ReAS: Recovery of ancestral sequences for transposable elements from the unassembled reads of a whole genome shotgun

Ruiqiang Li; Jia Ye; Songgang Li; Jing Wang; Yujun Han; Chen Ye; Jian Wang; Huanming Yang; Jun Yu; Gane Ka Shu Wong; Jun Wang

Journal ArticleOPEN ACCESS

ReAS: Recovery of ancestral sequences for transposable elements from the unassembled reads of a whole genome shotgun

Li R
Ye J
Li S
et al.

PLoS Computational Biology (2005) 1(4) 0313-0321

DOI: 10.1371/journal.pcbi.0010043

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Abstract

We describe an algorithm, ReAS, to recover ancestral sequences for transposable elements (TEs) from the unassembled reads of a whole genome shotgun. The main assumptions are that these TEs must exist at high copy numbers across the genome and must not be so old that they are no longer recognizable in comparison to their ancestral sequences. Tested on the japonica rice genome, ReAS was able to reconstruct all of the high copy sequences in the Repbase repository of known TEs, and increase the effectiveness of RepeatMasker in identifying TEs from genome sequences. © 2005 Li et al.

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APA

Li, R., Ye, J., Li, S., Wang, J., Han, Y., Ye, C., … Wang, J. (2005). ReAS: Recovery of ancestral sequences for transposable elements from the unassembled reads of a whole genome shotgun. PLoS Computational Biology, 1(4), 0313–0321. https://doi.org/10.1371/journal.pcbi.0010043

ReAS: Recovery of ancestral sequences for transposable elements from the unassembled reads of a whole genome shotgun

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