More and less informative western blot image display practices. The molecular weight marker, annotated with molecular weight labels, serves as a scale bar to confirm that the detected protein is of the expected size ( Fig 2).įig 2. Full-length blots displaying the entire vertical length of the gel ( Fig 2.1) provide important information about protein multiplicity or antibody specificity by allowing readers to see whether additional bands are present. However, these benefits deprive readers of essential information. Digital cropping to display only the bands of interest can save space, allow authors to efficiently combine many blots into a single figure, and focus readers’ attention on the band of interest. For the unprocessed image, see S1 Fig.įig 2 highlights several western blot image display practices that can omit information necessary to interpret western blots, like narrowly cropped blots to display only the band of interest, omitted molecular weight markers, and missing or poorly used molecular weight labels. (6) An image of the western blot is prepared for publication: Annotations are added and often the blot is cropped. (5) The signal is detected through a chemiluminescent reaction or fluorescence, respectively. The latter binds the primary antibody and carries an enzyme or a fluorophore that allows subsequent detection. (4) The membrane is blocked to reduce nonspecific binding and then sequentially probed with a primary antibody that specifically binds to the protein of interest and a secondary antibody. (3) The proteins are transferred, or “blotted”, onto a membrane. (2) Gel electrophoresis is used to separate proteins based on their molecular weight. A molecular weight (MW) marker, which contains prelabeled proteins of varied, known molecular weights, is loaded on the gel alongside the protein sample as a size reference. (1) The sample, typically a mixture of proteins, is loaded on the gel. Western blotting is a standard laboratory method that uses antibodies to detect target proteins in a sample. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.Ĭompeting interests: The authors have declared the no competing interests exist.įig 1. įunding: This study was completed through a participant guided, learn-by doing meta-research course funded by the Berlin University Alliance within the Excellence Strategy of the federal and state governments (301_TrainIndik, TLW). This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.ĭata Availability: The abstraction protocols, search strategy, data, data visualization code and teaching slides are deposited in the Open Science Framework (OSF) repository (RRID:SCR_003238) at. Received: JAccepted: AugPublished: September 12, 2022Ĭopyright: © 2022 Kroon et al. PLoS Biol 20(9):Īcademic Editor: Mathieu J. (2022) Blind spots on western blots: Assessment of common problems in western blot figures and methods reporting with recommendations to improve them. Additional resources include a toolbox to help scientists produce more reproducible western blot data, teaching slides in English and Spanish, and an antibody reporting template.Ĭitation: Kroon C, Breuer L, Jones L, An J, Akan A, Mohamed Ali EA, et al. We present detailed descriptions and visual examples to help scientists, peer reviewers, and editors to publish more informative western blot figures and methods. Important antibody identifiers like company or supplier, catalog number, or RRID were omitted frequently for primary antibodies and regularly for secondary antibodies. Western blot methods sections often lack information on the amount of protein loaded on the gel, blocking steps, and antibody labeling protocol. Publishing blots with visible molecular weight markers is rare, and many blots additionally lack molecular weight labels. Our data show that most published western blots are cropped and blot source data are not made available to readers in the supplement. We systematically examined 551 articles published in the top 25% of journals in neurosciences ( n = 151) and cell biology ( n = 400) that contained western blot images, focusing on practices that may omit important information. While several groups have studied the prevalence of image manipulation or provided recommendations for improving western blotting, data on the prevalence of common publication practices are scarce. Unfortunately, poor western blot image display practices and a lack of detailed methods reporting can limit a reader’s ability to evaluate or reproduce western blot results. Western blotting is a standard laboratory method used to detect proteins and assess their expression levels.