AntAngioCOOL: computational detection of anti-angiogenic peptides

Angiogenesis inhibition research is a cutting edge area in angiogenesis-dependent disease therapy, especially in cancer therapy. Recently, studies on anti-angiogenic peptides have provided promising results in the field of cancer treatment. A non-redundant dataset of 135 anti-angiogenic peptides (po...

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Bibliographic Details
Published in:Journal of translational medicine 2019-03, Vol.17 (1), p.71-71, Article 71
Main Authors: Zahiri, Javad, Khorsand, Babak, Yousefi, Ali Akbar, Kargar, Mohammadjavad, Shirali Hossein Zade, Ramin, Mahdevar, Ghasem
Format: Article
Language:English
Subjects:
Amino acids
Analysis
Angiogenesis
Angiogenesis Inhibitors - analysis
Angiogenesis Inhibitors - pharmacology
Angiogenic Proteins - antagonists & inhibitors
Anti-angiogenic
Antiangiogenics
Antineoplastic agents
Artificial intelligence
Cancer
Cancer therapies
Cancer treatment
Cardiovascular disease
Computational Biology
Computer applications
Datasets
Health aspects
Humans
Learning algorithms
Machine Learning
Peptide
Peptides
Proteins
Software
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Summary:Angiogenesis inhibition research is a cutting edge area in angiogenesis-dependent disease therapy, especially in cancer therapy. Recently, studies on anti-angiogenic peptides have provided promising results in the field of cancer treatment. A non-redundant dataset of 135 anti-angiogenic peptides (positive instances) and 135 non anti-angiogenic peptides (negative instances) was used in this study. Also, 20% of each class were selected to construct an independent test dataset (see Additional files 1, 2). We proposed an effective machine learning based R package (AntAngioCOOL) to predict anti-angiogenic peptides. We have examined more than 200 different classifiers to build an efficient predictor. Also, more than 17,000 features were extracted to encode the peptides. Finally, more than 2000 informative features were selected to train the classifiers for detecting anti-angiogenic peptides. AntAngioCOOL includes three different models that can be selected by the user for different purposes; it is the most sensitive, most specific and most accurate. According to the obtained results AntAngioCOOL can effectively suggest anti-angiogenic peptides; this tool achieved sensitivity of 88%, specificity of 77% and accuracy of 75% on the independent test set. AntAngioCOOL can be accessed at https://cran.r-project.org/ . Only 2% of the extracted descriptors were used to build the predictor models. The results revealed that physico-chemical profile is the most important feature type in predicting anti-angiogenic peptides. Also, atomic profile and PseAAC are the other important features.
ISSN:1479-5876
1479-5876
DOI:10.1186/s12967-019-1813-7