3Cnet: pathogenicity prediction of human variants using multitask learning with evolutionary constraints

Won, Dhong-gun; Kim, Dong-Wook; Woo, Junwoo; Lee, Kyoungyeul

doi:10.1093/bioinformatics/btab529

Cited by 22 publications

(19 citation statements)

References 39 publications

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“…ClinPred integrates normal population variant frequency data from genomAD with cleaner ClinVar annotations into existing pathogenicity scores, which performed better than other top tools across several metrics ( 131 ). 3Cnet, uses neural networks trained using population data (genomAD), conservation data (UniREF) and clinical data (ClinVar) to outperform most popular tools including REVEL, SIFT, and PolyPhen previously discussed ( 132 ).…”

Section: Computational and Predictive Datamentioning

confidence: 99%

How Functional Genomics Can Keep Pace With VUS Identification

Anderson

Munawar

Reilly

et al. 2022

Front. Cardiovasc. Med.

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Over the last two decades, an exponentially expanding number of genetic variants have been identified associated with inherited cardiac conditions. These tremendous gains also present challenges in deciphering the clinical relevance of unclassified variants or variants of uncertain significance (VUS). This review provides an overview of the advancements (and challenges) in functional and computational approaches to characterize variants and help keep pace with VUS identification related to inherited heart diseases.

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Section: Computational and Predictive Datamentioning

confidence: 99%

How Functional Genomics Can Keep Pace With VUS Identification

Anderson

Munawar

Reilly

et al. 2022

Front. Cardiovasc. Med.

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“…Sequence-based techniques [ 8 , 9 , 10 , 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 ] are used to construct the most common tools for predicting the pathogenicity of genetic variations. For instance, REVEL [ 10 ] employs a random forest method based on ensemble methods with 13 pathogenicity predictors.…”

Section: Computational Prediction Of Pathogenic Variants Of Cancer Su...mentioning

confidence: 99%

“…Splice AI [ 13 ] can accurately predict splice junctions from an arbitrary pre-mRNA transcript sequence based on a deep neural network (DNN). Other novel prediction tools based on the utilized recurrent neural network, XGBoost (a variant of the gradient boosted tree), include 3Cnet [ 14 ] and VARITY [ 17 ]. The neural network can manage large training datasets and many correlated predictors.…”

Section: Computational Prediction Of Pathogenic Variants Of Cancer Su...mentioning

confidence: 99%

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Cutting-Edge AI Technologies Meet Precision Medicine to Improve Cancer Care

et al. 2022

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To provide precision medicine for better cancer care, researchers must work on clinical patient data, such as electronic medical records, physiological measurements, biochemistry, computerized tomography scans, digital pathology, and the genetic landscape of cancer tissue. To interpret big biodata in cancer genomics, an operational flow based on artificial intelligence (AI) models and medical management platforms with high-performance computing must be set up for precision cancer genomics in clinical practice. To work in the fast-evolving fields of patient care, clinical diagnostics, and therapeutic services, clinicians must understand the fundamentals of the AI tool approach. Therefore, the present article covers the following four themes: (i) computational prediction of pathogenic variants of cancer susceptibility genes; (ii) AI model for mutational analysis; (iii) single-cell genomics and computational biology; (iv) text mining for identifying gene targets in cancer; and (v) the NVIDIA graphics processing units, DRAGEN field programmable gate arrays systems and AI medical cloud platforms in clinical next-generation sequencing laboratories. Based on AI medical platforms and visualization, large amounts of clinical biodata can be rapidly copied and understood using an AI pipeline. The use of innovative AI technologies can deliver more accurate and rapid cancer therapy targets.

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“…Despite the continuous accumulation of known pathogenic and benign variants in databases such as ClinVar [ 2 ] and the Human Gene Mutation Database (HGMD) [ 3 ], they are far from complete. For example, ClinVar has high-confidence pathogenicity labels for fewer than 100 thousand of all possible 82 million missense variants [ 4 ], and the HGMD collection grows by thousands of pathogenic variants every year [ 3 , 5 ]. This necessitates the development of computational tools that can distinguish pathogenic variants from benign ones.…”

Section: Introductionmentioning

confidence: 99%

X-CAP improves pathogenicity prediction of stopgain variants

et al. 2022

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Stopgain substitutions are the third-largest class of monogenic human disease mutations and often examined first in patient exomes. Existing computational stopgain pathogenicity predictors, however, exhibit poor performance at the high sensitivity required for clinical use. Here, we introduce a new classifier, termed X-CAP, which uses a novel training methodology and unique feature set to improve the AUROC by 18% and decrease the false-positive rate 4-fold on large variant databases. In patient exomes, X-CAP prioritizes causal stopgains better than existing methods do, further illustrating its clinical utility. X-CAP is available at https://github.com/bejerano-lab/X-CAP.

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3Cnet: pathogenicity prediction of human variants using multitask learning with evolutionary constraints

Cited by 22 publications

References 39 publications

How Functional Genomics Can Keep Pace With VUS Identification

How Functional Genomics Can Keep Pace With VUS Identification

Cutting-Edge AI Technologies Meet Precision Medicine to Improve Cancer Care

X-CAP improves pathogenicity prediction of stopgain variants

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