Donkey genome and insight into the imprinting of fast karyotype evolution

Donkey genome and insight into the imprinting of fast karyotype evolution

The donkey, like the horse, is a promising model for exploring karyotypic instability. We report the de novo whole-genome assemblies of the donkey and the Asiatic wild ass. Our results reflect the distinct characteristics of donkeys, including more effective energy metabolism and better immunity tha...

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Veröffentlicht in:Scientific reports 2015-09, Vol.5 (1), p.14106-14106, Article 14106
Hauptverfasser: Huang, Jinlong, Zhao, Yiping, Bai, Dongyi, Shiraigol, Wunierfu, Li, Bei, Yang, Lihua, Wu, Jing, Bao, Wuyundalai, Ren, Xiujuan, Jin, Burenqiqige, Zhao, Qinan, Li, Anaer, Bao, Sarula, Bao, Wuyingga, Xing, Zhencun, An, Aoruga, Gao, Yahan, Wei, Ruiyuan, Bao, Yirugeletu, Bao, Taoketao, Han, Haige, Bai, Haitang, Bao, Yanqing, Zhang, Yuhong, Daidiikhuu, Dorjsuren, Zhao, Wenjing, Liu, Shuyun, Ding, Jinmei, Ye, Weixing, Ding, Fangmei, Sun, Zikui, Shi, Yixiang, Zhang, Yan, Meng, He, Dugarjaviin, Manglai
Format: Artikel
Sprache:eng
Schlagworte:
631/208/211
631/208/212
Animals
Cell cycle
Centromere - genetics
Computational Biology - methods
Equidae - genetics
Evolution
Evolution, Molecular
Gene Rearrangement
Genome
Genomes
Genomic Imprinting
Genomics - methods
Horses
Humanities and Social Sciences
Karyotype
Karyotypes
MicroRNAs - genetics
Molecular Sequence Annotation
multidisciplinary
Repetitive Sequences, Nucleic Acid
RNA Interference
RNA, Messenger - genetics
Science
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Zusammenfassung:The donkey, like the horse, is a promising model for exploring karyotypic instability. We report the de novo whole-genome assemblies of the donkey and the Asiatic wild ass. Our results reflect the distinct characteristics of donkeys, including more effective energy metabolism and better immunity than horses. The donkey shows a steady demographic trajectory. We detected abundant satellite sequences in some inactive centromere regions but not in neocentromere regions, while ribosomal RNAs frequently emerged in neocentromere regions but not in the obsolete centromere regions. Expanded miRNA families and five newly discovered miRNA target genes involved in meiosis may be associated with fast karyotype evolution. APC/C, controlling sister chromatid segregation, cytokinesis and the establishment of the G1 cell cycle phase were identified by analysis of miRNA targets and rapidly evolving genes.
ISSN:2045-2322
2045-2322
DOI:10.1038/srep14106