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Year 2022, Volume: 5 Issue: 3, 344 - 350, 01.07.2022
https://doi.org/10.47115/bsagriculture.1100166

Abstract

References

  • Asif M, Eudes F, Randhawa H, Amundsen E, Yanke J, Spaner D. 2013a. Cefotaxime prevents microbial contamination and improves microspore embryogenesis in wheat and triticale. Plant Cell Rep, 32(10): 1637-1646.
  • Asif M, Eudes F, Goyal A, Amundsen E, Randhawa H, Spaner D. 2013b. Organelle antioxidants improve microspore embryogenesis in wheat and triticale. In Vitro Cellular Develop Biol Plant, 49(5): 489-497.
  • Basu SK, Datta M, Sharma M, Kumar A. 2011. Haploid production technology in wheat and some selected higher plants. Australian J Crop Sci, 5(9): 1087-1093.
  • Blakeslee AF, Belling J, Farnham ME, Bergner AD. 1922. A haploid mutant in the jimson weed,"Datura stramonium". Sci, 55(1433): 646-647.
  • Broughton S. 2011. The application of n-butanol improves embryo and green plant production in anther culture of Australian wheat (Triticum aestivum L.) genotypes. Crop Pasture Sci, 62(10): 813-822.
  • Broughton, S. 2008. Ovary co-culture improves embryo and green plant production in anther culture of Australian spring wheat (Triticum aestivum L.). Plant Cell, Tissue and Organ Culture, 95(2): 185-195.
  • Dunwell JM. 2010. Haploids in flowering plants: origins and exploitation. Plant Biotech J, 8(4): 377-424.
  • Dwivedi SL, Britt AB, Tripathi L, Sharma S, Upadhyaya HD, Ortiz R. 2015. Haploids: constraints and opportunities in plant breeding. Biotechnol Adv, 33(6): 812-829.
  • García-Llamas C, Martín A, Ballesteros J. 2004. Differences among auxin treatments on haploid production in durum wheat× maize crosses. Plant Cell Rep, 23(1): 46-49.
  • Guha S, Maheshwari SC. 1964. In vitro production of embryos from anthers of Datura. Nature, 204(4957): 497-497.
  • Gupta V, Kumar S, Singroha G, Mishra CN, Kumar R, Tiwari V. 2016. Induction of haploids in wheat using Wheat × Maize system of chromosome elimination. J Wheat Res, 8(2): 43-48.
  • Jauhar PP. 2003. Haploid and doubled haploid production in durum wheat by anther culture. In Maluszynski M, Kasha KJ, Forster BP, Szarejko I editors. Doubled haploid production in crop plants, Springer, Dordrecht, Netherlands, 1th ed., pp. 167-172.
  • Jiang F, Ryabova D, Diedhiou J, Hucl P, Randhawa H, Marillia EF, Kathiria P. 2017. Trichostatin A increases embryo and green plant regeneration in wheat. Plant Cell Rep, 36(11): 1701-1706.
  • Kalinowska K, Chamas S, Unkel K, Demidov D, Lermontova I, Dresselhaus T, Houben A. 2019. State-of-the-art and novel developments of in vivo haploid technologies. Theoret Appl Genet, 132(3): 593-605.
  • Khound R, Santra M, Baenziger PS, Santra DK. 2013. Effect of cold-mediated pretreatment on microspore culture in winter and spring wheat. American J Plant Sci, 4(11): 2259.
  • Kim KM, Baenziger PS. 2005. A simple wheat haploid and doubled haploid production system using anther culture. In Vitro Cellular Develop Biol Plant, 41(1): 22-27.
