2023
DOI: 10.3390/agronomy13061459
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Breeding Drought-Tolerant Maize (Zea mays) Using Molecular Breeding Tools: Recent Advancements and Future Prospective

Abstract: As a most significant cereal crop, maize provides vital nutritional components to humans and livestock. Drought stress curtails maize growth and yield by impairing several morphological, physiological, and biochemical functions. The rising threats of drought stress significantly affect global food security and increase the ratio of hunger and starvation. The use of molecular breeding techniques has enabled maize researchers to deeply examine the genetic control of drought tolerance and the genetic differences … Show more

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Cited by 14 publications
(1 citation statement)
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“…The up-regulated gene ZmVPP1 in the tolerant genotype of maize was reported at photosynthetic and root-growing stages. Out of 355 genes discovered from the transgenic lines, ZmVPP1 showed significantly altered expression in inbred lines of maize grown under drought conditions [13] . ZmVPP1 encoded a vacuolar-type H(+) pyrophosphatase, which contributes to drought tolerance in maize by boosting photosynthetic efficiency and root development [30] .…”
Section: Drought Stress-tolerant Gene Regulationmentioning
confidence: 99%
“…The up-regulated gene ZmVPP1 in the tolerant genotype of maize was reported at photosynthetic and root-growing stages. Out of 355 genes discovered from the transgenic lines, ZmVPP1 showed significantly altered expression in inbred lines of maize grown under drought conditions [13] . ZmVPP1 encoded a vacuolar-type H(+) pyrophosphatase, which contributes to drought tolerance in maize by boosting photosynthetic efficiency and root development [30] .…”
Section: Drought Stress-tolerant Gene Regulationmentioning
confidence: 99%