Synthetic Clonal Reproduction Through Seeds
Abstract
Cloning through seeds has potential revolutionary applications in agriculture, because it would allow vigorous hybrids to be propagated indefinitely. However, asexual seed formation or apomixis, avoiding meiosis and fertilization, is not found in the major food crops. To develop de novo synthesis of apomixis, we crossed Arabidopsis MiMe and dyad mutants that produce diploid clonal gametes to a strain whose chromosomes are engineered to be eliminated after fertilization. Up to 34% of the progeny were clones of their parent, demonstrating the conversion of clonal female or male gametes into seeds. We also show that first-generation cloned plants can be cloned again. Clonal reproduction through seeds can therefore be achieved in a sexual plant by manipulating two to four conserved genes.
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Supplementary Material
File (marimuthu.som.pdf)
References and Notes
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Materials and methods are available as supporting material on Science Online.
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Published In
Science
Volume 331 | Issue 6019
18 February 2011
18 February 2011
Copyright
Copyright © 2011, American Association for the Advancement of Science.
Submission history
Received: 28 October 2010
Accepted: 14 January 2011
Published in print: 18 February 2011
Acknowledgments
We thank D. Singh for fluorescent in situ hybridization analysis; E. Gugan and N. Shukla for technical assistance; and L. Comai, O. Loudet, J. P. Vielle-Calzada, W. Lucas, and V. Sundaresan for comments on the manuscript. This research was funded by Agence Nationale de la Recherche (ANR-09-EBIO-011 to R.M.), INRA GAP Department (R.M.), NSF (IOS-1026094 to S.W.L.C.), the Basil O’Connor Starter Scholar Program from the March of Dimes (S.W.L.C.), a targeted allocation grant from CSIR (I.S.), and a Centre of Excellence grant from Department of Biotechnology (I.S.). Two provisional patent applications based on the work have been filed jointly by INRA and UC Davis (USA 61/418,792) and jointly by CSIR and UC Davis (India 619/DEL/2010).
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- Epigenetically mismatched parental centromeres trigger genome elimination in hybrids, Science Advances, 7, 47, (2021)./doi/10.1126/sciadv.abk1151
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