Study on the expression regulation of the CTR1 gene in the ethylene signaling pathway

Abstract

The CONSTITUTIVE TRIPLERESPONSE1 (CTR1) is a crucial component in the ethylene signaling pathway. CTR1 transmits signals perceived by ethylene receptors to downstream EIN2 proteins through phosphorylation/dephosphorylation. Although some studies have explored the functions and mechanisms of CTR1, research on its expression and regulation remains relatively limited. This study investigates the tissue-specific expression of the Arabidopsis CTR1 gene and its expression and regulatory mechanisms under ethylene induction. Arabidopsis was treated with ethylene, and changes in CTR1 gene expression were detected using real-time quantitative PCR. The experimental results show that in rosette leaves of 28-day-old Arabidopsis, CTR1 expression is induced by ethylene. To investigate its molecular mechanism, the promoter sequence of the CTR1 was cloned and vectors were constructed by linking the promoter sequence with luciferase and GUS genes. Stable transgenic Arabidopsis lines were obtained, and promoter activity in these materials was analyzed. Promoter activity analysis confirmed that CTR1 promoter activity is ethylene-inducible and that this induction is dependent on the functions of proteins such as EIN2, EIN3, and EILs. Additionally, the study found that CTR1 expression is higher during seed germination and maintained at lower levels in mature leaves and plants. This study provides a detailed observation of CTR1 gene expression and, for the first time, identifies that the CTR1 promoter is regulated by ethylene induction, offering new options for designing ethylene signaling pathway reporter systems.