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PLEIO: a method to map and interpret pleiotropic loci with GWAS summary statistics

https://doi.org/10.1016/j.ajhg.2020.11.017

Lee, Cue Hyunkyu ; Shi, Huwenbo ; Pasaniuc, Bogdan ; Eskin, Eleazar ; Han, Buhm ( January 2021 , The American Journal of Human Genetics)
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Technology dictates algorithms: recent developments in read alignment

https://doi.org/10.1186/s13059-021-02443-7

Alser, Mohammed ; Rotman, Jeremy ; Deshpande, Dhrithi ; Taraszka, Kodi ; Shi, Huwenbo ; Baykal, Pelin Icer ; Yang, Harry Taegyun ; Xue, Victor ; Knyazev, Sergey ; Singer, Benjamin D. ; et al ( December 2021 , Genome Biology)

Abstract Aligning sequencing reads onto a reference is an essential step of the majority of genomic analysis pipelines. Computational algorithms for read alignment have evolved in accordance with technological advances, leading to today’s diverse array of alignment methods. We provide a systematic survey of algorithmic foundations and methodologies across 107 alignment methods, for both short and long reads. We provide a rigorous experimental evaluation of 11 read aligners to demonstrate the effect of these underlying algorithms on speed and efficiency of read alignment. We discuss how general alignment algorithms have been tailored to the specific needs of various domains in biology.
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Accurate estimation of SNP-heritability from biobank-scale data irrespective of genetic architecture

https://doi.org/10.1038/s41588-019-0465-0

Hou, Kangcheng ; Burch, Kathryn S. ; Majumdar, Arunabha ; Shi, Huwenbo ; Mancuso, Nicholas ; Wu, Yue ; Sankararaman, Sriram ; Pasaniuc, Bogdan ( August 2019 , Nature Genetics)

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A unifying framework for joint trait analysis under a non-infinitesimal model

https://doi.org/10.1093/bioinformatics/bty254

Johnson, Ruth ; Shi, Huwenbo ; Pasaniuc, Bogdan ; Sankararaman, Sriram ( June 2018 , Bioinformatics)

Abstract Motivation
A large proportion of risk regions identified by genome-wide association studies (GWAS) are shared across multiple diseases and traits. Understanding whether this clustering is due to sharing of causal variants or chance colocalization can provide insights into shared etiology of complex traits and diseases.
Results
In this work, we propose a flexible, unifying framework to quantify the overlap between a pair of traits called UNITY (Unifying Non-Infinitesimal Trait analYsis). We formulate a Bayesian generative model that relates the overlap between pairs of traits to GWAS summary statistic data under a non-infinitesimal genetic architecture underlying each trait. We propose a Metropolis–Hastings sampler to compute the posterior density of the genetic overlap parameters in this model. We validate our method through comprehensive simulations and analyze summary statistics from height and body mass index GWAS to show that it produces estimates consistent with the known genetic makeup of both traits.
Availability and implementation
The UNITY software is made freely available to the research community at: https://github.com/bogdanlab/UNITY.
Supplementary information
Supplementary data are available at Bioinformatics online.

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