Sources of tolerance salinity stress in plants are the results of sets of the simple effect
and interaction among genes. A systematic perspective at the polygenic trait process
of resistance to environmental stresses, including salinity stress, and the interactions
among genes and their inheritance, may provide new insights into the process of
integrating beneficial genes into genotypes. In this study, we aimed interaction of
candidate genes include NHX1, TPS1, ERF2, SOD, CIPK, PP2C. Salinity was
selected and their correlation was calculated using their pathway. The results showed
that the effect of antioxidant gene alignment including SOD, the most direct effect
and the genes most effective in regulating sodium / potassium channels and
antiporters were the second most effective factor. The relationship between these two
groups of genes and their protein activity was positive and highly significant (Pvalue
<0.001). This result showed that, strengthening of antioxidant systems in cotton
either directly or indirectly through environmental induction or through trans
activators can be effective in salt stress tolerance of genotypes. If we ignore the
effects of environmental induction regulated by agro-ecophysiological conditions,
most transcriptional factors study focused on ERF1. It was through binding to CIS
elements that were effective in resisting to salt stress
