Whole genome sequence and de novo assembly revealed genomic architecture of Indian Mithun (Bos frontalis)

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

DOI

  • Sabyasachi Mukherjee, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India. smup0336@gmail.com.
  • ,
  • Zexi Cai
  • Anupama Mukherjee, Present address: Dairy Cattle Breeding Division, ICAR-National Dairy Research Institute, Karnal, Haryana, 132001, India.
  • ,
  • Imsusosang Longkumer, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India.
  • ,
  • Moonmoon Mech, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India.
  • ,
  • Kezhavituo Vupru, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India.
  • ,
  • Kobu Khate, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India.
  • ,
  • Chandan Rajkhowa, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India.
  • ,
  • Abhijit Mitra, Animal Genetics and Breeding Lab., ICAR-National Research Centre on Mithun, Medziphema, Nagaland, 797106, India.
  • ,
  • Bernt Guldbrandtsen
  • Mogens Sandø Lund
  • Goutam Sahana

BACKGROUND: Mithun (Bos frontalis), also called gayal, is an endangered bovine species, under the tribe bovini with 2n = 58 XX chromosome complements and reared under the tropical rain forests region of India, China, Myanmar, Bhutan and Bangladesh. However, the origin of this species is still disputed and information on its genomic architecture is scanty so far. We trust that availability of its whole genome sequence data and assembly will greatly solve this problem and help to generate many information including phylogenetic status of mithun. Recently, the first genome assembly of gayal, mithun of Chinese origin, was published. However, an improved reference genome assembly would still benefit in understanding genetic variation in mithun populations reared under diverse geographical locations and for building a superior consensus assembly. We, therefore, performed deep sequencing of the genome of an adult female mithun from India, assembled and annotated its genome and performed extensive bioinformatic analyses to produce a superior de novo genome assembly of mithun.

RESULTS: We generated ≈300 Gigabyte (Gb) raw reads from whole-genome deep sequencing platforms and assembled the sequence data using a hybrid assembly strategy to create a high quality de novo assembly of mithun with 96% recovered as per BUSCO analysis. The final genome assembly has a total length of 3.0 Gb, contains 5,015 scaffolds with an N50 value of 1 Mb. Repeat sequences constitute around 43.66% of the assembly. The genomic alignments between mithun to cattle showed that their genomes, as expected, are highly conserved. Gene annotation identified 28,044 protein-coding genes presented in mithun genome. The gene orthologous groups of mithun showed a high degree of similarity in comparison with other species, while fewer mithun specific coding sequences were found compared to those in cattle.

CONCLUSION: Here we presented the first de novo draft genome assembly of Indian mithun having better coverage, less fragmented, better annotated, and constitutes a reasonably complete assembly compared to the previously published gayal genome. This comprehensive assembly unravelled the genomic architecture of mithun to a great extent and will provide a reference genome assembly to research community to elucidate the evolutionary history of mithun across its distinct geographical locations.

OriginalsprogEngelsk
TidsskriftBMC Genomics
Vol/bind20
Nummer1
Sider (fra-til)617
ISSN1471-2164
DOI
StatusUdgivet - 29 jul. 2019
Eksternt udgivetJa

Se relationer på Aarhus Universitet Citationsformater

ID: 160488534