Literature DB >> 24848019

LocTree3 prediction of localization.

Tatyana Goldberg1, Maximilian Hecht2, Tobias Hamp2, Timothy Karl2, Guy Yachdav3, Nadeem Ahmed2, Uwe Altermann2, Philipp Angerer2, Sonja Ansorge2, Kinga Balasz2, Michael Bernhofer2, Alexander Betz2, Laura Cizmadija2, Kieu Trinh Do2, Julia Gerke2, Robert Greil2, Vadim Joerdens2, Maximilian Hastreiter2, Katharina Hembach2, Max Herzog2, Maria Kalemanov2, Michael Kluge2, Alice Meier2, Hassan Nasir2, Ulrich Neumaier2, Verena Prade2, Jonas Reeb2, Aleksandr Sorokoumov2, Ilira Troshani2, Susann Vorberg2, Sonja Waldraff2, Jonas Zierer2, Henrik Nielsen4, Burkhard Rost5.   

Abstract

The prediction of protein sub-cellular localization is an important step toward elucidating protein function. For each query protein sequence, LocTree2 applies machine learning (profile kernel SVM) to predict the native sub-cellular localization in 18 classes for eukaryotes, in six for bacteria and in three for archaea. The method outputs a score that reflects the reliability of each prediction. LocTree2 has performed on par with or better than any other state-of-the-art method. Here, we report the availability of LocTree3 as a public web server. The server includes the machine learning-based LocTree2 and improves over it through the addition of homology-based inference. Assessed on sequence-unique data, LocTree3 reached an 18-state accuracy Q18=80±3% for eukaryotes and a six-state accuracy Q6=89±4% for bacteria. The server accepts submissions ranging from single protein sequences to entire proteomes. Response time of the unloaded server is about 90 s for a 300-residue eukaryotic protein and a few hours for an entire eukaryotic proteome not considering the generation of the alignments. For over 1000 entirely sequenced organisms, the predictions are directly available as downloads. The web server is available at http://www.rostlab.org/services/loctree3.
© The Author(s) 2014. Published by Oxford University Press on behalf of Nucleic Acids Research.

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Year:  2014        PMID: 24848019      PMCID: PMC4086075          DOI: 10.1093/nar/gku396

Source DB:  PubMed          Journal:  Nucleic Acids Res        ISSN: 0305-1048            Impact factor:   16.971


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