Thermo Scientific Application Note
This application note demonstrates the analysis of trypsin-digested bovine serum albumin (BSA) using a Thermo Scientific Accucore 150-C18 (150 Å pore diameter) nanoLC column.
Accucore™ HPLC columns use Core Enhanced Technology™ to facilitate fast and high efficiency separations. Accucore 150-C18 has been further optimized for the analysis of biomolecules and protein digests by extending the pore size to 150 Å.
The increased pore diameter enables larger peptide fragments to diffuse into the particle and interact with the stationary phase more effectively, resulting in high resolution of these fragments.
Herein, we demonstrate the excellent performance of Accucore 150C18 nanoLC columns for the separation of digested BSA.
A 50 fmol/μL solution of digested BSA was prepared.
Thermo Scientific Dionex UltiMate 3000 RSLCnano LC system, coupled to a Thermo Scientific LTQ-Orbitrap XL mass spectrometer fitted with a Proxeon Nanospray Flex ion source. Accucore 150-C18 2.6 μm, 75 μm i.d. × 150 mm nanoLC column (P/N 16126-157569).
Thermo Scientific National Vials and Closures (P/N MSCERT4000-34W).
The sample was loaded directly on the column (1 μL injection volume) through sample loop at gradient start.
Flow rate: 300 nL/min; A: 0.1 % formic acid in water B: 80:20 acetonitrile: water (4–40% B gradient over 30 min; ramp to 95% B over 2 min; hold for 2 min; drop to 4% B over 1 min; hold for 4 min).
Figure 1: Base peak chromatogram of 50 fmol of digested BSA loaded on an Accucore 150-C18 nanoLC column, 75 μm i.d.Ã50 mm.
Elution of tryptic peptides using the conditions described above was achieved within 36 min (Figure 1). Triplicate analyses showed excellent retention time reproducibility for a set of 12 peptides, with % RSD values below 0.14%. Figure 2 shows the extracted ion chromatograms (EIC) of a subset of the peptides monitored. In all cases the peak shapes were found to be excellent, with minimal peak tailing. A peak capacity value of 200 was obtained (1), showing the high resolution power of Accucore 150-C18 nanoLC columns.
Figure 2: EIC of a set of eight peptides.
Accucore 150-C18 nanoLC columns are an ideal choice for complex proteomic samples, featuring excellent resolution power and run-to-run reproducibility.
(1) X. Wang, Anal. Chem. 78(10), 3406–3416 (2006).
Thermo Fisher Scientific
Tudor Road, Manor Park, Runcorn, Cheshire WA7 1TA, UK
tel. +44 (0) 1928 534110
SEC-MALS of Antibody Therapeutics—A Robust Method for In-Depth Sample Characterization
June 1st 2022Monoclonal antibodies (mAbs) are effective therapeutics for cancers, auto-immune diseases, viral infections, and other diseases. Recent developments in antibody therapeutics aim to add more specific binding regions (bi- and multi-specificity) to increase their effectiveness and/or to downsize the molecule to the specific binding regions (for example, scFv or Fab fragment) to achieve better penetration of the tissue. As the molecule gets more complex, the possible high and low molecular weight (H/LMW) impurities become more complex, too. In order to accurately analyze the various species, more advanced detection than ultraviolet (UV) is required to characterize a mAb sample.