  • Lantos C, Pauk J. 2016. Anther culture as an effective tool in winter wheat (Triticum aestivum L.) breeding. Russian J Genet, 52(8): 794-801.
  • Letarte J, Simion E, Miner M, Kasha KJ. 2006. Arabinogalactans and arabinogalactan-proteins induce embryogenesis in wheat (Triticum aestivum L.) microspore culture. Plant Cell Rep, 24(12): 691-698.
  • Orłowska R, Pachota KA, Machczyńska J, Niedziela A, Makowska K, Zimny J, Bednarek PT. 2020. Improvement of anther cultures conditions using the Taguchi method in three cereal crops. Electron J Biotechnol, 43, 8-15.
  • Pratap A, Sethi GS, Chaudhary HK. 2006. Relative efficiency of anther culture and chromosome elimination techniques for haploid induction in triticale× wheat and triticale× triticale hybrids. Euphytica, 150(3): 339-345.
  • Puolimatka M, Pauk J. 2000. Effect of induction duration and medium composition on plant regeneration in wheat (Triticum aestivum L.) anther culture. J Plant Physiol, 156(2): 197-203.
  • Scagliusi SM. 2014. Establishing isolated microspore culture to produce doubled haploid plants in Brazilian wheat ('Triticum aestivum' L.). Australian J Crop Sci, 8(6): 887-894.
  • Slama-Ayed O, Bouhaouel I, Ayed S, De Buyser J, Picard E, Amara HS. 2019. Efficiency of three haplomethods in durum wheat (Triticum turgidum subsp. durum Desf.): Isolated microspore culture, gynogenesis and wheat× maize crosses. Czech J Genet Plant Breed, 55(3): 101-109.
  • Shariatpanahi ME, Belogradova K, Hessamvaziri L, Heberle-Bors E, Touraev A. 2006. Efficient embryogenesis and regeneration in freshly isolated and cultured wheat (Triticum aestivum L.) microspores without stress pretreatment. Plant Cell Rep, 25(12): 1294-1299.
  • Sibi ML, Kobaissi A, Shekafandeh A. 2001. Green haploid plants from unpollinated ovary culture in tetraploid wheat (Triticum durum Defs.). Euphytica, 122(2): 351-359.
  • Soriano M, Cistué L, Castillo AM. 2008. Enhanced induction of microspore embryogenesis after n-butanol treatment in wheat (Triticum aestivum L.) anther culture. Plant Cell Rep, 27(5): 805-811.
  • Sourour A, Olfa SA, Hajer SA. 2011. Effect of 2, 4-dichlorophenoxyacetic acid and nitrate silver on the efficiency of haploid production in durum wheat × maize crosses. Int J Plant Breed, 5, 101-105.
  • Wang HM, Enns JL, Nelson KL, Brost JM, Orr TD, Ferrie AMR. 2019. Improving the efficiency of wheat microspore culture methodology: evaluation of pretreatments, gradients, and epigenetic chemicals. Plant Cell Tissue Organ Cult, 139(3): 589-599.
  • Watts A, Kumar V, Raipuria RK, Bhattacharya RC. 2018. In vivo haploid production in crop plants: methods and challenges. Plant Molec Biol Rep, 36(5): 685-694.
  • Xynias IN, Zamani IA, Gouli-Vavdinoudi E, Roupakias DG. 2001. Effect of cold pretreatment and incubation temperature on bread wheat (Triticum aestivum L.) anther culture. Cereal Res Commun, 29(3): 331-338.
  • Zheng M, Liu W, Weng Y, Polle E, Konzak C. 2001. Culture of freshly isolated wheat (Triticum aestivum L.) microspores treated with inducer chemicals. Plant Cell Rep, 20(8): 685-690.

