DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition

Tanvir Alam; Mohammad Tariqul Islam; Mowafa Househ; Abdesselam Bouzerdoum; Ferdaus Ahmed Kawsar

doi:10.3233/SHTI190062

DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition

Tanvir Alam^*, Mohammad Tariqul Islam, Mowafa Househ, Abdesselam Bouzerdoum, Ferdaus Ahmed Kawsar

^*Corresponding author for this work

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

4 Citations (Scopus)

Abstract

Human genes often, through alternative splicing of pre-messenger RNAs, produce multiple mRNAs and protein isoforms that may have similar or completely different functions. Identification of splice sites is, therefore, crucial to understand the gene structure and variants of mRNA and protein isoforms produced by the primary RNA transcripts. Although many computational methods have been developed to detect the splice sites in humans, this is still substantially a challenging problem and further improvement of the computational model is still foreseeable. Accordingly, we developed DeepDSSR (deep donor splice site recognizer), a novel deep learning based architecture, for predicting human donor splice sites. The proposed method, built upon publicly available and highly imbalanced benchmark dataset, is comparable with the leading deep learning based methods for detecting human donor splice sites. Performance evaluation metrics show that DeepDSSR outperformed the existing deep learning based methods. Future work will improve the predictive capabilities of our model, and we will build a model for the prediction of acceptor splice sites.

Original language	English
Title of host publication	Health Informatics Vision
Subtitle of host publication	From Data via Information to Knowledge
Editors	John Mantas, Arie Hasman, Parisis Gallos, Aikaterini Kolokathi, Mowafa S. Househ, Joseph Liaskos
Publisher	IOS Press
Pages	236-239
Number of pages	4
ISBN (Electronic)	9781614999867
DOIs	https://doi.org/10.3233/SHTI190062
Publication status	Published - 2019

Publication series

Name	Studies in Health Technology and Informatics
Volume	262
ISSN (Print)	0926-9630
ISSN (Electronic)	1879-8365

Keywords

Bidirectional long short-term memory
Convolution neural network
Deep learning
Donor splice sites

Access to Document

10.3233/SHTI190062

Cite this

Alam, T., Islam, M. T., Househ, M., Bouzerdoum, A., & Kawsar, F. A. (2019). DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition. In J. Mantas, A. Hasman, P. Gallos, A. Kolokathi, M. S. Househ, & J. Liaskos (Eds.), Health Informatics Vision: From Data via Information to Knowledge (pp. 236-239). (Studies in Health Technology and Informatics; Vol. 262). IOS Press. https://doi.org/10.3233/SHTI190062

Alam, Tanvir ; Islam, Mohammad Tariqul ; Househ, Mowafa et al. / DeepDSSR : Deep Learning Structure for Human Donor Splice Sites Recognition. Health Informatics Vision: From Data via Information to Knowledge. editor / John Mantas ; Arie Hasman ; Parisis Gallos ; Aikaterini Kolokathi ; Mowafa S. Househ ; Joseph Liaskos. IOS Press, 2019. pp. 236-239 (Studies in Health Technology and Informatics).

@inproceedings{3f486e6699bb4771a2565a349212855f,

title = "DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition",

abstract = "Human genes often, through alternative splicing of pre-messenger RNAs, produce multiple mRNAs and protein isoforms that may have similar or completely different functions. Identification of splice sites is, therefore, crucial to understand the gene structure and variants of mRNA and protein isoforms produced by the primary RNA transcripts. Although many computational methods have been developed to detect the splice sites in humans, this is still substantially a challenging problem and further improvement of the computational model is still foreseeable. Accordingly, we developed DeepDSSR (deep donor splice site recognizer), a novel deep learning based architecture, for predicting human donor splice sites. The proposed method, built upon publicly available and highly imbalanced benchmark dataset, is comparable with the leading deep learning based methods for detecting human donor splice sites. Performance evaluation metrics show that DeepDSSR outperformed the existing deep learning based methods. Future work will improve the predictive capabilities of our model, and we will build a model for the prediction of acceptor splice sites.",

keywords = "Bidirectional long short-term memory, Convolution neural network, Deep learning, Donor splice sites",

author = "Tanvir Alam and Islam, {Mohammad Tariqul} and Mowafa Househ and Abdesselam Bouzerdoum and Kawsar, {Ferdaus Ahmed}",

