Speed breeding is a powerful tool to accelerate crop research and breeding

Nature Plants - Tập 4 Số 1 - Trang 23-29
Amy Watson1, Sreya Ghosh2, Matthew Williams3, William S. Cuddy4, James Simmonds2, María-Dolores Rey2, Muhammad Asyraf Md Hatta2, Alison Hinchliffe2, Andrew Steed2, Daniel Reynolds5, Nikolai M. Adamski2, Andrew Breakspear2, Andrey Korolev2, Tracey Rayner2, Laura E. Dixon2, Adnan Riaz1, William E. Martin6, Merrill Ryan6, David Edwards7, Jacqueline Batley7, Harsh Raman8, Jeremy Carter2, Christian Rogers2, Claire Domoney2, Graham Moore2, Wendy Harwood2, P. Nicholson2, Mark J. Dieters9, I. H. DeLacy9, Ji Zhou5, Cristóbal Uauy2, Scott A. Boden2, Robert Park3, Brande B. H. Wulff2, Lee T. Hickey1
1Queensland Alliance for Agriculture and Food Innovation, University of Queensland, St Lucia, Queensland, Australia
2John Innes Centre, Norwich Research Park, Norwich, UK
3Plant Breeding Institute, University of Sydney, Cobbitty, New South Wales, Australia
4Elizabeth Macarthur Agricultural Institute, NSW Department of Primary Industries, Menangle, New South Wales, Australia
5Earlham Institute, Norwich Research Park, Norwich, UK
6Department of Agriculture and Fisheries, Hermitage Research Facility, Warwick, Queensland, Australia
7School of Biological Sciences and Institute of Agriculture, University of Western Australia, Crawley, Western Australia, Australia
8Wagga Wagga Agricultural Institute, NSW Department of Primary Industries, Wagga Wagga, New South Wales, Australia
9School of Agriculture and Food Sciences, University of Queensland, St Lucia, Queensland, Australia

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Ray, D. K., Mueller, N. D., West, P. C. & Foley, J. A. Yield trends are insufficient to double global crop production by 2050. PloS ONE 8, e66428 (2013).

Sysoeva, M. I., Markovskaya, E. F. & Shibaeva, T. G. Plants under continuous light: A review. Plant Stress 4, 5–17 (2010).

Deng, W. et al. Dawn and dusk set states of the circadian oscillator in sprouting barley (Hordeum vulgare) seedlings. PloS ONE 10, e0129781 (2015).

Domoney, C. et al. Exploiting a fast neutron mutant genetic resource in Pisum sativum (pea) for functional genomics. Funct. Plant Biol. 40, 1261–1270 (2013).

Zheng, Z., Wang, H., Chen, G., Yan, G. & Liu, C. A procedure allowing up to eight generations of wheat and nine generations of barley per annum. Euphytica 191, 311–316 (2013).

Went, F. The effect of temperature on plant growth. Annu. Rev. Plant Physiol. 4, 347–362 (1953).

Chahal, G. & Gosal, S. Principles and Procedures of Plant Breeding: Biotechnological and Conventional Approaches (Alpha Science International Ltd, Pangbourne, 2002).

Wada, K. C. & Takeno, K. Stress-induced flowering. Plant Signal. Behav. 5, 944–947 (2010).

Derkx, A. P., Orford, S., Griffiths, S., Foulkes, M. J. & Hawkesford, M. J. Identification of differentially senescing mutants of wheat and impacts on yield, biomass and nitrogen partitioning. J. Integr. Plant Biol. 54, 555–566 (2012).

Hoogendorn, J., Pfeiffer, W. H., Rajaram, S. & Gale, M. D. in Proc. 7th Int. Wheat Genetics Symp. (eds Koebner, R. M. D. & Miller, T. E.) 1093–1100 (IPSR, Cambridge, 1988).

Riaz, A., Periyannan, S., Aitken, E. & Hickey, L. A rapid phenotyping method for adult plant resistance to leaf rust in wheat. Plant Methods 12, 17 (2016).

Hickey, L. T. et al. Rapid phenotyping for adult‐plant resistance to stripe rust in wheat. Plant Breeding 131, 54–61 (2012).

