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. 2017 Feb 16;542(7641):307-312.
doi: 10.1038/nature21370. Epub 2017 Feb 8.

The genome of Chenopodium quinoa

David E Jarvis  1 Yung Shwen Ho  1 Damien J Lightfoot  1 Sandra M Schmöckel  1 Bo Li  1 Theo J A Borm  2 Hajime Ohyanagi  3 Katsuhiko Mineta  4 Craig T Michell  5 Noha Saber  1 Najeh M Kharbatia  6 Ryan R Rupper  7 Aaron R Sharp  7 Nadine Dally  8 Berin A Boughton  9 Yong H Woo  1 Ge Gao  1 Elio G W M Schijlen  10 Xiujie Guo  1 Afaque A Momin  3 Sónia Negrão  1 Salim Al-Babili  1 Christoph Gehring  1 Ute Roessner  9 Christian Jung  8 Kevin Murphy  1 Stefan T Arold  3 Takashi Gojobori  3 C Gerard van der Linden  2 Eibertus N van Loo  2 Eric N Jellen  7 Peter J Maughan  7 Mark Tester  1
Affiliations

The genome of Chenopodium quinoa

David E Jarvis et al. Nature. .

Erratum in

  • Corrigendum: The genome of Chenopodium quinoa.
    Jarvis DE, Ho YS, Lightfoot DJ, Schmöckel SM, Li B, Borm TJA, Ohyanagi H, Mineta K, Michell CT, Saber N, Kharbatia NM, Rupper RR, Sharp AR, Dally N, Boughton BA, Woo YH, Gao G, Schijlen EGWM, Guo X, Momin AA, Negrão S, Al-Babili S, Gehring C, Roessner U, Jung C, Murphy K, Arold ST, Gojobori T, van der Linden CG, van Loo EN, Jellen EN, Maughan PJ, Tester M. Jarvis DE, et al. Nature. 2017 May 25;545(7655):510. doi: 10.1038/nature22384. Epub 2017 May 10. Nature. 2017. PMID: 28489823

Abstract

Chenopodium quinoa (quinoa) is a highly nutritious grain identified as an important crop to improve world food security. Unfortunately, few resources are available to facilitate its genetic improvement. Here we report the assembly of a high-quality, chromosome-scale reference genome sequence for quinoa, which was produced using single-molecule real-time sequencing in combination with optical, chromosome-contact and genetic maps. We also report the sequencing of two diploids from the ancestral gene pools of quinoa, which enables the identification of sub-genomes in quinoa, and reduced-coverage genome sequences for 22 other samples of the allotetraploid goosefoot complex. The genome sequence facilitated the identification of the transcription factor likely to control the production of anti-nutritional triterpenoid saponins found in quinoa seeds, including a mutation that appears to cause alternative splicing and a premature stop codon in sweet quinoa strains. These genomic resources are an important first step towards the genetic improvement of quinoa.

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Comment in

  • Genomics: Keen insights from quinoa.
    Paterson AH, Kolata AL. Paterson AH, et al. Nature. 2017 Feb 16;542(7641):300-302. doi: 10.1038/nature21495. Epub 2017 Feb 8. Nature. 2017. PMID: 28178235 No abstract available.

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