AI Article Synopsis
- Advances in identifying single-variant genetic causes of rare diseases highlight the need for more complex approaches that consider interactions between multiple variants.
- The Variant Combinations Pathogenicity Predictor (VarCoPP) utilizes machine learning to accurately identify pathogenic combinations of gene pairs, known as digenic variants, and provides high confidence levels in its predictions.
- This method not only aids geneticists in narrowing down potential pathogenic combinations efficiently but also offers insights into the reasoning behind its predictions, contributing to a better understanding of rare diseases and enhancing patient care.
Article Abstract
Notwithstanding important advances in the context of single-variant pathogenicity identification, novel breakthroughs in discerning the origins of many rare diseases require methods able to identify more complex genetic models. We present here the Variant Combinations Pathogenicity Predictor (VarCoPP), a machine-learning approach that identifies pathogenic variant combinations in gene pairs (called digenic or bilocus variant combinations). We show that the results produced by this method are highly accurate and precise, an efficacy that is endorsed when validating the method on recently published independent disease-causing data. Confidence labels of 95% and 99% are identified, representing the probability of a bilocus combination being a true pathogenic result, providing geneticists with rational markers to evaluate the most relevant pathogenic combinations and limit the search space and time. Finally, the VarCoPP has been designed to act as an interpretable method that can provide explanations on why a bilocus combination is predicted as pathogenic and which biological information is important for that prediction. This work provides an important step toward the genetic understanding of rare diseases, paving the way to clinical knowledge and improved patient care.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6575632 | PMC |
| http://dx.doi.org/10.1073/pnas.1815601116 | DOI Listing |
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