GA-sensitive Rht13 gene improves root architecture and osmotic stress tolerance in bread wheat
Khalid M.A. Ali Z. Husnain L.A. Fiaz S. Saddique M.A.B. Merrium S. Attia K.A. Ercisli S. Iqbal R.
December 2024BioMed Central Ltd
BMC Genomic Data
2024#25Issue 1
The root architecture, more seminal roots, and Deeper roots help the plants to uptake the resources from the deeper soil layer to ensure better growth. The Gibberellic acid-sensitive (GA-sensitive) Rht genes are well known for increasing drought tolerance in wheat. Much work has been performed on the effect of these genes on the plant agronomic traits and little work has been done on the effect of Rht genes on seminal roots and root architecture. This study was designed to evaluate 200 wheat genotypes under normal and osmotic stress. The genotypes were sown in the solution culture and laid under CRD factorial arrangement with three replications and two factors i.e., genotypes and treatments viz. normal and osmotic stress (20% PEG-6000) applied one week after germination. The data was recorded for the root traits. Results demonstrated that out of 200 genotypes, the GA-sensitive Rht13 gene was amplified in 21 genotypes with a fragment length of 1089 bp. In comparison, the GA-insensitive Rht1 gene was amplified in 24 genotypes with a band size of 228 bp. From 200 wheat genotypes, 122 genotypes produced 5 seminal roots, 4 genotypes 4 seminal roots, and 74 genotypes 3 seminal roots. The genotypes G-3 (EBW11TALL#1/WESTONIA-Rht5//QUAIU#1), G-6 (EBW01TALL#1/SILVERSTAR-Rht13B//ROLF07) and G-8 (EBW01TALL#1/SILVERSTAR-Rht13B//NAVJ07) produced 5 seminal roots and have longer coleoptile (> 4.0 cm), root (> 11.0 cm) and shoot (> 17 cm) under normal and osmotic stress. Furthermore, Ujala 16, Galaxy-13, and Fareed-06 produced 3 seminal roots and have short coleoptile (< 3 cm), root (< 9.0 cm) and shoot (< 10.0 cm). These results showed that the genotypes showing the presence of GA-sensitive Rht genes produced a greater number of seminal roots, increased root/shoot growth, and osmotic stress tolerance compared to the genotypes having GA-insensitive Rht genes. Thus, the Rht13 gene improved the root architecture which will help to uptake the nutrients from deeper soil layers. Utilization of Rht13 in wheat breeding has the potential to improve osmotic stress tolerance in wheat.
Breeding , Drought , Dwarfing genes , Grain yield , Osmotic stress , Root architecture
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Institute of Plant Breeding and Biotechnology, MNS University of Agriculture, Multan, 66000, Pakistan
Programs and Projects Department, Islamic Organization for Food Security, Astana, 019900, Kazakhstan
Department of Plant Breeding and Genetics, University of Agriculture Faisalabad, Faisalabad, 38000, Pakistan
Department of Biology, College of Science, Princess Nourah bint Abdulrahman University, P.O. Box 84428, Riyadh, 11671, Saudi Arabia
Institute of Molecular Biology and Biotechnology, The University of Lahore, Lahore, 54590, Pakistan
Center of Excellence in Biotechnology Research, King Saud University, P.O. Box 2455, Riyadh, 11451, Saudi Arabia
Department of Horticulture, Faculty of Agriculture, Ataturk University, Erzurum, 25240, Turkey
Department of Agronomy, Faculty of Agriculture and Environment, The Islamia University of Bahawalpur, Bahawalpur, 63100, Pakistan
Department of Life Sciences, Western Caspian University, Baku, Azerbaijan
Institute of Plant Breeding and Biotechnology
Programs and Projects Department
Department of Plant Breeding and Genetics
Department of Biology
Institute of Molecular Biology and Biotechnology
Center of Excellence in Biotechnology Research
Department of Horticulture
Department of Agronomy
Department of Life Sciences
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