The polyamine compound to response for biotic and abiotic stresses in Zea mays plant

Abstract

Zea mays L. is the main multipurpose plant for feed energy, food and highly a susceptible for the environmental stresses to agricultural biotechnology. The plant triggers for the main factor in limited Z. mays yield. Recently, it was obtain a crop yields to be significan reduced, and stray due to environmental factor also biotic stresses. Moreover, it was confirm the security of live cells under non-adverse shapes, the polyamine compound was regulate most important roles to responses under abiotic and biotic stresses. The climate change for increasing to demand in maize production plants have been urged to increase for the stress in the tolerance investigation to that crop, although it was certainly realize and assignment of the polyamine compounds for responses for variety environmental stresses. In this study, we were describe a review and summarize the recent literature on the role for the polyamine compound with conferring stress tolerance to Z. mays plants. To the accumulation of polyamine compounds, that mechanism and behavior, recently to genetic the manipulation studied it was perform to pathway to the polyamine metabolism, it was improved the abiotic and biotic stress distance have been research. Then, the polyamine compound metabolism under stress term was not operate personally in that cells, and it was associated to other metabolic pathways in Z. mays plants. On the other hand, the complex joining and a role was a signaling to molecules have been reported.