Abstract

Understanding coding mutations is important for many applications in biology and medicine but the vast mutation space makes comprehensive experimental characterisation impossible. Current predictors are often computationally intensive and difficult to scale, including recent deep learning models. We introduce Sequence UNET, a highly scalable deep learning architecture that classifies and predicts variant frequency from sequence alone using multi-scale representations from a fully convolutional compression/expansion architecture. It achieves comparable pathogenicity prediction to recent methods. We demonstrate scalability by analysing 8.3B variants in 904,134 proteins detected through large-scale proteomics. Sequence UNET runs on modest hardware with a simple Python package.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Abstract 184: The utility of deep metric learning for breast cancer identification on mammographic images
Justin Du ... Sanjay Aneja
Cancer Research | VOL. 81
Justin Du, et. al.Justin Du ... Sanjay Aneja
01 Jul 2021
Explainable artificial intelligence (XAI) for predicting the need for intubation in methanol-poisoned patients: a study comparing deep and machine learning models
Khadijeh Moulaei ... Mitra Rahimi
Scientific Reports | VOL. 14
Khadijeh Moulaei, et. al.Khadijeh Moulaei ... Mitra Rahimi
08 Jul 2024
A Multi-Scale and Multi-Level Fusion Approach for Deep Learning-Based Liver Lesion Diagnosis in Magnetic Resonance Images with Visual Explanation.
Yuchai Wan ... Zheng Zhu
Life | VOL. 11
Yuchai Wan, et. al.Yuchai Wan ... Zheng Zhu
18 Jun 2021
Deep Machine Learning for Medical Diagnosis, Application to Lung Cancer Detection: A Review
Hadrien T Gayap ... Moulay A Akhloufi
BioMedInformatics | VOL. 4
Hadrien T Gayap, et. al.Hadrien T Gayap ... Moulay A Akhloufi
18 Jan 2024
View more papers

More From: Genome biology

Paper Title
Journal
Date
Author
IAMSAM: image-based analysis of molecular signatures using the Segment Anything Model
Dongjoo Lee ... Hongyoon Choi
Genome Biology | VOL. 25
Dongjoo Lee, et. al.Dongjoo Lee ... Hongyoon Choi
11 Nov 2024
Adenine base editors induce off-target structure variations in mouse embryos and primary human T cells
Leilei Wu ... Yidi Sun
Genome Biology | VOL. 25
Leilei Wu, et. al.Leilei Wu ... Yidi Sun
11 Nov 2024
SpottedPy quantifies relationships between spatial transcriptomic hotspots and uncovers environmental cues of epithelial-mesenchymal plasticity in breast cancer
Eloise Withnell ... Maria Secrier
Genome Biology | VOL. 25
Eloise Withnell, et. al.Eloise Withnell ... Maria Secrier
11 Nov 2024
scDOT: optimal transport for mapping senescent cells in spatial transcriptomics
Nam D Nguyen ... Ziv Bar-Joseph
Genome Biology | VOL. 25
Nam D Nguyen, et. al.Nam D Nguyen ... Ziv Bar-Joseph
08 Nov 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.