Abstract
This research aimed to investigate the effects of progesterone, a mammalian steroid sex hormone, on the mitochondrial respiration in germinating maize seeds. For this purpose, maize seeds were divided into four different groups (control, 10−6, 10−8, and 10−10 mol·L−1 progesterone) and were grown in a germination cabinet in the dark at 24.5 ± 0.5 °C for 4 d. The changes in gene expression levels of citrate synthase (CS), cytochrome oxidase (COX19), pyruvate dehydrogenase (Pdh1), and ATP synthase (ATP6), which is involved in mitochondrial respiration, were studied in root and cotyledon tissues. Significant increases were recorded in the gene expression levels of all studied enzymes. In addition, progesterone applications stimulated activities of malate synthase (MS), isocitrate lyase (ICL), and alpha-amylase, which are important enzymes of the germination step. The changes in gene expression levels of mas1 and icl1 were found parallel to the rise in these enzymes’ activities. It was determined similar increases in root and coleoptile lengths and total soluble protein and total carbohydrate contents. The most remarkable changes were detected in 10−8 mol·L−1 progesterone-treated seedlings. These results clearly indicate that progesterone stimulates mitochondrial respiration by inducing biochemical and molecular parameters and thus accelerates seed germination thanks to the activation of other pathways related to mitochondrial respiration.
Highlights
Mammalian sex hormones (MSHs) are a member of steroids and are naturally present in plants [1]
The present investigation aimed, for the first time, to reveal the effects of exogenous progesterone application on early seedling growth based on the changes in progesterone application on early seedling growth based on the changes in mitochondrial respiration besides physiological ad biochemical parameters in germinating mitochondrial respiration besides physiological ad biochemical parameters in germinatmaize seeds
All applied concentrations of progesterone significantly increased the coleoptile lengths of maize seedlings in comparison to their controls
Summary
Mammalian sex hormones (MSHs) are a member of steroids and are naturally present in plants [1]. After the determination of MSHs in plants, many studies were conducted regarding the presence, quantities, types, effects, and receptors of these steroids in various organs and tissues of many plant species in all developmental stages from germination to flowering [2,3,4,5]. Among the MSHs, the most studied hormone concerning its effects on plants is progesterone. Like other MSHs, progesterone (PRG) has a generally stimulating effect on all developmental stages of plants from germination to the flowering stage, and this effect was clearly revealed by the findings obtained from the studies regarding its effects on many parameters such as cell division, callus formation, root-stem elongation, pollen germination, protein, sugar, pigment, and phenolic substance contents in various plants [1,12,13,14]
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