Introduction

Recent advances in sequence technology result in large datasets of sequence variants. For the human genome, several tools are available to predict the impact of these variants on gene and protein functions. However, for model organisms such as yeast such tools are lacking, specifically to predict the effect of protein sequence altering variants on the protein level. We present a python framework that enables users to map in a fully automated fashion large set of variants to protein functional regions and post-translationally modified residues. Furthermore, we provide the user with the possibility to retrieve predicted functional information on modified residues from other resources for example that are predicted to play a role in protein-protein interactions. The results are complemented by statistical tests to highlight the significance of underlying functions and pathways affected by mutations. We show the application of this package on a yeast dataset derived from a recent evolutionary experiment on adaptation to ethanol.The package is available from https://github.com/CSB-KUL/yMap and is implemented in Python.vera.vannoort@biw.kuleuven.be.Supplementary data are available at Bioinformatics online.

Publications

  1. yMap: an automated method to map yeast variants to protein modifications and functional regions.
    Cite this
    Arslan A, van Noort V, 2017-02-01 - Bioinformatics (Oxford, England)

Credits

  1. Ahmed Arslan
    Developer

    KU Leuven, Centre for Microbial and Plants Genetics (CMPG), Belgium

  2. Vera van Noort
    Investigator

    KU Leuven, Centre for Microbial and Plants Genetics (CMPG), Belgium

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Summary
AccessionBT006611
Tool TypeApplication
Category
PlatformsLinux/Unix
Technologies
User InterfaceTerminal Command Line
Download Count0
Country/RegionBelgium
Submitted ByVera van Noort