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Rapid Domestication of Wild Allotetraploid Rice: Starting a New Era of Human Agricultural Civilization

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  • 1State Key Laboratory of Agrobiotechnology, China Agricultural University, Beijing 100193, China
    2State Key Laboratory of Plant Physiology and Biochemistry, China Agricultural University, Beijing 100193, China
    3College of Agronomy and Biotechnology, China Agricultural University, Beijing 100193, China

Received date: 2021-01-27

  Accepted date: 2021-02-01

  Online published: 2021-02-03

Abstract

It is an important event in the human history to domesticate wild plants into cultivated crops through selection of favorable genetic variations. Domesticated crops provide food to meet human needs and thereby promote the sustainable development of human civilization. At present, the global food security is becoming a serious challenge owing to the booming human population, the decrease of arable land, and the frequent occurrence of extreme weather. Based on the understanding of molecular mechanism underlying the domestication and important agronomic traits in crops, de novo domesticating wild plants into new crops, an approach combined with high-throughput genome sequencing and genome editing technology, will be one of effective strategies to face this challenge. Recently a team led by Prof. Jiayang Li in Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, successfully de novo domesticated wild allotetraploid rice by optimizing the genetic transformation system, de novoassembling the wild allotetraploid rice (Oryza alta) genome, and editing several genes that control key domestication-related and agronomical traits, including seed shattering, awn, plant architecture, seed size, and heading date. This is a breakthrough study that not only demonstrated the possibility of rapid de novo domestication of wild allotetraploid rice into a staple cereal to strength global food security, but also provided new insights into the utilization of new ideocrops originating from de novo domestication of wild or semi-wild plants in the future.

Cite this article

Lubin Tan, Chuanqing Sun . Rapid Domestication of Wild Allotetraploid Rice: Starting a New Era of Human Agricultural Civilization[J]. Chinese Bulletin of Botany, 2021 , 56(2) : 134 -137 . DOI: 10.11983/CBB21022

References

[1] Chen QY, Li WY, Tan LB, Tian F (2021). Harnessing knowledge from maize and rice domestication for new crop breeding. Mol Plant 14,9-26.
[2] Doebley JF, Gaut BS, Smith BD (2006). The molecular genetics of crop domestication. Cell 127,1309-1321.
[3] Fang Z, Morrell PL (2016). Domestication: polyploidy boosts domestication. Nat Plants 2,16116.
[4] Fernie AR, Yan JB (2019). De novo domestication: an alternative route toward new crops for the future. Mol Plant 12,615-631.
[5] Jiao Y, Wang Y, Xue D, Wang J, Yan M, Liu G, Dong G, Zeng D, Lu Z, Zhu X, Qian Q, Li J (2010). Regulation of OsSPL14 by OsmiR156 defines ideal plant architecture in rice. Nat Genet 42,541-544.
[6] Tian ZX, Wang JW, Li JY, Han B (2021). Designing future crops: challenges and strategies for sustainable agriculture. Plant J doi: 10.1111/tpj.15107.
[7] Wing RA, Purugganan MD, Zhang QF (2018). The rice genome revolution: from an ancient grain to Green Super Rice. Nat Rev Genet 19,505-517.
[8] Yu H, Li JY (2021). Short and long term challenges in crop breeding. Natl Sci Rev doi: 10.1093/nsr/nwab002.
[9] Yu H, Lin T, Meng X, Du H, Zhang J, Liu G, Chen M, Jing Y, Kou L, Li X, Gao Q, Liang Y, Liu X, Fan Z, Liang Y, Chen Z, Chen M, Tian Z, Wang Y, Chu C, Zuo J, Wan J, Qian Q, Han B, Zuccolo A, Wing RA, Gao C, Liang C, Li J (2021). A route to de novo domestication of wild allotetraploid rice. Cell doi: 10.1016/j.cell.2021.01.013.
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