Fei skorda biography of michael jordan

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CERN Accelerating science

Author(s)

Aad, Georges (Marseille, CPPM) ; Abbott, Braden Keim (Oklahoma U.) ; Abbott, D.C. (Massachusetts U., Amherst) ; Abeling, Kira (Gottingen U., II. Phys. Inst.) ; Abidi, Haider (Brookhaven) ; Aboulhorma, Asmaa (Rabat U.) ; Abramowicz, Halina (Tel Aviv U.) ; Abreu, Henso (Technion) ; Abulaiti, Yiming (City Coll., N.Y.) ; Abusleme Hoffman, A.C. (Chile U., Catolica) ; Acharya, Bobby Samir (INFN, Udine ; Udine U. ; ICTP, Trieste ; King's Coll. London, Dept. Math) ; Achkar, Baida (Gottingen U., II. Phys. Inst.) ; Adam, Lennart (Mainz U., Inst. Phys.) ; Adam Bourdarios, Claire (Annecy, LAPP) ; Adamczyk, Leszek (AGH-UST, Cracow) ; Adamek, Lukas (Toronto U.) ; Addepalli, Sagar (Caltech, Pasadena (main) ; Brandeis U.) ; Adelman, Jahred (Northern Illinois U.) ; Adiguzel, Aytul (Istanbul, Tech. U.) ; Adorni Braccesi Chiassi, Sofia (Geneva U.) ; Adye, Tim (Rutherford) ; Affolder, Tony (UC, Santa Cruz) ; Affolder, A.A. (UC, Santa Cruz) ; Afik, Yoav (CERN) ; Agaras, Merve Nazlim (Barcelona, IFAE) ; Agarwala, Jinky (INFN, Pavia ; Pavia U.) ; Aggarwal, Anamika (Mainz U., Inst. Phys.) ; Agheorghiesei, Catalin (Cuza U., Iasi) ; Aguilar Saavedra, Juan Antonio (Granada U., Theor. Phys. Astrophys.) ; Ahmad, Ammara (CERN) ; Ahmadov, Faig (Baku, Inst. Phys.

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Background

The Critical Assessment of Genome Interpretation (CAGI) aims to advance the state-of-the-art for computational prediction of genetic variant impact, particularly where relevant to disease. The five complete editions of the CAGI community experiment comprised 50 challenges, in which participants made blind predictions of phenotypes from genetic data, and these were evaluated by independent assessors.

Results

Performance was particularly strong for clinical pathogenic variants, including some difficult-to-diagnose cases, and extends to interpretation of cancer-related variants. Missense variant interpretation methods were able to estimate biochemical effects with increasing accuracy. Assessment of methods for regulatory variants and complex trait disease risk was less definitive and indicates performance potentially suitable for auxiliary use in the clinic.

Conclusions

Results show that while current methods are imperfect, they have major utility for research and clinical applications. Emerging methods and increasingly large, robust datasets for training and assessment promise further progress ahead.

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