An Overview of Haploid and Double Haploid Production Methods in Wheat

Year 2022, Volume: 5 Issue: 3, 344 - 350, 01.07.2022
https://doi.org/10.47115/bsagriculture.1100166

Abstract

For about a century, researchers have been working on haploidy approach. Progressively, they discovered the importance and usefulness of haploids in various research fields. On the other hand, it is suggested that climate change impacts on crop production, especially wheat, requires rapid and efficient methods of plant breeding to produce new cultivars with a sufficient level of biotic and abiotic tolerance to avoid significant production loss. Haploid plants are the source for producing homozygous pure lines and genetic variability for breeding programs. It reduces the time for producing pure and stable forms of new recombination by half in plant breeding. Furthermore, haploids are source for exclusive male plants generation, induction of mutations, stress resistance and tolerance cultivars, cytogenetic studies, and doubled haploid crops. This review presents a brief overview of the haploid wheat production methods and previous successful experiments on producing haploid wheat.

References

  • Asif M, Eudes F, Randhawa H, Amundsen E, Yanke J, Spaner D. 2013a. Cefotaxime prevents microbial contamination and improves microspore embryogenesis in wheat and triticale. Plant Cell Rep, 32(10): 1637-1646.
  • Asif M, Eudes F, Goyal A, Amundsen E, Randhawa H, Spaner D. 2013b. Organelle antioxidants improve microspore embryogenesis in wheat and triticale. In Vitro Cellular Develop Biol Plant, 49(5): 489-497.
  • Basu SK, Datta M, Sharma M, Kumar A. 2011. Haploid production technology in wheat and some selected higher plants. Australian J Crop Sci, 5(9): 1087-1093.
  • Blakeslee AF, Belling J, Farnham ME, Bergner AD. 1922. A haploid mutant in the jimson weed,"Datura stramonium". Sci, 55(1433): 646-647.
  • Broughton S. 2011. The application of n-butanol improves embryo and green plant production in anther culture of Australian wheat (Triticum aestivum L.) genotypes. Crop Pasture Sci, 62(10): 813-822.
  • Broughton, S. 2008. Ovary co-culture improves embryo and green plant production in anther culture of Australian spring wheat (Triticum aestivum L.). Plant Cell, Tissue and Organ Culture, 95(2): 185-195.
  • Dunwell JM. 2010. Haploids in flowering plants: origins and exploitation. Plant Biotech J, 8(4): 377-424.
  • Dwivedi SL, Britt AB, Tripathi L, Sharma S, Upadhyaya HD, Ortiz R. 2015. Haploids: constraints and opportunities in plant breeding. Biotechnol Adv, 33(6): 812-829.
  • García-Llamas C, Martín A, Ballesteros J. 2004. Differences among auxin treatments on haploid production in durum wheat× maize crosses. Plant Cell Rep, 23(1): 46-49.
  • Guha S, Maheshwari SC. 1964. In vitro production of embryos from anthers of Datura. Nature, 204(4957): 497-497.
  • Gupta V, Kumar S, Singroha G, Mishra CN, Kumar R, Tiwari V. 2016. Induction of haploids in wheat using Wheat × Maize system of chromosome elimination. J Wheat Res, 8(2): 43-48.
  • Jauhar PP. 2003. Haploid and doubled haploid production in durum wheat by anther culture. In Maluszynski M, Kasha KJ, Forster BP, Szarejko I editors. Doubled haploid production in crop plants, Springer, Dordrecht, Netherlands, 1th ed., pp. 167-172.
  • Jiang F, Ryabova D, Diedhiou J, Hucl P, Randhawa H, Marillia EF, Kathiria P. 2017. Trichostatin A increases embryo and green plant regeneration in wheat. Plant Cell Rep, 36(11): 1701-1706.
  • Kalinowska K, Chamas S, Unkel K, Demidov D, Lermontova I, Dresselhaus T, Houben A. 2019. State-of-the-art and novel developments of in vivo haploid technologies. Theoret Appl Genet, 132(3): 593-605.
  • Khound R, Santra M, Baenziger PS, Santra DK. 2013. Effect of cold-mediated pretreatment on microspore culture in winter and spring wheat. American J Plant Sci, 4(11): 2259.
