Xenética en Cancro e Enfermidades Raras
Fred Hutchinson Cancer Research Center
Seattle, Estados UnidosPublicacións en colaboración con investigadores/as de Fred Hutchinson Cancer Research Center (41)
2023
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Author Correction: Deciphering colorectal cancer genetics through multi-omic analysis of 100,204 cases and 154,587 controls of European and east Asian ancestries (Nature Genetics, (2023), 55, 1, (89-99), 10.1038/s41588-022-01222-9)
Nature Genetics
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Deciphering colorectal cancer genetics through multi-omic analysis of 100,204 cases and 154,587 controls of European and east Asian ancestries
Nature Genetics, Vol. 55, Núm. 1, pp. 89-99
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Evaluating approaches for constructing polygenic risk scores for prostate cancer in men of African and European ancestry
American Journal of Human Genetics, Vol. 110, Núm. 7, pp. 1200-1206
2022
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Erratum: Correction: Polygenic risk modeling for prediction of epithelial ovarian cancer risk (European journal of human genetics : EJHG (2022) 30 3 (349-362))
European journal of human genetics : EJHG
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Polygenic risk modeling for prediction of epithelial ovarian cancer risk
European journal of human genetics : EJHG, Vol. 30, Núm. 3, pp. 349-362
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Prostate cancer risk stratification improvement across multiple ancestries with new polygenic hazard score
Prostate cancer and prostatic diseases, Vol. 25, Núm. 4, pp. 755-761
2021
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A polymorphism in the promoter of FRAS1 is a candidate SNP associated with metastatic prostate cancer
Prostate, Vol. 81, Núm. 10, pp. 683-693
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Additional SNPs improve risk stratification of a polygenic hazard score for prostate cancer
Prostate Cancer and Prostatic Diseases, Vol. 24, Núm. 2, pp. 532-541
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Polygenic hazard score is associated with prostate cancer in multi-ethnic populations
Nature Communications, Vol. 12, Núm. 1
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Publisher Correction: Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction (Nature Genetics, (2021), 53, 1, (65-75), 10.1038/s41588-020-00748-0)
Nature Genetics
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Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction
Nature Genetics, Vol. 53, Núm. 1, pp. 65-75
2020
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An integrative multi-omics analysis to identify candidate DNA methylation biomarkers related to prostate cancer risk
Nature Communications, Vol. 11, Núm. 1
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Fine-mapping of 150 breast cancer risk regions identifies 191 likely target genes
Nature Genetics, Vol. 52, Núm. 1, pp. 56-73
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Genome-wide association study identifies 32 novel breast cancer susceptibility loci from overall and subtype-specific analyses
Nature Genetics, Vol. 52, Núm. 6, pp. 572-581
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Genomic analysis of male puberty timing highlights shared genetic basis with hair colour and lifespan
Nature Communications, Vol. 11, Núm. 1
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The CHEK2 variant C.349A>G is associated with prostate cancer risk and carriers share a common ancestor
Cancers, Vol. 12, Núm. 11, pp. 1-17
2019
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Association analyses identify 31 new risk loci for colorectal cancer susceptibility
Nature Communications, Vol. 10, Núm. 1
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Circulating metabolic biomarkers of screen-detected prostate cancer in the ProtecT study
Cancer Epidemiology Biomarkers and Prevention, Vol. 28, Núm. 1, pp. 208-216
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Correction to: Association analyses of more than 140,000 men identify 63 new prostate cancer susceptibility loci (Nature Genetics, (2018), 50, 7, (928-936), 10.1038/s41588-018-0142-8)
Nature Genetics
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Erratum to: Genome-wide association study identifies susceptibility loci for B-cell childhood acute lymphoblastic leukemia (Nature Communications, (2018), 9, 1, (1340), 10.1038/s41467-018-03178-z)
Nature Communications