Posts Tagged science
Embracing minimal guidelines for the reporting of RT-qPCR experiments: responsibility lies on both ends
In mid-2012, Stephen A. Bustin, Jo Vandesompele and myself, decided to send a letter to the editor of a glam magazine asking for journals to demand authors to provide at least minimal information for the critical evaluation and reproducibility of published RT-qPCR experiments. The lack of information regarding these experiments is inversely proportional to the IF of the journal: the higher the IF, the lower the amount of information provided for these experiments (See Nat Methods. 2013 Nov;10(11):1063-7). It was no surprise then, considering that they were the ones we targeted in the letter (although not explicitly), that glam journals (you know which…) refused publishing the letter.
I found the letter searching for something else in my computer and decided to share it with you, just as it was written back in 2012. The main theme is as true as it was back then.
Stephen A. Bustinb
Jo Vandesompele c
a Department of Molecular Genetics and Microbiology, Faculty of Biological Sciences, Pontificia Universidad Católica de Chile.
Email: firstname.lastname@example.org. Tel: (+562) 6862348
b Queen Mary University of London, UK
Email: email@example.com. Tel: (+44) 2073777000
c Center for Medical Genetics, Ghent University, Belgium
d Biogazelle, Zwijnaarde, Belgium.
Email: Joke.Vandesompele@UGent.be. Tel: (+32) 479353563.
To the Editor:
Reverse transcription real-time quantitative PCR (RT-qPCR) is currently the most widely used molecular method for the detection and quantification of RNA. RNA integrity and purity, primer sequences and their specificity, assay efficiency and identification of appropriate reference genes are just a few of the essential parameters that must be assessed and reported when using this quantitative technique. Most authors however, fail to include them, either in the methods or the online supplementary sections, with some arguably not even having performed the appropriate controls. As has been previously reported, this can lead to flawed data and wasted efforts in trying to reproduce results that can be, in some cases, artifacts and thus not biologically relevant1.
The MIQE guidelines2,3 were proposed to enhance experimental accuracy and transparency and to enable the research community to assess reported data and reproduce published qPCR experiments. The guidelines should be considered a complete “checklist” to be used as a reference for the reporting of results. While the response to these guidelines has been largely positive, in both commercial and research settings, most currently published articles that include qPCR experiments fail to properly report experimental procedures.
Although it is the authors’ task to embrace minimal guidelines that allow for reproducibility and transparency of their studies, journal editors have a responsibility to demand such information. Even though some publishers have implemented the MIQE guidelines or at least the bulk of the recommendations, many top-tier journals continue to publish research that grossly lacks the required information not only to reproduce the reported experiments, but also to evaluate properly the conclusions derived from them. Given that the number of retractions is on the increase, that the majority of retractions are caused by poor experimental protocols and that once published in the peer-reviewed literature, even a rebuttal does not affect a paper’s frequency of citation, we would like to issue a wakeup call to journal editors and publishers.
We urge journals to demand that all manuscripts include such minimum information, in the form of the MIQE or other guidelines, to ensure the accuracy and reproducibility of the reported results. The use of online supplementary sections makes the often used “space constraint” argument no longer valid.
1. Lanoix, D. et al. Quantitative PCR Pitfalls: The Case of the Human Placenta. Mol Biotechnol (2012).
2. Bustin, S.A. et al. The MIQE guidelines: minimum information for publication of quantitative real-time PCR experiments. Clin Chem 55, 611-622 (2009).
3. Bustin, S.A. et al. Primer sequence disclosure: a clarification of the MIQE guidelines. Clin Chem 57, 919-921 (2011).
Quick and simple post, considering it is Jan 1st and I’m still tired from last night, and the fact that I just came back from, you guessed it, the lab.
Anyway, I wanted to know what the most recurring topics were on the top two glam journals during 2013, so I obtained the 2013 PubMed-indexed abstracts from Nature and Science using EBOT and then used Wordle to generate a word cloud.
Here are the results:
It’s pretty easy to do it for any other journal or for any other query in PubMed using Ebot. If you want to do something similar for say, your country or institution and you need help, let me know.