Your search keyword '"Marijana Skorić"' showing total 2 results

1. Secoiridoids Metabolism Response to Wounding in Common Centaury (

Author

Jelena, Božunović, Marijana, Skorić, Dragana, Matekalo, Suzana, Živković, Milan, Dragićević, Neda, Aničić, Biljana, Filipović, Tijana, Banjanac, Branislav, Šiler, and Danijela, Mišić

Subjects

stomatognathic system, transcription factors, common centaury, Centaurium erythraea Rafn, biosynthesis, wounding, secoiridoid glucosides, Article

Abstract

Centaurium erythraea Rafn produces and accumulates various biologically active specialized metabolites, including secoiridoid glucosides (SGs), which help plants to cope with unfavorable environmental conditions. Specialized metabolism is commonly modulated in a way to increase the level of protective metabolites, such as SGs. Here, we report the molecular background of the wounding-induced changes in SGs metabolism for the first time. The mechanical wounding of leaves leads to a coordinated up-regulation of SGs biosynthetic genes and corresponding JA-related transcription factors (TFs) after 24 h, which results in the increase of metabolic flux through the biosynthetic pathway and, finally, leads to the elevated accumulation of SGs 96 h upon injury. The most pronounced increase in relative expression was detected for secologanin synthase (CeSLS), highlighting this enzyme as an important point for the regulation of biosynthetic flux through the SG pathway. A similar expression pattern was observed for CeBIS1, imposing itself as the TF that is prominently involved in wound-induced regulation of SGs biosynthesis genes. The high degree of positive correlations between and among the biosynthetic genes and targeted TFs expressions indicate the transcriptional regulation of SGs biosynthesis in response to wounding with a significant role of CeBIS1, which is a known component of the jasmonic acid (JA) signaling pathway.

Published

2019

2. Phenotypic and Genetic Variation of an Interspecific

Author

Tijana, Banjanac, Sanja, Đurović, Mihailo, Jelić, Milan, Dragićević, Danijela, Mišić, Marijana, Skorić, Jasmina, Nestorović Živković, and Branislav, Šiler

Subjects

Centaurium, speciation, EST-SSR, fungi, food and beverages, interspecific hybridization, trnL-F, Article, allopolyploidy, morphometry

Abstract

Interspecific hybridization is one of the major actuators of evolutionary changes in plants. As the result of allopolyploid hybridization, offspring may gain different ploidy levels in comparison to parental species, which can provide them instant reproductive isolation. Two tetraploid sister species, Centaurium erythraea and C. littorale, readily cross-fertilize, resulting in hybrids of various ploidy. In northern Serbia, two stable populations of a hexaploid taxon C. pannonicum have been documented. It has been proposed previously that this taxon emerged after an interspecific hybridization event between two tetraploid sister-species: C. erythraea and C. littorale subsp. compressum. The existing populations of the hybridogenic taxon, as well as neighboring populations of the two parental taxa were here characterized by both morphometrics and molecular markers (EST-SSR and trnL-F). Three leaf and two flower characteristics were found to be informative in delimitation of the parental taxa and in their discernment from hybrid individuals, the latter having intermediate values. Eight microsatellite markers were found to have good ability to distinguish studied taxa, placing C. pannonicum in closer relationship with C. erythraea. Conversely, trnL-F plastid marker nominated C. littorale subsp. compressum to be the donor of the C. pannonicum plastid DNA. Reproductive isolation of the hexaploid hybrid individuals from the parental species should be examined as the next logical step in describing the new species.

Published

2019