A simple cell-alignment protocol for sedimentation velocity analytical ultracentrifugation to complement mechanical and optical alignment procedures

被引:0
作者
Guy Channell
Vlad Dinu
Gary G. Adams
Stephen E. Harding
机构
[1] The University of Nottingham,National Centre for Macromolecular Hydrodynamics
[2] University of Nottingham,Queens Medical Centre
[3] Universitetet i Oslo,undefined
来源
European Biophysics Journal | 2018年 / 47卷
关键词
Protein aggregation; Dimerisation; Improving measurement precision;
D O I
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中图分类号
学科分类号
摘要
In establishing the sources of data variability within sedimentation velocity analysis in the analytical ultracentrifuge and their relative importance, recent studies have demonstrated that alignment of the sample cells to the centre of rotation is the most significant contributing factor to overall variability, particularly for the characterisation of low levels of protein aggregation. Accurate mechanical and optical alignment tools have been recently designed. In this study, we (1) confirm the effect of misalignment observed by others on the estimated amounts of bovine serum albumin (BSA) monomer and dimer, and the sedimentation coefficient value for the BSA dimer; and (2) demonstrate the high performance of a mechanical alignment tool and the usefulness of a simple and complementary enhanced manual alignment protocol which should be useful for situations where these tools are not available.
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页码:809 / 813
页数:4
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  • [1] Abdelhameed AS(2012)An asymmetric and slightly dimerized structure for the tetanus toxoid protein used in glycoconjugate vaccines Carbohyd Polym 90 1831-1835
  • [2] Morris GA(2009)Detection of protein aggregates by sedimentation velocity analytical ultracentrifugation (SV-AUC): sources of variability and their relative importance J Pharm Sci 98 3522-3539
  • [3] Adams GG(2004)Calculating sedimentation coefficient distributions by direct modeling of sedimentation velocity concentration profiles Methods Enzymol 384 185-212
  • [4] Rowe AJ(2017)An optical alignment system improves precision of soluble aggregate quantitation by sedimentation velocity analytical ultracentrifugation Anal Biochem 53 16-19
  • [5] Laloux O(2010)Precision of protein aggregation measurements by sedimentation velocity analytical ultracentrifugation in biopharmaceutical applications Anal Biochem 396 231-241
  • [6] Cerny L(2011)Measuring low levels of protein aggregation by sedimentation velocity Methods 54 83-91
  • [7] Bonnier B(2018)The Svedberg Lecture. 2017. From nano to micro: the huge dynamic range of the analytical ultracentrifuge for characterising the sizes, shapes and interactions of molecules and assemblies in Biochemistry and Polymer Science Eur Biophys J 97 948-957
  • [8] Duvivier P(2008)The effect of a point mutation on the stability of IgG4 as monitored by analytical ultracentrifugation J Pharm Sci 24 117-128
  • [9] Conrath K(2007)Dynamic light scattering as a relative tool for assessing the molecular integrity and stability of monoclonal antibodies Biotech Gen Eng Rev 78 1606-1619
  • [10] Lenfant C(2000)Size distribution analysis of macromolecules by sedimentation velocity ultracentrifugation and Lamm equation modeling Biophys J 451 69-75
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