A haplotype-resolved genome assembly of the Nile rat facilitates exploration of the genetic basis of diabetes
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A haplotype-resolved genome assembly of the Nile rat facilitates exploration of the genetic basis of diabetes. / Toh, Huishi; Yang, Chentao; Formenti, Giulio; Raja, Kalpana; Yan, Lily; Tracey, Alan; Chow, William; Howe, Kerstin; Bergeron, Lucie A.; Zhang, Guojie; Haase, Bettina; Mountcastle, Jacquelyn; Fedrigo, Olivier; Fogg, John; Kirilenko, Bogdan; Munegowda, Chetan; Hiller, Michael; Jain, Aashish; Kihara, Daisuke; Rhie, Arang; Phillippy, Adam M.; Swanson, Scott A.; Jiang, Peng; Clegg, Dennis O.; Jarvis, Erich D.; Thomson, James A.; Stewart, Ron; Chaisson, Mark J. P.; Bukhman, Yury V.
I: BMC Biology, Bind 20, 245, 2022.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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T1 - A haplotype-resolved genome assembly of the Nile rat facilitates exploration of the genetic basis of diabetes
AU - Toh, Huishi
AU - Yang, Chentao
AU - Formenti, Giulio
AU - Raja, Kalpana
AU - Yan, Lily
AU - Tracey, Alan
AU - Chow, William
AU - Howe, Kerstin
AU - Bergeron, Lucie A.
AU - Zhang, Guojie
AU - Haase, Bettina
AU - Mountcastle, Jacquelyn
AU - Fedrigo, Olivier
AU - Fogg, John
AU - Kirilenko, Bogdan
AU - Munegowda, Chetan
AU - Hiller, Michael
AU - Jain, Aashish
AU - Kihara, Daisuke
AU - Rhie, Arang
AU - Phillippy, Adam M.
AU - Swanson, Scott A.
AU - Jiang, Peng
AU - Clegg, Dennis O.
AU - Jarvis, Erich D.
AU - Thomson, James A.
AU - Stewart, Ron
AU - Chaisson, Mark J. P.
AU - Bukhman, Yury V.
N1 - Publisher Copyright: © 2022, The Author(s).
PY - 2022
Y1 - 2022
N2 - Background: The Nile rat (Avicanthis niloticus) is an important animal model because of its robust diurnal rhythm, a cone-rich retina, and a propensity to develop diet-induced diabetes without chemical or genetic modifications. A closer similarity to humans in these aspects, compared to the widely used Mus musculus and Rattus norvegicus models, holds the promise of better translation of research findings to the clinic. Results: We report a 2.5 Gb, chromosome-level reference genome assembly with fully resolved parental haplotypes, generated with the Vertebrate Genomes Project (VGP). The assembly is highly contiguous, with contig N50 of 11.1 Mb, scaffold N50 of 83 Mb, and 95.2% of the sequence assigned to chromosomes. We used a novel workflow to identify 3613 segmental duplications and quantify duplicated genes. Comparative analyses revealed unique genomic features of the Nile rat, including some that affect genes associated with type 2 diabetes and metabolic dysfunctions. We discuss 14 genes that are heterozygous in the Nile rat or highly diverged from the house mouse. Conclusions: Our findings reflect the exceptional level of genomic resolution present in this assembly, which will greatly expand the potential of the Nile rat as a model organism.
AB - Background: The Nile rat (Avicanthis niloticus) is an important animal model because of its robust diurnal rhythm, a cone-rich retina, and a propensity to develop diet-induced diabetes without chemical or genetic modifications. A closer similarity to humans in these aspects, compared to the widely used Mus musculus and Rattus norvegicus models, holds the promise of better translation of research findings to the clinic. Results: We report a 2.5 Gb, chromosome-level reference genome assembly with fully resolved parental haplotypes, generated with the Vertebrate Genomes Project (VGP). The assembly is highly contiguous, with contig N50 of 11.1 Mb, scaffold N50 of 83 Mb, and 95.2% of the sequence assigned to chromosomes. We used a novel workflow to identify 3613 segmental duplications and quantify duplicated genes. Comparative analyses revealed unique genomic features of the Nile rat, including some that affect genes associated with type 2 diabetes and metabolic dysfunctions. We discuss 14 genes that are heterozygous in the Nile rat or highly diverged from the house mouse. Conclusions: Our findings reflect the exceptional level of genomic resolution present in this assembly, which will greatly expand the potential of the Nile rat as a model organism.
KW - Arvicanthis niloticus
KW - Diabetes
KW - Diurnal
KW - Genome
KW - Germline mutation rate
KW - Heterozygosity
KW - Long-read genome assembly
KW - Orthology
KW - Positive selection
KW - Retrogenes
KW - Segmental duplications
U2 - 10.1186/s12915-022-01427-8
DO - 10.1186/s12915-022-01427-8
M3 - Journal article
C2 - 36344967
AN - SCOPUS:85141516597
VL - 20
JO - B M C Biology
JF - B M C Biology
SN - 1741-7007
M1 - 245
ER -
ID: 326727294