The Use of African Indigenous Genes in the Development of Transgenic Maize Tolerant to Drought and Resistant to Maize Streak Virus

Abstract: When developing a plant with resistance to biotic and abiotic stresses and utilizing genetic engineering, why should scientists limit themselves to genes from known organisms? Why not test those from indigenous species that might have unique properties? In this chapter we describe the use of indigenous genes for the development of crops important to Africa. The first is maize tolerant to drought, a situation which appears to be worsening on the continent, and the second is maize resistant to the African-endemi… Show more

“…This has been really helpful to understand the individual gene roles in drought stress, knockout mutants are available and its successful genetic transformation (16)(17). Drought-tolerant transgenic plants, including rice, tomato, soybean, maize, barley, and Arabidopsis have been made by the advancement in molecular techniques (17)(18). bZIP, NAC, AP2/ERF, and MYC are important transcription factors families of plants, which are involved in regulatory networks mechanism under drought tolerance (16).…”

Drought Stress, Its Effects and Adaptation in Plants

“…This has been really helpful to understand the individual gene roles in drought stress, knockout mutants are available and its successful genetic transformation (16)(17). Drought-tolerant transgenic plants, including rice, tomato, soybean, maize, barley, and Arabidopsis have been made by the advancement in molecular techniques (17)(18). bZIP, NAC, AP2/ERF, and MYC are important transcription factors families of plants, which are involved in regulatory networks mechanism under drought tolerance (16).…”

Drought Stress, Its Effects and Adaptation in Plants

Osmotic Adjustment and Plant Adaptation to Drought Stress

Plant Molecular Adaptations and Strategies Under Drought Stress