemical Characterization of Medical Devices
October 7th 2024Chemical characterization of medical devices, including drug-device combination products, is crucial for ensuring regulatory compliance and patient safety by identifying and quantifying chemicals that may interact with the human body. This paper explores current trends, best practices, and regulatory developments in extractables and leachables (E&L) testing for medical devices.
Top-down characterization of engineered Bcl-xL proteoforms
October 11th 2024Top-down fragmentation enables rapid characterization of phosphorylated proteins without extensive sample preparation and digestion. In this study, electron capture dissociation (ECD) was used to fragment proteoforms of the cell death-related protein, Bcl-xL. Using these methods, 85–90% sequence coverage was achieved for Bcl-xL proteoforms, allowing for effective localization of phosphorylation within minutes.
Antibody peptide mapping using the new Agilent ExD cell
October 11th 2024Enhanced antibody analysis using electron capture dissociation (ECD) allows for precise glycan localization in low-abundance glycopeptides. This study compares the fragmentation of trastuzumab tryptic digests using ECD and collision-induced dissociation (CID). While CID generates abundant glycan HexNAc ions at 204 m/z, ECD preserves the labile glycan group, enabling accurate site localization.
Identification of Amino Acid Isomers Using Electron Capture Dissociation
October 11th 2024Electron capture dissociation produces distinct fragments of amino acid side chains, enabling the identification of isomeric amino acids such as leucine and isoleucine. This application note demonstrates the isomer identification workflow for peptides and intact proteins using the new Agilent ExD cell and ExDViewer software for fragment analysis.
Trends, Best Practices, and Analytical Challenges in Chemical Characterization of Medical Devices
October 7th 2024Chemical characterization of medical devices, including drug-device combination products, is crucial for ensuring regulatory compliance and patient safety by identifying and quantifying chemicals that may interact with the human body. This paper explores current trends, best practices, and regulatory developments in extractables and leachables (E&L) testing for medical devices.