Abstract
BackgroundMembrane proteins constitute up to 30% of the human proteome. These proteins have special properties because the transmembrane segments are embedded into lipid bilayer while extramembranous parts are in different environments. Membrane proteins have several functions and are involved in numerous diseases. A large number of prediction methods have been introduced to predict protein subcellular localization as well as the tolerance or pathogenicity of amino acid substitutions.ResultsWe tested the performance of 22 tolerance predictors by collecting information on membrane proteins and variants in them. The analysis indicated that the best tools had similar prediction performance on transmembrane, inside and outside regions of transmembrane proteins and comparable to overall prediction performances for all types of proteins. PON-P2 had the highest performance followed by REVEL, MetaSVM and VEST3. Further, we tested with the high quality dataset also the performance of seven subcellular localization predictors on membrane proteins. We assessed separately the performance for single pass and multi pass membrane proteins. Predictions for multi pass proteins were more reliable than those for single pass proteins.ConclusionsThe predictors for variant effects had better performance than subcellular localization tools. The best tolerance predictors are highly reliable. As there are large differences in the performances of tools, end-users have to be cautious in method selection.
Highlights
Membrane proteins constitute up to 30% of the human proteome
Our aim was to evaluate the performance of variant predictors on Transmembrane protein (TMP)
In addition to overall sensitivity, we investigated whether the different regions of the TMPs had different sensitivities for variations
Summary
Membrane proteins constitute up to 30% of the human proteome. These proteins have special properties because the transmembrane segments are embedded into lipid bilayer while extramembranous parts are in different environments. Membrane proteins have several functions and are involved in numerous diseases. The bilayers contain in addition to lipids many other molecules, among them proteins that have numerous functions. Membrane proteins (MPs) are crucial for membrane stability and cellular functions due to their ability to communicate with the environment outside and inside of membranes. Structure based classification is widely used [4]. It discriminates the MPs depending on how they interact with the lipid membrane. Type I membrane proteins, known as single pass TMPs have extracellular (or luminal) N-terminus and cytoplasmic C-terminus, while type II TMPs have the opposite: extracellular (or luminal) C-terminus and cytoplasmic N-
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