Scalable Nanopore sequencing of human genomes provides a comprehensive view of haplotype-resolved variation and methylation
Mikhail Kolmogorov(University of California San Diego), Benedict Paten(University of California, Santa Cruz), Sairam Behera(Central Research Institute for Dryland Agriculture), Jeshuwin Prabakaran(National Institutes of Health), Melissa Meredith(University of California, Santa Cruz), Miten Jain(Northeastern University), Mark Chaisson(University of Southern California), Pilar Álvarez Jerez(National Institute on Aging), Bryan J. Traynor(National Institutes of Health), Fritz J. Sedlazeck(Baylor College of Medicine), Ramita Dewan(National Institutes of Health), Ryan Lorig-Roach(University of California, Santa Cruz), Sonja W. Scholz(School of the Art Institute of Chicago), Jean Monlong(University of California, Santa Cruz), Laksh Malik(National Institutes of Health), Xylena Reed(National Institutes of Health), Trevor Pesout(University of California, Santa Cruz), Kensuke Daida(National Institutes of Health), Mira Mastoras(University of California, Santa Cruz), Karen H. Miga(University of California, Santa Cruz), P. Carnevali(Chan Zuckerberg Initiative (United States)), Cornelis Blauwendraat(National Institutes of Health), Arang Rhie(National Institutes of Health), Kishwar Shafin(Google (United States)), Winston Timp(Johns Hopkins University), Adam M. Phillippy(National Human Genome Research Institute), Mobin Asri(University of California, Santa Cruz), Kimberley J. Billingsley(National Institute on Aging), Jianzhi Yang(University of Southern California), Rylee M. Genner(National Institutes of Health)
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