Improved de novo genomic assembly for the domestic donkey

机译：改进了国产驴的从头基因组组装

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Donkeys and horses share a common ancestor dating back to about 4 million years ago. Although a high-quality genome assembly at the chromosomal level is available for the horse, current assemblies available for the donkey are limited to moderately sized scaffolds. The absence of a better-quality assembly for the donkey has hampered studies involving the characterization of patterns of genetic variation at the genome-wide scale. These range from the application of genomic tools to selective breeding and conservation to the more fundamental characterization of the genomic loci underlying speciation and domestication. We present a new high-quality donkey genome assembly obtained using the Chicago HiRise assembly technology, providing scaffolds of subchromosomal size. We make use of this new assembly to obtain more accurate measures of heterozygosity for equine species other than the horse, both genome-wide and locally, and to detect runs of homozygosity potentially pertaining to positive selection in domestic donkeys. Finally, this new assembly allowed us to identify fine-scale chromosomal rearrangements between the horse and the donkey that likely played an active role in their divergence and, ultimately, speciation.

机译：驴和马的共同祖先可以追溯到大约400万年前。尽管可以在马的染色体水平上获得高质量的基因组装配体，但目前可用于驴的装配体仅限于中等大小的支架。驴没有更好质量的装配，阻碍了涉及在全基因组范围内表征遗传变异模式的研究。这些范围包括从基因组工具的应用到选择性育种和保存，再到基础物种形成和驯化的基因组位点的更基本特征。我们提供了使用Chicago HiRise组装技术获得的新型高质量驴基因组组装，可提供亚染色体大小的支架。我们利用这种新的装配来获得除马以外的马物种的杂合度的更准确度量，无论是在全基因组范围内还是在本地，并检测可能与家驴正选择有关的纯合度。最后，这个新的程序集使我们能够识别马和驴之间的细微染色体重排，这可能在它们的差异以及最终形成物种方面发挥了积极作用。

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期刊名称 Science Advances
作者
Gabriel Renaud; Bent Petersen; Andaine Seguin-Orlando; Mads Frost Bertelsen; Andrew Waller; Richard Newton; Romain Paillot; Neil Bryant; Mark Vaudin; Pablo Librado; Ludovic Orlando;
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年(卷),期 2018(4),4
年度 2018
页码 eaaq0392
总页数 10
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专利

1. Improved de novo genomic assembly for the domestic donkey [J] . Gabriel Renaud, Bent Petersen, Andaine Seguin-Orlando, Science Advances . 2018,第4期

机译：改进了国产驴的从头基因组组装
2. Improving de novo sequence assembly using machine learning and comparative genomics for overlap correction [J] . Lance E Palmer, Mathaeus Dejori, Randall Bolanos, BMC Bioinformatics . 2010,第1期

机译：使用机器学习和比较基因组学改进从头序列装配以进行重叠校正
3. De Novo Assembly and Annotation of the Asian Tiger Mosquito (Aedes albopictus) Repeatome with dnaPipeTE from Raw Genomic Reads and Comparative Analysis with the Yellow Fever Mosquito (Aedes aegypti) [J] . Claire Valiente Moro, Clément Goubert, Cristina Vieira, Genome Biology and Evolution . 2015,第4期

机译：从原始基因组读物中用dnaPipeTE进行亚洲虎蚊（Aedes albopictus）重复组的De Novo组装和注释以及与黄热蚊（Aedes aegypti）的比较分析
4. ReneGENE-Novo: Co-designed Algorithm-Architecture for Accelerated Preprocessing and Assembly of Genomic Short Reads [C] . Santhi Natarajan, N. KrishnaKumar, H. V. Anuchan, International symposium on applied reconfigurable computing . 2018

机译：ReneGENE-Novo：共同设计的算法架构，可加快基因组短读的预处理和组装
5. Conservation genomics of the endangered Mexican wolf and de novo SNP marker development in pumas using next-generation sequencing. [D] . Fitak, Robert Rodgers. 2014

机译：使用下一代测序技术，对濒临灭绝的墨西哥狼和墨西哥新SNP标记的保护基因组学进行研究。
6. Improving transcriptome de novo assembly by using a reference genome of a related species: Translational genomics from oil palm to coconut [O] . Alix Armero, Luc Baudouin, Stéphanie Bocs, 2012

机译：通过使用相关物种的参考基因组改善转录组从头组装：从油棕到椰子的转化基因组学
7. Improving transcriptome #de novo# assembly by using a reference genome of a related species: Translational genomics from oil palm to coconut [O] . Armero Villanueva Alix Augusto, Baudouin Luc, Bocs Stéphanie, 2017

机译：通过使用相关物种的参考基因组改善转录组#de novo＃装配：从油棕到椰子的转化基因组学

Improved de novo genomic assembly for the domestic donkey

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