Lundqvist, U. & Wettstein, D. V. Induction of eceriferum mutants in barley by ionizing radiations and chemical mutagens. Hereditas 48, 342–362 (1962).

Riley, R. Genetic control of the cytological diploid behaviour of hexaploid wheat. Nature 182, 713–715 (1958).

Liu, X. Y., Macmillan, R., Burrow, R., Kadkol, G. & Halloran, G. Pendulum test for evaluation of the rupture strength of seed pods. J. Texture Stud. 25, 179–190 (1994).

Raman, H. et al. Genome-wide delineation of natural variation for pod shatter resistance in Brassica napus. PloS ONE 9, e101673 (2014).

Stetter, M. G. et al. Crossing methods and cultivation conditions for rapid production of segregating populations in three grain amaranth species. Front. Plant Sci. 7, 816 (2016).

O’Connor, D. J. et al. Development and application of speed breeding technologies in a commercial peanut breeding program. Peanut Science 40, 107–114 (2013).

Mobini, S. H. & Warkentin, T. D. A simple and efficient method of in vivo rapid generation technology in pea (Pisum sativum L.). In Vitro Cell. Dev. Plant 52, 530–536 (2016).

Hickey, L. T. et al. Screening for grain dormancy in segregating generations of dormant × non-dormant crosses in white-grained wheat (Triticum aestivum L.). Euphytica 172, 183–195 (2010).

Hickey, L. T. et al. Speed breeding for multiple disease resistance in barley. Euphytica 213, 64–78 (2017).

Steuernagel, B. et al. Rapid cloning of disease-resistance genes in plants using mutagenesis and sequence capture. Nat. Biotechnol. 34, 652–655 (2016).

Sánchez-Martín, J. et al. Rapid gene isolation in barley and wheat by mutant chromosome sequencing. Genome Biol. 17, 221 (2016).

Krasileva, K. V. et al. Uncovering hidden variation in polyploid wheat. Proc. Natl Acad. Sci. USA 114, E913–E921 (2017).

Liang, Z. et al. Efficient DNA-free genome editing of bread wheat using CRISPR/Cas9 ribonucleoprotein complexes. Nat. Commun. 8, 14261 (2017).

Cavanagh, C. R. et al. Genome-wide comparative diversity uncovers multiple targets of selection for improvement in hexaploid wheat landraces and cultivars. Proc. Natl Acad. Sci. USA 110, 8057–8062 (2013).

Hao, X., Zheng, J. & Brown, J. in 6th Int. Symp. Light in Horticulture 61 (ISHS, Tsukuba, 2011).

Kadkol, G., Halloran, G. & MacMillan, R. Evaluation of Brassica genotypes for resistance to shatter. II. Variation in siliqua strengh within and between accessions. Euphytica 34, 915–924 (1985).

Wingen, L. U. et al. Establishing the AE Watkins landrace cultivar collection as a resource for systematic gene discovery in bread wheat. Theor. Appl. Genet. 127, 1831–1842 (2014).

Gosman, N., Steed, A., Chandler, E., Thomsett, M. & Nicholson, P. Evaluation of type I fusarium head blight resistance of wheat using non‐deoxynivalenol‐producing fungi. Plant Pathol. 59, 147–157 (2010).

Harwood, W. A. in Cereal Genomics: Methods and Protocols Vol. 1099 (eds Henry, R. & Furtado, A.) 251–260 (Humana Press, Totowa, 2014).

Smedley, M. A. & Harwood, W. A. in Agrobacterium Protocols: Methods in Molecular Biology Vol. 1223 (ed. Wang, K.) 3–16 (Springer, New York, 2015).

Sears, E. R. Genetics society of canada award of excellence lecture an induced mutant with homoeologous pairing in common wheat. Can. J. Genet. Cytol. 19, 585–593 (1977).

Sharma, A. K. & Sharma, A. Chromosome Techniques: Theory and Practice (Butterworth-Heinemann, Oxford, 2014).

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Nature Plants

Tập 4 Số 1

23-29

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