Abstract Background Precise identification of three-dimensional genome organization, especially enhancer-promoter interactions (EPIs), is important to deciphering gene regulation, cell differentiation and disease mechanisms. Currently, it is a challenging task to distinguish true interactions from other nearby non-interacting ones since the power of traditional experimental methods is limited due to low resolution or low throughput. Results We propose a novel computational framework EP2vec to assay three-dimensional genomic interactions. We first extract sequence embedding features, defined as fixed-length vector representations learned from variable-length sequences using an unsupervised deep learning method in natural language processing....
Transcription Factor Proteins-DNA interactions play the key role in gene regulation. Identification ...
The identification of enhancer-target gene (ETG) pairs is vital for the understanding of gene transc...
Background: Enhancers play a fundamental role in orchestrating cell state and development. Although ...
How to discriminate distal regulatory elements to a gene target is challenging in understanding gene...
Abstract Background Understanding the regulatory role of enhancer–promoter interactions (EPIs) on sp...
Trabajo presentado en EMBO Workshop, Enhanceropathies: Understanding enhancer function to understand...
Multicellular organismal development is controlled by a complex network of transcription factors, pr...
Multicellular organismal development is controlled by a complex network of transcription factors, pr...
Multicellular organismal development is controlled by a complex network of transcription factors, pr...
Enhancer-promoter interactions (EPIs) play a significant role in the regulation of gene transcriptio...
Despite the advent of high throughput genomics technology and the wealth of data characterizing tran...
We have developed a machine learning approach to predict stimulation-dependent enhancer-promoter int...
BACKGROUND: Many genome-wide collections of candidate cis-regulatory elements (cCREs) have been defi...
With the development of chromosome conformation capture-based techniques, we now know that chromatin...
Enhancers are important non-coding elements, but they have traditionally been hard to characterize e...
Transcription Factor Proteins-DNA interactions play the key role in gene regulation. Identification ...
The identification of enhancer-target gene (ETG) pairs is vital for the understanding of gene transc...
Background: Enhancers play a fundamental role in orchestrating cell state and development. Although ...
How to discriminate distal regulatory elements to a gene target is challenging in understanding gene...
Abstract Background Understanding the regulatory role of enhancer–promoter interactions (EPIs) on sp...
Trabajo presentado en EMBO Workshop, Enhanceropathies: Understanding enhancer function to understand...
Multicellular organismal development is controlled by a complex network of transcription factors, pr...
Multicellular organismal development is controlled by a complex network of transcription factors, pr...
Multicellular organismal development is controlled by a complex network of transcription factors, pr...
Enhancer-promoter interactions (EPIs) play a significant role in the regulation of gene transcriptio...
Despite the advent of high throughput genomics technology and the wealth of data characterizing tran...
We have developed a machine learning approach to predict stimulation-dependent enhancer-promoter int...
BACKGROUND: Many genome-wide collections of candidate cis-regulatory elements (cCREs) have been defi...
With the development of chromosome conformation capture-based techniques, we now know that chromatin...
Enhancers are important non-coding elements, but they have traditionally been hard to characterize e...
Transcription Factor Proteins-DNA interactions play the key role in gene regulation. Identification ...
The identification of enhancer-target gene (ETG) pairs is vital for the understanding of gene transc...
Background: Enhancers play a fundamental role in orchestrating cell state and development. Although ...