Computer vision for pattern detection in chromosome contact maps.
Cyril Matthey-DoretLyam BaudryAxel BreuerRémi MontagneNadège GuiglielmoniVittore F ScolariEtienne JeanArnaud CampeasPhilippe Henri ChanutEdgar OriolAdrien MéotLaurent PolitisAntoine VigourouxPierrick MoreauRomain KoszulAxel CournacPublished in: Nature communications (2020)
Chromosomes of all species studied so far display a variety of higher-order organisational features, such as self-interacting domains or loops. These structures, which are often associated to biological functions, form distinct, visible patterns on genome-wide contact maps generated by chromosome conformation capture approaches such as Hi-C. Here we present Chromosight, an algorithm inspired from computer vision that can detect patterns in contact maps. Chromosight has greater sensitivity than existing methods on synthetic simulated data, while being faster and applicable to any type of genomes, including bacteria, viruses, yeasts and mammals. Our method does not require any prior training dataset and works well with default parameters on data generated with various protocols.
Keyphrases
- genome wide
- deep learning
- electronic health record
- copy number
- big data
- dna methylation
- machine learning
- functional connectivity
- high resolution
- molecular dynamics simulations
- artificial intelligence
- genetic diversity
- label free
- loop mediated isothermal amplification
- gene expression
- crystal structure
- saccharomyces cerevisiae
- protein kinase
- real time pcr
- virtual reality
- mass spectrometry
- neural network