Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions
Amidation is an important post translational modification where a peptide ends with an amide group (�NH2) rather than carboxyl group (�COOH). These amidated peptides are less sensitive to proteolytic degradation with extended half-life in the bloodstream. Amides are used in different industries...
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MDPI AG
2021
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my.utp.eprints.295602022-03-25T02:09:08Z Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions Naseer, S. Ali, R.F. Muneer, A. Fati, S.M. Amidation is an important post translational modification where a peptide ends with an amide group (�NH2) rather than carboxyl group (�COOH). These amidated peptides are less sensitive to proteolytic degradation with extended half-life in the bloodstream. Amides are used in different industries like pharmaceuticals, natural products, and biologically active compounds. The in-vivo, ex-vivo, and in-vitro identification of amidation sites is a costly and time-consuming but important task to study the physiochemical properties of amidated peptides. A less costly and efficient alternative is to supplement wet lab experiments with accurate computational models. Hence, an urgent need exists for efficient and accurate computational models to easily identify amidated sites in peptides. In this study, we present a new predictor, based on deep neural networks (DNN) and Pseudo Amino Acid Compositions (PseAAC), to learn efficient, task-specific, and effective representations for valine amidation site identification. Well-known DNN architectures are used in this contribution to learn peptide sequence representations and classify peptide chains. Of all the different DNN based predictors developed in this study, Convolutional neural network-based model showed the best performance surpassing all other DNN based models and reported literature contributions. The proposed model will supplement in-vivo methods and help scientists to determine valine amidation very efficiently and accurately, which in turn will enhance understanding of the valine amidation in different biological processes. © 2021 by the authors. Licensee MDPI, Basel, Switzerland. MDPI AG 2021 Article NonPeerReviewed https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103851143&doi=10.3390%2fsym13040560&partnerID=40&md5=f443ec90d9db9694a849a41316a41c85 Naseer, S. and Ali, R.F. and Muneer, A. and Fati, S.M. (2021) Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions. Symmetry, 13 (4). http://eprints.utp.edu.my/29560/ |
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Amidation is an important post translational modification where a peptide ends with an amide group (�NH2) rather than carboxyl group (�COOH). These amidated peptides are less sensitive to proteolytic degradation with extended half-life in the bloodstream. Amides are used in different industries like pharmaceuticals, natural products, and biologically active compounds. The in-vivo, ex-vivo, and in-vitro identification of amidation sites is a costly and time-consuming but important task to study the physiochemical properties of amidated peptides. A less costly and efficient alternative is to supplement wet lab experiments with accurate computational models. Hence, an urgent need exists for efficient and accurate computational models to easily identify amidated sites in peptides. In this study, we present a new predictor, based on deep neural networks (DNN) and Pseudo Amino Acid Compositions (PseAAC), to learn efficient, task-specific, and effective representations for valine amidation site identification. Well-known DNN architectures are used in this contribution to learn peptide sequence representations and classify peptide chains. Of all the different DNN based predictors developed in this study, Convolutional neural network-based model showed the best performance surpassing all other DNN based models and reported literature contributions. The proposed model will supplement in-vivo methods and help scientists to determine valine amidation very efficiently and accurately, which in turn will enhance understanding of the valine amidation in different biological processes. © 2021 by the authors. Licensee MDPI, Basel, Switzerland. |
| format |
Article |
| author |
Naseer, S. Ali, R.F. Muneer, A. Fati, S.M. |
| spellingShingle |
Naseer, S. Ali, R.F. Muneer, A. Fati, S.M. Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| author_facet |
Naseer, S. Ali, R.F. Muneer, A. Fati, S.M. |
| author_sort |
Naseer, S. |
| title |
Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| title_short |
Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| title_full |
Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| title_fullStr |
Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| title_full_unstemmed |
Iamidev-deep: Valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| title_sort |
iamidev-deep: valine amidation site prediction in proteins using deep learning and pseudo amino acid compositions |
| publisher |
MDPI AG |
| publishDate |
2021 |
| url |
https://www.scopus.com/inward/record.uri?eid=2-s2.0-85103851143&doi=10.3390%2fsym13040560&partnerID=40&md5=f443ec90d9db9694a849a41316a41c85 http://eprints.utp.edu.my/29560/ |
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1738656983116939264 |
| score |
13.251813 |