  • Kim KM, Baenziger PS. 2005. A simple wheat haploid and doubled haploid production system using anther culture. In Vitro Cellular Develop Biol Plant, 41(1): 22-27.
  • Lantos C, Pauk J. 2016. Anther culture as an effective tool in winter wheat (Triticum aestivum L.) breeding. Russian J Genet, 52(8): 794-801.
  • Letarte J, Simion E, Miner M, Kasha KJ. 2006. Arabinogalactans and arabinogalactan-proteins induce embryogenesis in wheat (Triticum aestivum L.) microspore culture. Plant Cell Rep, 24(12): 691-698.
  • Orłowska R, Pachota KA, Machczyńska J, Niedziela A, Makowska K, Zimny J, Bednarek PT. 2020. Improvement of anther cultures conditions using the Taguchi method in three cereal crops. Electron J Biotechnol, 43, 8-15.
  • Pratap A, Sethi GS, Chaudhary HK. 2006. Relative efficiency of anther culture and chromosome elimination techniques for haploid induction in triticale× wheat and triticale× triticale hybrids. Euphytica, 150(3): 339-345.
  • Puolimatka M, Pauk J. 2000. Effect of induction duration and medium composition on plant regeneration in wheat (Triticum aestivum L.) anther culture. J Plant Physiol, 156(2): 197-203.
  • Scagliusi SM. 2014. Establishing isolated microspore culture to produce doubled haploid plants in Brazilian wheat ('Triticum aestivum' L.). Australian J Crop Sci, 8(6): 887-894.
  • Slama-Ayed O, Bouhaouel I, Ayed S, De Buyser J, Picard E, Amara HS. 2019. Efficiency of three haplomethods in durum wheat (Triticum turgidum subsp. durum Desf.): Isolated microspore culture, gynogenesis and wheat× maize crosses. Czech J Genet Plant Breed, 55(3): 101-109.
  • Shariatpanahi ME, Belogradova K, Hessamvaziri L, Heberle-Bors E, Touraev A. 2006. Efficient embryogenesis and regeneration in freshly isolated and cultured wheat (Triticum aestivum L.) microspores without stress pretreatment. Plant Cell Rep, 25(12): 1294-1299.
  • Sibi ML, Kobaissi A, Shekafandeh A. 2001. Green haploid plants from unpollinated ovary culture in tetraploid wheat (Triticum durum Defs.). Euphytica, 122(2): 351-359.
  • Soriano M, Cistué L, Castillo AM. 2008. Enhanced induction of microspore embryogenesis after n-butanol treatment in wheat (Triticum aestivum L.) anther culture. Plant Cell Rep, 27(5): 805-811.
  • Sourour A, Olfa SA, Hajer SA. 2011. Effect of 2, 4-dichlorophenoxyacetic acid and nitrate silver on the efficiency of haploid production in durum wheat × maize crosses. Int J Plant Breed, 5, 101-105.
  • Wang HM, Enns JL, Nelson KL, Brost JM, Orr TD, Ferrie AMR. 2019. Improving the efficiency of wheat microspore culture methodology: evaluation of pretreatments, gradients, and epigenetic chemicals. Plant Cell Tissue Organ Cult, 139(3): 589-599.
  • Watts A, Kumar V, Raipuria RK, Bhattacharya RC. 2018. In vivo haploid production in crop plants: methods and challenges. Plant Molec Biol Rep, 36(5): 685-694.
  • Xynias IN, Zamani IA, Gouli-Vavdinoudi E, Roupakias DG. 2001. Effect of cold pretreatment and incubation temperature on bread wheat (Triticum aestivum L.) anther culture. Cereal Res Commun, 29(3): 331-338.
  • Zheng M, Liu W, Weng Y, Polle E, Konzak C. 2001. Culture of freshly isolated wheat (Triticum aestivum L.) microspores treated with inducer chemicals. Plant Cell Rep, 20(8): 685-690.
There are 31 citations in total.

Details

Primary Language English
Subjects Structural Biology
Journal Section Reviews
Authors

Noor Maıwan 0000-0002-1864-9874

Mehtap Yıldız 0000-0001-6534-5286

Sana Salih 0000-0001-9937-1001

Sara Luna 0000-0003-3882-5676

Publication Date July 1, 2022
Submission Date April 9, 2022
Acceptance Date May 31, 2022
Published in Issue Year 2022 Volume: 5 Issue: 3

Cite

APA Maıwan, N., Yıldız, M., Salih, S., Luna, S. (2022). An Overview of Haploid and Double Haploid Production Methods in Wheat. Black Sea Journal of Agriculture, 5(3), 344-350. https://doi.org/10.47115/bsagriculture.1100166

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