An efficient approach for obtaining plant organelle genomes

Plant organelle (plastid and mitochondrial) genomes contain substantial information for plant evolution and adaptation. Therefore, it’s important to reveal plant whole-genome sequences including plastid and mitochondrial genomes. To decode these sequences, it is required to efficiently separate orga...

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Veröffentlicht in:Oil Crop Science 2020-07, Vol.5 (3), p.129-135
Hauptverfasser: Sang, Shifei, Mei, Desheng, Zaman, Qamar U., Liu, Jia, Cheng, Hongtao, Fu, Li, Wang, Wenxiang, Wang, Hui, Hu, Qiong
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Sprache:eng
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Zusammenfassung:Plant organelle (plastid and mitochondrial) genomes contain substantial information for plant evolution and adaptation. Therefore, it’s important to reveal plant whole-genome sequences including plastid and mitochondrial genomes. To decode these sequences, it is required to efficiently separate organelle genomic DNA from nucleus genome, which is difficult and laborious. In this study, an efficient procedure was established to obtain plant organelle genomes without extraction of plastid and mitochondria. Organelle DNA was extracted from three materials including Sinapis arvensis var. ‘Yeyou 18’, a cytoplasmic male sterile line (Nsa CMS) and its corresponding maintainer line ‘Zhongshuang 4’. DNA was sequenced by Roche 454 FLX+ and Illumina Miseq platforms. Organelle genomes were assembled using the generated reads and public organelle genome sequences. This research presented a procedure that efficiently assembled organelle genomes and subsequent fill gaps by extending the consensus contig terminals. This method enabled us to assemble plant plastid and mitochondrial genomes simultaneously. The obtained organelle genomes could accelerate understanding of mitochondrial rearrangements and laid a foundation for further study of Sinapis arvensis evolution and sterility gene of Nsa CMS.
ISSN:2096-2428
DOI:10.1016/j.ocsci.2020.07.003