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The Journal of Proteome Research is a peer-reviewed scientific journal published since 2002 by the American Chemical Society. [1] Its publication frequency switched from bimonthly to monthly in 2006. The current editor-in-chief is John R. Yates .
John R. Yates III is an American chemist and Ernest W. Hahn Professor in the Departments of Molecular Medicine and Neurobiology at The Scripps Research Institute in La Jolla, California. He is currently editor-in-chief of the Journal of Proteome Research. He appeared on list of 2022, 2023 and 2024 Highly Cited Researchers, making him among the ...
Journal Citation Reports (JCR) is an annual publication by Clarivate. [1] It has been integrated with the Web of Science and is accessed from the Web of Science Core Collection. It provides information about academic journals in the natural and social sciences, including impact factors. JCR was originally published as a part of the Science ...
Journal of Proteome Research; ... Proteomics (journal) V. Jennifer Van Eyk This page was last edited on 11 June 2024, at 02:12 (UTC). ...
Updates on the Human Proteome Project are regularly published, e.g. in the Journal of Proteome Research (2014). [16] Metrics for the level of confidence associated with protein observations have been published [17] as has been a "MissingProteinPedia". [18] [19]
Historically, thermal proteome profiling has been assessed using a western blot against a known target of interest. With the advent of high resolution Orbitrap mass spectrometers , this type of experiment can be executed on a proteome -wide scale and stability curves can be generated for thousands of proteins at once.
The Journal of Proteomics is a peer-reviewed scientific journal published by Elsevier. It is the official journal of the European Proteomics Association and the editor-in-chief is Juan Calvete. [1] It was established in 1979 as the Journal of Biochemical and Biophysical Methods, [2] obtaining its current name in 2008. [3]
One example of this is a study by Washburn, Wolters, and Yates in which they used shotgun proteomics on the proteome of a Saccharomyces cerevisiae strain grown to mid-log phase. They were able to detect and identify 1,484 proteins as well as identify proteins rarely seen in proteome analysis, including low-abundance proteins like transcription ...