year = "2019",

doi = "10.3233/SHTI190062",

language = "English",

series = "Studies in Health Technology and Informatics",

publisher = "IOS Press",

pages = "236--239",

editor = "John Mantas and Arie Hasman and Parisis Gallos and Aikaterini Kolokathi and Househ, {Mowafa S.} and Joseph Liaskos",

booktitle = "Health Informatics Vision",

address = "United States",

}

Alam, T, Islam, MT, Househ, M , Bouzerdoum, A & Kawsar, FA 2019, DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition. in J Mantas, A Hasman, P Gallos, A Kolokathi, MS Househ & J Liaskos (eds), Health Informatics Vision: From Data via Information to Knowledge. Studies in Health Technology and Informatics, vol. 262, IOS Press, pp. 236-239. https://doi.org/10.3233/SHTI190062

DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition. / Alam, Tanvir; Islam, Mohammad Tariqul; Househ, Mowafa et al.
Health Informatics Vision: From Data via Information to Knowledge. ed. / John Mantas; Arie Hasman; Parisis Gallos; Aikaterini Kolokathi; Mowafa S. Househ; Joseph Liaskos. IOS Press, 2019. p. 236-239 (Studies in Health Technology and Informatics; Vol. 262).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - DeepDSSR

T2 - Deep Learning Structure for Human Donor Splice Sites Recognition

AU - Alam, Tanvir

AU - Islam, Mohammad Tariqul

AU - Househ, Mowafa

AU - Bouzerdoum, Abdesselam

AU - Kawsar, Ferdaus Ahmed

PY - 2019

Y1 - 2019

N2 - Human genes often, through alternative splicing of pre-messenger RNAs, produce multiple mRNAs and protein isoforms that may have similar or completely different functions. Identification of splice sites is, therefore, crucial to understand the gene structure and variants of mRNA and protein isoforms produced by the primary RNA transcripts. Although many computational methods have been developed to detect the splice sites in humans, this is still substantially a challenging problem and further improvement of the computational model is still foreseeable. Accordingly, we developed DeepDSSR (deep donor splice site recognizer), a novel deep learning based architecture, for predicting human donor splice sites. The proposed method, built upon publicly available and highly imbalanced benchmark dataset, is comparable with the leading deep learning based methods for detecting human donor splice sites. Performance evaluation metrics show that DeepDSSR outperformed the existing deep learning based methods. Future work will improve the predictive capabilities of our model, and we will build a model for the prediction of acceptor splice sites.

AB - Human genes often, through alternative splicing of pre-messenger RNAs, produce multiple mRNAs and protein isoforms that may have similar or completely different functions. Identification of splice sites is, therefore, crucial to understand the gene structure and variants of mRNA and protein isoforms produced by the primary RNA transcripts. Although many computational methods have been developed to detect the splice sites in humans, this is still substantially a challenging problem and further improvement of the computational model is still foreseeable. Accordingly, we developed DeepDSSR (deep donor splice site recognizer), a novel deep learning based architecture, for predicting human donor splice sites. The proposed method, built upon publicly available and highly imbalanced benchmark dataset, is comparable with the leading deep learning based methods for detecting human donor splice sites. Performance evaluation metrics show that DeepDSSR outperformed the existing deep learning based methods. Future work will improve the predictive capabilities of our model, and we will build a model for the prediction of acceptor splice sites.

KW - Bidirectional long short-term memory

KW - Convolution neural network

KW - Deep learning

KW - Donor splice sites

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BT - Health Informatics Vision

A2 - Mantas, John

A2 - Hasman, Arie

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A2 - Househ, Mowafa S.

A2 - Liaskos, Joseph

PB - IOS Press

ER -

Alam T, Islam MT, Househ M , Bouzerdoum A, Kawsar FA. DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition. In Mantas J, Hasman A, Gallos P, Kolokathi A, Househ MS, Liaskos J, editors, Health Informatics Vision: From Data via Information to Knowledge. IOS Press. 2019. p. 236-239. (Studies in Health Technology and Informatics). doi: 10.3233/SHTI190062

DeepDSSR: Deep Learning Structure for Human Donor Splice Sites Recognition

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