| Affiliation: | 1.Chair of Plant Physiology and Biotechnology,Nicolaus Copernicus University,Toruń,Poland;2.Centre for Modern Interdisciplinary Technologies,Nicolaus Copernicus University,Toruń,Poland;3.Department of Cell Biology,Nicolaus Copernicus University,Toruń,Poland |
| Abstract: | Jasmonic acid methyl ester (JAMe) has been recently shown to play a crucial role in many physiological processes. In this paper, we focused on cotyledon senescence in Ipomoea nil and revealed that JAMe and darkness are the main factors stimulating the process examined. What is more, we showed that mefenamic acid (a jasmonate biosynthesis inhibitor) reverses the stimulatory effect of darkness on senescence. In plants growing under dark conditions, stimulation of JASMONIC ACID CARBOXYL METHYLTRANSFERASE (InJMT) expression and, consequently, an increase in JAMe content, have been observed. In turn, the level of jasmonic acid (JA) gradually decreased. Moreover, dark-grown seedlings demonstrated a lower PSII functional activity and a reduced chlorophyll content and autofluorescence. All of these data suggest that JAMe is a signal molecule controlling the senescence of cotyledons in I. nil. |
