iEnhancer-MFGBDT: Identifying enhancers and their strength by fusing multiple features and gradient boosting decision tree

iEnhancer-MFGBDT: Identifying enhancers and their strength by fusing multiple features and gradient boosting decision tree

Enhancer is a non-coding DNA fragment that can be bound with proteins to activate transcription of a gene, hence play an important role in regulating gene expression. Enhancer identification is very challenging and more complicated than other genetic factors due to their position variation and free...

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Bibliographic Details
Published in:Mathematical biosciences and engineering : MBE Vol. 18; no. 6; pp. 8797 - 8814
Main Authors: Liang, Yunyun, Zhang, Shengli, Qiao, Huijuan, Cheng, Yinan
Format: Journal Article
Language:English
Published: United States AIMS Press 01-01-2021
Subjects:
Decision Trees
DNA
enhancers
gradient boosting decision tree
Humans
identification
multiple features
Sequence Analysis, DNA
Software
identification
enhancers
gradient boosting decision tree
multiple features
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Summary:Enhancer is a non-coding DNA fragment that can be bound with proteins to activate transcription of a gene, hence play an important role in regulating gene expression. Enhancer identification is very challenging and more complicated than other genetic factors due to their position variation and free scattering. In addition, it has been proved that genetic variation in enhancers is related to human diseases. Therefore, identification of enhancers and their strength has important biological meaning. In this paper, a novel model named iEnhancer-MFGBDT is developed to identify enhancer and their strength by fusing multiple features and gradient boosting decision tree (GBDT). Multiple features include k-mer and reverse complement k-mer nucleotide composition based on DNA sequence, and second-order moving average, normalized Moreau-Broto auto-cross correlation and Moran auto-cross correlation based on dinucleotide physical structural property matrix. Then we use GBDT to select features and perform classification successively. The accuracies reach 78.67% and 66.04% for identifying enhancers and their strength on the benchmark dataset, respectively. Compared with other models, the results show that our model is useful and effective intelligent tool to identify enhancers and their strength, of which the datasets and source codes are available at https://github.com/shengli0201/iEnhancer-MFGBDT1.
Bibliography:ObjectType-Article-1
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ISSN:1551-0018
1551-0018
DOI:10.3934/mbe.2021434