A haplotype-resolved genome assembly of the Nile rat facilitates exploration of the genetic basis of diabetes

Huishi Toh(University of California, Santa Barbara), Yury V. Bukhman(Morgridge Institute for Research), Chetan Munegowda(Goethe University Frankfurt), Giulio Formenti(Rockefeller University), Kevin Howe(Wellcome Sanger Institute), Dennis Clegg(University of California, Santa Barbara), Bettina Haase(Rockefeller University), Kalpana Raja(Yale University), Mark Chaisson(University of Southern California), Erich D. Jarvis(Howard Hughes Medical Institute), Bogdan Kirilenko(Goethe University Frankfurt), Michael Hiller(Goethe University Frankfurt), Alan Tracey(Wellcome Sanger Institute), Olivier Fédrigo(Rockefeller University), Guojie Zhang(Zhejiang University), Daisuke Kihara(Purdue University West Lafayette), Lucie A. Bergeron(University of Copenhagen), Lili Yan(Ministry of Education of the People's Republic of China), Wong‐Ho Chow(Chi Mei Medical Center), Sarah J. Swanson(Morgridge Institute for Research), Peng Jiang(Cleveland State University), Arang Rhie(National Human Genome Research Institute), Ron Stewart(Morgridge Institute for Research), Adam M. Phillippy(National Human Genome Research Institute), Chao Yang(China Agricultural University), J. Fogg(University of Wisconsin–Madison), Abhinav K. Jain(The University of Texas MD Anderson Cancer Center), J. A. Thomson(University of Wisconsin–Madison), Jacquelyn Mountcastle(Rockefeller University)
bioRxiv (Cold Spring Harbor Laboratory)
December 10, 2021
Cited by 1


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