De Novo Assembly of the Donkey White Blood Cell Transcriptome and a Comparative Analysis of Phenotype-Associated Genes between Donkeys and Horses

Prior to the mechanization of agriculture and labor-intensive tasks, humans used donkeys (Equus africanus asinus) for farm work and packing. However, as mechanization increased, donkeys have been increasingly raised for meat, milk, and fur in China. To maintain the development of the donkey industry...

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Bibliographic Details
Published in:PloS one 2015-07, Vol.10 (7), p.e0133258-e0133258
Main Authors: Xie, Feng-Yun, Feng, Yu-Long, Wang, Hong-Hui, Ma, Yun-Feng, Yang, Yang, Wang, Yin-Chao, Shen, Wei, Pan, Qing-Jie, Yin, Shen, Sun, Yu-Jiang, Ma, Jun-Yu
Format: Article
Language:English
Subjects:
Agriculture
Animal reproduction
Animal sciences
Animals
Bioinformatics
Blood
Blood cells
Breeding
Comparative analysis
Cultivars
Databases, Protein
Ears & hearing
Equidae - genetics
Equidae - metabolism
Erythrocytes
Evolution & development
Farmworkers
Fragments
Gene expression
Genes
Genetic improvement
Genomes
Germplasm
Horses
Horses - genetics
Horses - metabolism
Laboratories
Leukocytes
Leukocytes - metabolism
Livestock
Meat
Mechanization
Milk
Nucleotide sequence
Phenotype
Phenotypes
Population
Proteins
Transcriptome
White blood cells
Zoology
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Summary:Prior to the mechanization of agriculture and labor-intensive tasks, humans used donkeys (Equus africanus asinus) for farm work and packing. However, as mechanization increased, donkeys have been increasingly raised for meat, milk, and fur in China. To maintain the development of the donkey industry, breeding programs should focus on traits related to these new uses. Compared to conventional marker-assisted breeding plans, genome- and transcriptome-based selection methods are more efficient and effective. To analyze the coding genes of the donkey genome, we assembled the transcriptome of donkey white blood cells de novo. Using transcriptomic deep-sequencing data, we identified 264,714 distinct donkey unigenes and predicted 38,949 protein fragments. We annotated the donkey unigenes by BLAST searches against the non-redundant (NR) protein database. We also compared the donkey protein sequences with those of the horse (E. caballus) and wild horse (E. przewalskii), and linked the donkey protein fragments with mammalian phenotypes. As the outer ear size of donkeys and horses are obviously different, we compared the outer ear size-associated proteins in donkeys and horses. We identified three ear size-associated proteins, HIC1, PRKRA, and KMT2A, with sequence differences among the donkey, horse, and wild horse loci. Since the donkey genome sequence has not been released, the de novo assembled donkey transcriptome is helpful for preliminary investigations of donkey cultivars and for genetic improvement.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0133258