Prediction of endoplasmic reticulum resident proteins using fragmented amino acid composition and support vector machine

Author:

Kumar Ravindra12,Kumari Bandana1,Kumar Manish1

Affiliation:

1. Department of Biophysics, University of Delhi South Campus, New Delhi, India

2. Newe-Ya’ar Research Center, Agricultural Research Organization, Ramat Yishay, Israel

Abstract

BackgroundThe endoplasmic reticulum plays an important role in many cellular processes, which includes protein synthesis, folding and post-translational processing of newly synthesized proteins. It is also the site for quality control of misfolded proteins and entry point of extracellular proteins to the secretory pathway. Hence at any given point of time, endoplasmic reticulum contains two different cohorts of proteins, (i) proteins involved in endoplasmic reticulum-specific function, which reside in the lumen of the endoplasmic reticulum, called as endoplasmic reticulum resident proteins and (ii) proteins which are in process of moving to the extracellular space. Thus, endoplasmic reticulum resident proteins must somehow be distinguished from newly synthesized secretory proteins, which pass through the endoplasmic reticulum on their way out of the cell. Approximately only 50% of the proteins used in this study as training data had endoplasmic reticulum retention signal, which shows that these signals are not essentially present in all endoplasmic reticulum resident proteins. This also strongly indicates the role of additional factors in retention of endoplasmic reticulum-specific proteins inside the endoplasmic reticulum.MethodsThis is a support vector machine based method, where we had used different forms of protein features as inputs for support vector machine to develop the prediction models. During trainingleave-one-outapproach of cross-validation was used. Maximum performance was obtained with a combination of amino acid compositions of different part of proteins.ResultsIn this study, we have reported a novel support vector machine based method for predicting endoplasmic reticulum resident proteins, named as ERPred. During training we achieved a maximum accuracy of 81.42% withleave-one-outapproach of cross-validation. When evaluated on independent dataset, ERPred did prediction with sensitivity of 72.31% and specificity of 83.69%. We have also annotated six different proteomes to predict the candidate endoplasmic reticulum resident proteins in them. A webserver, ERPred, was developed to make the method available to the scientific community, which can be accessed athttp://proteininformatics.org/mkumar/erpred/index.html.DiscussionWe found that out of 124 proteins of the training dataset, only 66 proteins had endoplasmic reticulum retention signals, which shows that these signals are not an absolute necessity for endoplasmic reticulum resident proteins to remain inside the endoplasmic reticulum. This observation also strongly indicates the role of additional factors in retention of proteins inside the endoplasmic reticulum. Our proposed predictor, ERPred, is a signal independent tool. It is tuned for the prediction of endoplasmic reticulum resident proteins, even if the query protein does not contain specific ER-retention signal.

Funder

Science & Engineering Research Board (SERB)

Department of Science & Technology, Government of India under Fast Track Scheme for Young Scientist

University Grant Commission Major Research Project

University Grant Commission India

Indian Council of Medical Research, India

Publisher

PeerJ

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

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