Among abiotic stressors, drought and salinity seriously affect crop growth worldwide. In
plants, research has aimed to increase stress-responsive protein synthesis upstream or …

Genetic modification of crops has substantially focused on improving traits for desirable
outcomes. It has resulted in the development of crops with enhanced yields, quality, and …

Prolonged periods of drought triggered by climate change hamper plant growth and cause
substantial agricultural yield losses every year. In addition to drought, salinity is one of the …

Breeding of stress-tolerant plants is able to improve crop yield under stress conditions,
whereas CRISPR/Cas9 genome editing has been shown to be an efficient way for molecular …

Abiotic stressors are major constraints that affect agricultural plant physio-morphological and
biochemical attributes, resulting in a loss of normal functioning and, eventually, a severe …

Abiotic stresses, including drought, salinity, cold, heat, and heavy metals, extensively
reducing global agricultural production. Traditional breeding approaches and transgenic …

Genome editing techniques are being used to modify plant breeding, which might increase
food production sustainably by 2050. A product made feasible by genome editing is …

Global warming and climate change have severely affected plant growth and food
production. Therefore, minimizing these effects is required for sustainable crop yields …

Microbes are a critical component of soil ecosystems, performing crucial functions in
biogeochemical cycling, carbon sequestration, and plant health. However, it remains …

Genome editing aims to revolutionise plant breeding and could assist in safeguarding the
global food supply. The inclusion of a 12–40 bp recognition site makes mega nucleases the …