![]() Western blotting is routinely used to detect proteins and their posttranslational modifications (PTM) in biological samples. These findings apply to all Western blot studies, and we highlight quality control checks that should be performed to make Western blot data more quantitative. Using spiked proteins in a way that allowed us to control the total protein amount per lane, while only changing the amount of spiked proteins, we confirm that nonlinearity and saturation of densitometry data, and errors introduced from normalisation processes, can occur in routine assays that compare equal amounts of lysate. We also confirm that when data to be normalised are not directly proportional to protein abundance, it is a mistake to use the normalisation technique of dividing densitometry data from the protein-of-interest with densitometry data from loading control protein(s), as this can cause the normalised data to be unusable for making comparisons. We confirm that ghosting artefacts associated with overabundance of proteins of interest in Western blots can skew findings. Nonlinear densitometry data were observed when Western blots were detected using infrared fluorescence or chemiluminescence, and under different SDS-PAGE conditions. While ideal densitometry data are directly proportional to protein abundance, our data confirm that densitometry data often deviate from this ideal, in which case they can fit nonproportional linear or hyperbolic mathematical models and can reach saturation. Proteins analysed included αSMA, HSP27, ERK1/2, and GAPDH. We ran dilution series of protein lysates to explore the linearity of densitometry data. We assessed the reliability of Western blot data obtained to study human myometrial tissue proteins. These violations can lead to erroneous interpretations of data and may contribute to poor reproducibility of research. In the last decade, it has become apparent that assumptions underpinning these comparisons are often violated in studies reporting Western blot data in the literature. Jiang X, Weise S, Hafner M, Rocker C, Zhang F, Parak WJ, Nienhaus GU (2010) Quantitative analysis of the protein corona on FePt nanoparticles formed by transferrin binding.Densitometry data generated for Western blots are commonly used to compare protein abundance between samples.Jiang X, Weise S, Hafner M, Rocker C, Zhang F, Parak WJ, Nienhaus GU (2010) Quantitative analysis of the protein corona on FePt nanoparticles formed by transferrin binding.Hirano S, Kanno S, Furuyama A (2008) Multi-walled carbon nanotubes injure the plasma membrane of macrophages.Hirano S, Fujitani Y, Furuyama A, Kanno S (2010) Uptake and cytotoxic effects of multi-walled carbon nanotubes in human bronchial epithelial cells.O’Farrell PH (1975) High resolution two-dimensional electrophoresis of proteins.Wick P, Manser P, Limbach LK, Dettlaff-Weglikowska U, Krumeich F, Roth S, Stark WJ, Bruinink A (2007) The degree and kind of agglomeration affect carbon nanotube cytotoxicity.Tabet L, Bussy C, Amara N, Setyan A, Grodet A, Rossi MJ, Pairon JC, Boczkowski J, Lanone S (2009) Adverse effects of industrial multiwalled carbon nanotubes on human pulmonary cells.Oberdorster G, Oberdorster E, Oberdorster J (2005) Nanotoxicology: an emerging discipline evolving from studies of ultrafine particles.Fenoglio I, Croce A, Di Renzo F, Tiozzo R, Fubini B (2000) Pure-silica zeolites (Porosils) as model solids for the evaluation of the physicochemical features determining silica toxicity to macrophages. ![]()
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