Dihaploid induction in tetraploid durum wheat (Triticum durum L.) using pollen of Imperata cylindrica

Chaudhary, H. K.; Mahato, Anima; Kaila, Vineeta; Rather, S. A.; Tayeng, Tisu

doi:10.17221/218/2014-cjgpb

Cited by 10 publications

(8 citation statements)

References 20 publications

(11 reference statements)

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“…Earlier, 2,4-D in combination with different growth promoters like, dicamba (Ballesteros et al 2003;Garcia-llamas et al 2004), picloram (Puja et al 2011) and AgNO 3 (Almouslem et al 1998;Inagaki and Hash 1998;Sourour et al 2011) had been tested for efficient haploid induction in durum wheat × maize crosses. Likewise, Chaudhary et al (2015) and, Mahato and Chaudhary (2015) reported the significant role of 2,4-D in haploid production via I. cylindrica-mediated chromosome elimination approach. It is evident from the findings of present study that higher concentrations of 2,4-D (more than 200 ppm) alone is well efficient in producing greater number of haploid embryos.…”

Section: Discussionmentioning

confidence: 95%

“…This technique mainly involves intergeneric hybridization that follows gradual elimination of chromosomes from pollen source during embryonic development producing embryos carrying haploid set of chromosomes from the female genotype (Barclay 1975; Laurie and Bennett 1988;Chaudhary et al 2005). In durum wheat, wide hybridization to create doubled haploids has been carried out with different genera viz., barley (Hordeum bulbossum) (O'Donoughue and Bennett 1994a;Chlyah et al 1999), pearl millet (Pennisetum glaucum) (Inagaki and Hash 1998), maize (Zea mays) (O'Donoughue and Bennett 1994b;Almouslem et al 1998) and Imperata cylindrica (Chaudhary et al 2013;Chaudhary et al 2015;Mahato and Chaudhary 2015) for producing haploid embryos. But, all these pollen sources may not be equally efficient in inducing haploid formation in durum wheat.…”

Section: Introductionmentioning

confidence: 99%

“…have been used for increasing the efficacy of haploid production in durum wheat × maize crosses. However, in case of durum wheat × I. cylindrica, only 2,4-D has been used in very few previous studies (Chaudhary et al 2015).…”

Section: Introductionmentioning

confidence: 99%

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Auxin Induced Haploid Induction in Wide Crosses of Durum Wheat

Mahato

Chaudhary

2019

Cereal Research Communications

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Doubled haploidy breeding via wide hybridization has been used in durum wheat haploid production for creating homozygosity in the shortest possible time. Post pollination treatment with hormones is a key factor for inducing haploid embryos in durum wheat wide crosses. An intergeneric hybridization experiment was carried out in seven durum wheat genotypes using Imperata cylindrica and two composites of Maize viz., Bajaura Makka and Early Composite, as pollen sources. The pollinated spikes were injected with 2,4-Dichlorophenoxyacetic acid (2,4-D) in five different concentrations i.e., 100, 150, 200, 250 and 300 ppm, for three consecutive days at 24, 48 and 72 hrs after pollination. Analysis of variance revealed that the five concentrations of 2,4-D significantly differed in their ability to induce haploid embryos and 2,4-D at 250 ppm was found to be most effective in durum wheat haploid production through wide hybridization. The highest frequency of embryo carrying seeds was recorded to be 65.75 and 36.73 percent, at 250 ppm with I. cylindrica and Bajaura Makka, respectively in first cropping season. During second season, embryo formation frequency was observed to be maximum, 70.69, 32.84 and 27.59 percent, at 250 ppm 2,4-D with all three pollen sources, viz., I. cylindrica, Bajaura Makka and Early Composite, respectively.

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Section: Discussionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

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Auxin Induced Haploid Induction in Wide Crosses of Durum Wheat

Mahato

Chaudhary

2019

Cereal Research Communications

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“…Gynogenesis process: unpollinated ovaries induced after 1 week of culture (a), callus with green shoot after 10 weeks of culture (b), regenerated green plantlets (c) https://doi.org/10.17221/188/2017-CJGPB viability affects the conversion of embryos into plantlets. In addition, the ability to form haploid embryos might depend on the application of silver nitrate and hormone treatment, alone or in combination (Ayed et al 2011a;Chaudhary et al 2015).…”

Section: Resultsmentioning

confidence: 99%

“…Interspecific or intergeneric crosses has emerged as an efficient method for producing haploid wheat plants (Garcia-Liamas et al 2004;Ushiyama et al 2007;Ayed et al 2011b). Several crosses, wheat × Hordeum bulbosum (Barclay 1975), wheat × maize (Laurie & Bennett 1988), wheat × sorghum (Inagaki & Mujeeb-Kazi 1995) and wheat × Imperata cylindrica (Chaudhary et al 2015) were shown as valid hybridization systems. In recent years, wheat × maize crosses has become a main approach for haploid production in durum wheat (Niu et al 2014).…”

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confidence: 99%

Efficiency of three haplomethods in durum wheat (Triticum turgidum subsp. durum Desf.): isolated microspore culture, gynogenesis and wheat × maize crosses

Slama-Ayed¹,

Bouhaouel²,

Ayed³

et al. 2019

Czech J. Genet. Plant Breed.

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This study presents the first report comparing the efficiency of microspore culture, gynogenesis and durum wheat × maize crosses for haploid plant production from three durum wheat genotypes (Razzek, Karim and Jneh Khotifa). The results showed that the best induction, calli or embryos formation and plant regeneration rates for the three genotypes were obtained with gynogenesis (47.2, 7.6, 0.8%), followed by interspecific crosses (33.1, 1.7, 0.4%) and isolated microspore culture (8.2, 0.05, 0.01%). Interestingly, all plants regenerated by gynogenesis and durum wheat × maize crosses were green whereas all plants obtained by isolated microspore culture were albino. In the haploid production system, all steps of the process are important for the three methods. The critical steps that have greatly reduced the number of regenerated haploid plants were induction, embryogenesis and regeneration for microspore culture, forming and regeneration of calli or embryo and haploid regeneration for interspecific crosses and gynogenesis. Genotypes with good capacity of induction have not necessarily a good capacity of haploid plantlets regeneration and vice-versa. However, calli or embryos formation seems to be an indicator of the haploid production. Overall, Razzek showed a good ability to produce haploids using the three methods. Each haplomethod showed a speciﬁc advantage. Although gynogenesis is the less used method for durum wheat, it has proved to be a successful approach for green haploid plant production.

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