Benchmarking tools for detecting longitudinal differential expression in proteomics data allows establishing a robust reproducibility optimization regression approach

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dc.contributor.authorVälikangas Tommi
dc.contributor.authorSuomi Tomi
dc.contributor.authorChandler Courtney E.
dc.contributor.authorScott Alison J.
dc.contributor.authorTran Bao Q.
dc.contributor.authorErnst Robert K.
dc.contributor.authorGoodlett David R.
dc.contributor.authorElo Laura L.
dc.contributor.organizationfi=Turun biotiedekeskus|en=Turku Bioscience Centre|
dc.contributor.organization-code1.2.246.10.2458963.20.18586209670
dc.contributor.organization-code2609201
dc.converis.publication-id177864928
dc.converis.urlhttps://research.utu.fi/converis/portal/Publication/177864928
dc.date.accessioned2023-01-18T03:31:41Z
dc.date.available2023-01-18T03:31:41Z
dc.description.abstractQuantitative proteomics has matured into an established tool and longitudinal proteomics experiments have begun to emerge. However, no effective, simple-to-use differential expression method for longitudinal proteomics data has been released. Typically, such data is noisy, contains missing values, and has only few time points and biological replicates. To address this need, we provide a comprehensive evaluation of several existing differential expression methods for high-throughput longitudinal omics data and introduce a Robust longitudinal Differential Expression (RolDE) approach. The methods are evaluated using over 3000 semi-simulated spike-in proteomics datasets and three large experimental datasets. In the comparisons, RolDE performs overall best; it is most tolerant to missing values, displays good reproducibility and is the top method in ranking the results in a biologically meaningful way. Furthermore, RolDE is suitable for different types of data with typically unknown patterns in longitudinal expression and can be applied by non-experienced users.
dc.identifier.eissn2041-1723
dc.identifier.jour-issn2041-1723
dc.identifier.olddbid191091
dc.identifier.oldhandle10024/174181
dc.identifier.urihttps://www.utupub.fi/handle/11111/44420
dc.identifier.urlhttps://doi.org/10.1038/s41467-022-35564-z
dc.identifier.urnURN:NBN:fi-fe202301173183
dc.language.isoen
dc.okm.affiliatedauthorVälikangas, Tommi
dc.okm.affiliatedauthorSuomi, Tomi
dc.okm.affiliatedauthorElo, Laura
dc.okm.discipline113 Computer and information sciencesen_GB
dc.okm.discipline3111 Biomedicineen_GB
dc.okm.discipline318 Medical biotechnologyen_GB
dc.okm.discipline113 Tietojenkäsittely ja informaatiotieteetfi_FI
dc.okm.discipline3111 Biolääketieteetfi_FI
dc.okm.discipline318 Lääketieteen bioteknologiafi_FI
dc.okm.internationalcopublicationinternational co-publication
dc.okm.internationalityInternational publication
dc.okm.typeA1 ScientificArticle
dc.publisher.countryUnited Kingdomen_GB
dc.publisher.countryBritanniafi_FI
dc.publisher.country-codeGB
dc.relation.doi10.1038/s41467-022-35564-z
dc.relation.ispartofjournalNature Communications
dc.relation.issue1
dc.relation.volume13
dc.source.identifierhttps://www.utupub.fi/handle/10024/174181
dc.titleBenchmarking tools for detecting longitudinal differential expression in proteomics data allows establishing a robust reproducibility optimization regression approach
dc.year.issued2022

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