Salinity Induced Antioxidant Defense in Roots of Industrial Hemp (IH: Cannabis sativa L.) for Fiber during Seed Germination

Dixit, N. N.

doi:10.3390/antiox11020244

Cited by 6 publications

(1 citation statement)

References 80 publications

(141 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Maximum relative expression was observed in Meteor at 100 mM salt treatment and 50% of water-de cit treatment. SOD and POX constitute the plant's antioxidant defense system to strengthen plant tolerance to salt stress (Ahmad et al, 2012;Dixit, 2022). SOD is the key player in the rst line of plant defense against ROS activity and is considered a stable marker for tolerance to several forms of abiotic stress (Berwal and Ram, 2014).…”

Section: Discussionmentioning

confidence: 99%

Real time expression and in silico characterization of pea genes involved in salt and water-deficit stress

Farooq

Ahmad

Shahzad

et al. 2023

Preprint

View full text Add to dashboard Cite

Background To tolerate salt and water-deficit stress, the plant adapts to the adverse environment by regulating its metabolism and expressing certain stress-induced metabolic pathways. This research analyzed the relative expression of four pea genes (proC, PAL1, SOD, and POX) in three pea varieties (Climax, Green grass, and Meteor) under different levels of salt and water-deficit stress. Methods and Results Results from RT-qPCR analysis showed increased expression of proC, PAL1, and POX genes, while SOD gene expression decreased under both stresses. Climax exhibited superior stress tolerance with elevated expression of proC and PAL1, while Meteor showed better tolerance through increased POX expression. Phylogenetic analysis revealed common ancestry with other species like chickpea, red clover, mung bean, and barrel clover, suggesting about the cross relationship among these plant species. Conserved domain analysis of respective proteins revealed that these proteins contain PLNO 2688, PLN02457, Cu-Zn Superoxide dismutase, and secretory peroxidase conserved domains. Furthermore, protein family classification indicated that the oxidation-reduction process is the most common chemical process involved in these stresses given to peas which validate the relationship of these proteins. Conclusions Salt and water-deficit stresses trigger distinct metabolic pathways, leading to the upregulation of specific genes and the synthesis of corresponding proteins. These findings further emphasize the conservation of stress-tolerance-related genes and proteins across various plant species. This knowledge enhances our understanding of plant adaptation to stress and offers opportunities for developing strategies to improve stress resilience in crops, thereby addressing global food security challenges.

show abstract

Section: Discussionmentioning

confidence: 99%