Abstract
Cell walls are basically complex with dynamic structures that are being involved in several growth and developmental processes, as well as responses to environmental stresses and the defense mechanism. Pectin is secreted into the cell wall in a highly methylesterified form. It is able to perform function after the de-methylesterification by pectin methylesterase (PME). Whereas, the pectin methylesterase inhibitor (PMEI) plays a key role in plant cell wall modification through inhibiting the PME activity. It provides pectin with different levels of degree of methylesterification to affect the cell wall structures and properties. The PME activity was analyzed in six tissues of Sorghum bicolor, and found a high level in the leaf and leaf sheath. PMEI families have been identified in many plant species. Here, a total of 55 pectin methylesterase inhibitor genes (PMEIs) were identified from S. bicolor whole genome, a more detailed annotation of this crop plant as compared to the previous study. Chromosomal localization, gene structures and sequence characterization of the PMEI family were analyzed. Moreover, cis-acting elements analysis revealed that each PMEI gene was regulated by both internal and environmental factors. The expression patterns of each PMEI gene were also clustered according to expression pattern analyzed in 47 tissues under different developmental stages. Furthermore, some SbPMEIs were induced when treated with hormonal and abiotic stress. Taken together, these results laid a strong foundation for further study of the functions of SbPMEIs and pectin modification during plant growth and stress responses of cereal.
Highlights
Plant cell walls are composed of high-molecular-weight polysaccharides including cellulose, hemicellulose, pectin and several glycosylated proteins [1]
Inhibiting the enzyme activity of pectin methyl-esterase is the main function of the pectin methylesterase inhibitor (PMEI) protein, Inhibiting the non-covalent enzyme activity of pectin methyl-esterase main function of the PMEI
Molecular phylogeny of SbPMEIs along with 71 Arabidopsis and 49 rice PMEI members revealed that the gene evolution event occurred between monocot and dicot
Summary
Plant cell walls are composed of high-molecular-weight polysaccharides including cellulose, hemicellulose, pectin and several glycosylated proteins [1]. The pectin matrix is synthesized in a highly methylesterified form in the Golgi apparatus and secreted into cell walls, where it is de-methylesterified by pectin methylesterase (PME) [3]. Such events may bring changes in the structural and functional properties of cell walls, which is vital to pollen development, pollen tube growth, organ aging, fruit ripening and plant defense i.e., senescence, wounding, biotic and abiotic stress [4,5,6,7,8,9,10]. De-methylesterified pectin produces the pectic acid that can bind to extracellular Ca2+ to synthesize pectinate, which helps in the stiffening of cell walls and allows the cells to grow gradually
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