De novo assembly of the Indian blue peacock (Pavo cristatus) genome using Oxford Nanopore technology and Illumina sequencing

Ruby Dhar; Ashikh Seethy; Karthikeyan Pethusamy; Sunil Singh; Vishwajeet Rohil; Kakali Purkayastha; Indrani Mukherjee; Sandeep Goswami; Rakesh Singh; Ankita Raj; Tryambak Srivastava; Sovon Acharya; Balaji Rajashekhar; Subhradip Karmakar

doi:10.1093/gigascience/giz038

De novo assembly of the Indian blue peacock (Pavo cristatus) genome using Oxford Nanopore technology and Illumina sequencing

Gigascience. 2019 May 1;8(5):giz038. doi: 10.1093/gigascience/giz038.

Authors

Affiliations

¹ Department of Biochemistry, Room 3020, AIIMS - All India Institute of Medical Sciences, Ansari Nagar, New Delhi 110029, India.
² Vallabhbhai Patel Chest Institute (VPCI), Delhi University, New Delhi 110007, India.
³ Kanpur Zoo, Hastings Ave, Azad Nagar, Nawabganj, Kanpur, Uttar Pradesh 208002, India.
⁴ Institute of Computer Science, University of Tartu, J. Liivi, Tartu 50409, Estonia.
⁵ Celixa, 19/1 Sankey Road, Bangalore 560020, India.

Abstract

Background: The Indian peafowl (Pavo cristanus) is native to South Asia and is the national bird of India. Here we present a draft genome sequence of the male blue peacock using Illumina and Oxford Nanopore technology (ONT).

Results: ONT sequencing gave ∼2.3-fold sequencing coverage, whereas Illumina generated 150-base pair paired-end sequence data at 284.6-fold coverage from 5 libraries. Subsequently, we generated a 0.915-gigabase pair de novo assembly of the peacock genome with a scaffold N50 of 0.23 megabase pairs (Mb). We predict that the peacock genome contains 23,153 protein-coding genes and 75.3 Mb (7.33%) of repetitive sequences.

Conclusions: We report a high-quality assembly of the peacock genome using a hybrid approach of sequences generated by both Illumina and ONT. The long-read chemistry generated by ONT was useful for addressing challenges related to de novo assembly, particularly at regions containing repetitive sequences spanning longer than the read length, and which could not be resolved with only short-read-based assembly. Contig assembly of Illumina short reads gave an N50 of 1,639 bases, whereas with ONT, the N50 increased by >9-fold to 14,749 bases. The initial contig assembly based on Illumina sequencing reads alone gave 685,241 contigs. Further scaffolding on assembled contigs using both Illumina and ONT sequencing reads resulted in a final assembly of 15,025 super-scaffolds, with an N50 of ∼0.23 Mb. Ninety-five percent of proteins predicted by homology matched with those in a public repository, verifying the completeness of our assembly. Like other phylogenetic studies of avian conserved genes, we found P. cristatus to be most closely related to Gallus gallus, followed by Meleagris gallopavo and Anas platyrhynchos. Compared with the recently published peacock genome assembly, the current, superior, hybrid assembly has greater sequencing depth, fewer non-ATGC sequences, and fewer scaffolds.

Keywords: Indian national bird; Oxford Nanopore; Pavo cristatus; genome assembly; peacock.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Animals
Avian Proteins / genetics
Galliformes / classification
Galliformes / genetics*
Genome*
Molecular Sequence Annotation*
Nanopore Sequencing
Phylogeny
Whole Genome Sequencing

Substances

Avian Proteins