Development of homozygous maize lines differing in oil and zein content using in-vivo maternal haploid technique

Kahrıman, Fatih; KAHRIMAN, Asude; GÜZ, Abdurrahman Muhammed; YÜKSEL, Nebahat Nur

doi:10.38042/biotechstudies.1221622

Biotech Studies

2022

DOI: 10.38042/biotechstudies.1221622

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Development of homozygous maize lines differing in oil and zein content using in-vivo maternal haploid technique

Fatih Kahrıman

Asude KAHRIMAN²,

Abdurrahman Muhammed GÜZ

et al.

Abstract: This study was carried out in order to develop homozygous lines that differ in grain quality from the local maize population. Twelve different local maize landraces were used as donor materials in the study. These populations were subjected to induction crossing under greenhouse conditions in September 2020 with the ADAIL-I inducer line. In September 2021, a total of twelve haploid lines were grown in greenhouse conditions. Some plant traits and some grain quality characteristics were examined. Zein protein f… Show more

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A Study on the Integration of In Vitro Methods with In Vivo Double Haploid Technique in Maize (Zea mays L.)

Yüksel,

Kahrıman

2024

ANADOLU

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The in vivo doubled haploid technique in maize breeding significantly reduces the time required for developing homozygous lines, offering advantages in terms of both time and cost. Although this technique enables the development of lines much faster than traditional breeding methods, ongoing research aims to further shorten the development process through alternative approaches. In this context, significant efforts have been devoted to integrating in vitro methods with in vivo doubled haploid technique. This study aimed to investigate the potential of combining in vivo and in vitro techniques for the rapid development of homozygous maize lines. A total of 10 local populations and 3 inducer lines (CIM2GTAIL-P2, ADAIL-1, STOCK-6) were used as experimental material. The study was conducted in two phases under field and laboratory conditions. During the first phase, induction crosses were performed in 2022, and the haploid induction rates of donor genotypes were found to range from 1.29% to 7.12%, as determined using the Navajo marker. In the laboratory phase, immature embryo culture was employed for both direct and indirect regeneration using samples collected 18–20 days after induction crossing. Haploid status of the samples obtained through direct regeneration was confirmed using the Feulgen chromosome staining method. Four of the donor materials (DON3, DON4, DON6, DON7) yielded successful results in tissue culture studies. Explants were taken from immature embryos to CHU medium for callus formation and then these calli were transferred to Murashige and Skoog medium for the formation of somatic embryos. This approach enabled the production of 3 to 6 calluses per immature embryo, depending on the donor genotype. The results of this study indicate that integrating immature embryo culture as an in vitro method into the in vivo doubled haploid technique can offer benefits in terms of both time efficiency and an increased number of developed materials.

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A Study on the Integration of In Vitro Methods with In Vivo Double Haploid Technique in Maize (Zea mays L.)

Yüksel,

Kahrıman

2024

ANADOLU

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The Effect of Donors Used in In vivo Maternal Haploid Technique on Haploid Induction Rate

CENGİZ

2023

Black Sea Journal of Agriculture

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Maize is an important plant grown to obtain grain and silage, and is used in human and animal nutrition. In conventional maize breeding studies, stagnated line development studies are carried out for at least 7 years if a single generation is obtained in a year, while it is possible to develop 100% homozygous lines in a short period of 2 years with the in vivo maternal haploid technique. The in vivo maternal haploid technique is widely used in advanced maize breeding programs. The choice of donor or source material to be used for haploid induction depends on the purpose of the breeding program. Generally, breeders use F1 or F2 populations as source material for haploid induction. In this study; 30 F1 genotypes and their F2s were crossed with the inducer line. The putative haploid seed was identified by considering the R1-nj color marker, and the haploid induction rate was determined. The effect of the generations of the donor genotypes on the haploid induction ratio was compared by performing an independent sample test, and the haploid induction rate obtained from the F1 donors was found to be higher than the haploid induction rate of the F2 donors. It was determined that there was a change in the haploid induction rate as the genotypes changed within the F1 and F2 donor groups.

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Development of homozygous maize lines differing in oil and zein content using in-vivo maternal haploid technique

Cited by 2 publications

References 26 publications

A Study on the Integration of In Vitro Methods with In Vivo Double Haploid Technique in Maize (Zea mays L.)

A Study on the Integration of In Vitro Methods with In Vivo Double Haploid Technique in Maize (Zea mays L.)

The Effect of Donors Used in In vivo Maternal Haploid Technique on Haploid Induction Rate

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