Deciphering the impact of genetic variation on human polyadenylation using APARENT2

released
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    "abstract": "We introduce a residual neural network model, APARENT2, that can infer 3'-cleavage and polyadenylation from DNA sequence more accurately than any previous model. This model generalizes to the case of alternative polyadenylation (APA) for a variable number of polyadenylation signals. We demonstrate APARENT2's performance on several variant datasets, including functional reporter data and human 3' aQTLs from GTEx. We apply neural network interpretation methods to gain insights into disrupted or protective higher-order features of polyadenylation. We fine-tune APARENT2 on human tissue-resolved transcriptomic data to elucidate tissue-specific variant effects. By combining APARENT2 with models of mRNA stability, we extend aQTL effect size predictions to the entire 3' untranslated region. Finally, we perform in silico saturation mutagenesis of all human polyadenylation signals and compare the predicted effects of [Formula: see text] million variants against gnomAD. While loss-of-function variants were generally selected against, we also find specific clinical conditions linked to gain-of-function mutations. For example, we detect an association between gain-of-function mutations in the 3'-end and autism spectrum disorder. To experimentally validate APARENT2's predictions, we assayed clinically relevant variants in multiple cell lines, including microglia-derived cells.",
    "audit": {},
    "authors": "Linder J, Koplik SE, Kundaje A, Seelig G.",
    "award": {
        "@id": "/awards/HG011972/",
        "component": "functional characterization"
    },
    "creation_timestamp": "2023-03-09T23:49:10.053776+00:00",
    "date_published": "2022-12-05",
    "donors": [],
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    "lab": {
        "@id": "/labs/anshul-kundaje/",
        "title": "Anshul Kundaje, Stanford"
    },
    "publication_identifiers": [
        "doi:10.1186/s13059-022-02799-4"
    ],
    "publication_year": 2022,
    "published_by": [
        "IGVF"
    ],
    "release_timestamp": "2023-03-22T23:37:02.101502+00:00",
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    "schema_version": "6",
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    "status": "released",
    "submitted_by": {
        "@id": "/users/6667a92a-d202-493a-8c7d-7a56d1380356/",
        "title": "Khine Lin"
    },
    "summary": "Deciphering the impact of genetic variation on human polyadenylation using APARENT2",
    "title": "Deciphering the impact of genetic variation on human polyadenylation using APARENT2",
    "uuid": "dab160ba-41f5-4ca8-b7d6-b88c8071d42b",
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