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Soliman, S., Hafez, R., Kord, M., Fawzy, S., Hazman, M. (2025). Genetic and biochemical adaptive responses of some Egyptian maize (Zea mays L.) hybrids to salinity stress. Egyptian Journal of Botany, 65(2), 109-118. doi: 10.21608/ejbo.2025.325950.3027
Seif Soliman; Rehab Mahmoud Hafez; Maimona Kord; Samer Fawzy; Mohamed Hazman. "Genetic and biochemical adaptive responses of some Egyptian maize (Zea mays L.) hybrids to salinity stress". Egyptian Journal of Botany, 65, 2, 2025, 109-118. doi: 10.21608/ejbo.2025.325950.3027
Soliman, S., Hafez, R., Kord, M., Fawzy, S., Hazman, M. (2025). 'Genetic and biochemical adaptive responses of some Egyptian maize (Zea mays L.) hybrids to salinity stress', Egyptian Journal of Botany, 65(2), pp. 109-118. doi: 10.21608/ejbo.2025.325950.3027
Soliman, S., Hafez, R., Kord, M., Fawzy, S., Hazman, M. Genetic and biochemical adaptive responses of some Egyptian maize (Zea mays L.) hybrids to salinity stress. Egyptian Journal of Botany, 2025; 65(2): 109-118. doi: 10.21608/ejbo.2025.325950.3027

Genetic and biochemical adaptive responses of some Egyptian maize (Zea mays L.) hybrids to salinity stress

Article 4, Volume 65, Issue 2, March 2025, Page 109-118  XML PDF (2.04 MB)
Document Type: Regular issue (Original Article)
DOI: 10.21608/ejbo.2025.325950.3027
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Authors
Seif Soliman1; Rehab Mahmoud Hafezorcid 2; Maimona Kord1; Samer Fawzy3; Mohamed Hazman email orcid 4
1Botany and Microbiology Department, Faculty of Science, Cairo University, Giza 12613, Egypt
2Botany and Microbiology Department, Faculty of Science, Cairo University, Egypt
3School of Chemistry and Chemical Engineering, Queen’s University Belfast, Belfast BT9 5AG, Northern Ireland, UK
4Associate Professor (Senior Researcher), Agricultural Genetic Engineering Research Institute (AGERI), Agricultural Research Center. School of Biotechnology, Nile University (NU), Juhayna Square, 26th of July Corridor, Sheikh Zayed, Giza 12588, Egypt
Abstract
Maize (Zea mays L.) is one of the most important strategic crops in Egypt and globally, yet its cultivation in newly reclaimed land in Egypt faces challenges due to saline groundwater. Therefore, developing new maize genotypes with true resilience to salt stress is a sustainable strategy for addressing the gap in maize production. In this work, we investigate the physiological and molecular responses of two Egyptian maize hybrids (SC 168 and SC 176) with contrasting reactions to long-term saline agriculture. SC 168 (salt tolerant) exhibited less severe wilting and discoloration in shoot tissues compared to SC 176, which completely perished. The accumulated Na+ in shoots significantly increased in SC 176 compared to SC 168 under salt stress, with a 3.5-fold increase. In the same context, SC 168 accumulated 1.8 times more K+ than SC 176 under salt stress. Lipid peroxidation of the cell membrane was much more pronounced in the salt-sensitive genotype SC 176 than in SC 168, with a 1.7-fold increase. At the level of gene expression profile, several salt-stress marker genes were examined. The salt-tolerant maize hybrid SC 168 accumulates more mRNA of ZmNHX5 (sodium sequestration in vacuoles), the catalase gene (antioxidative enzyme), and ZmNR (nitrogen assimilation) under salt stress compared to SC 176. Collectively, it is concluded that minimizing sodium ions uptake, enhancing antioxidative power, and maintaining nutritional balance are the main maize salt-resilience strategies that should be considered in developing maize genotypes suitable for saline agriculture.
Keywords
Maize; salt stress; gene expression; sodium content
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