July 7, 2019  |  

High-coverage sequencing and annotated assemblies of the budgerigar genome.

Authors: Ganapathy, Ganeshkumar and Howard, Jason T and Ward, James M and Li, Jianwen and Li, Bo and Li, Yingrui and Xiong, Yingqi and Zhang, Yong and Zhou, Shiguo and Schwartz, David C and Schatz, Michael and Aboukhalil, Robert and Fedrigo, Olivier and Bukovnik, Lisa and Wang, Ty and Wray, Greg and Rasolonjatovo, Isabelle and Winer, Roger and Knight, James R and Koren, Sergey and Warren, Wesley C and Zhang, Guojie and Phillippy, Adam M and Jarvis, Erich D

Parrots belong to a group of behaviorally advanced vertebrates and have an advanced ability of vocal learning relative to other vocal-learning birds. They can imitate human speech, synchronize their body movements to a rhythmic beat, and understand complex concepts of referential meaning to sounds. However, little is known about the genetics of these traits. Elucidating the genetic bases would require whole genome sequencing and a robust assembly of a parrot genome.We present a genomic resource for the budgerigar, an Australian Parakeet (Melopsittacus undulatus) -- the most widely studied parrot species in neuroscience and behavior. We present genomic sequence data that includes over 300× raw read coverage from multiple sequencing technologies and chromosome optical maps from a single male animal. The reads and optical maps were used to create three hybrid assemblies representing some of the largest genomic scaffolds to date for a bird; two of which were annotated based on similarities to reference sets of non-redundant human, zebra finch and chicken proteins, and budgerigar transcriptome sequence assemblies. The sequence reads for this project were in part generated and used for both the Assemblathon 2 competition and the first de novo assembly of a giga-scale vertebrate genome utilizing PacBio single-molecule sequencing.Across several quality metrics, these budgerigar assemblies are comparable to or better than the chicken and zebra finch genome assemblies built from traditional Sanger sequencing reads, and are sufficient to analyze regions that are difficult to sequence and assemble, including those not yet assembled in prior bird genomes, and promoter regions of genes differentially regulated in vocal learning brain regions. This work provides valuable data and material for genome technology development and for investigating the genomics of complex behavioral traits.

Journal: GigaScience
DOI: 10.1186/2047-217X-3-11
Year: 2014

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