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Phenolic Compound Content of Leaf Extracts from Different Roselle (Hibiscus sabdariffa) Accessions
류재일,김정민,김동건,김진백,김상훈,안준우,강시용,류재현,권순재 한국육종학회 2020 Plant Breeding and Biotechnology Vol.8 No.1
The leaves of roselle (Hibiscus sabdariffa L.) have been used as a traditional folk medicine that has diuretic and mild laxative effects. Roselle is cultivated in many countries for medicines and food. However, studies on the variation of functional compounds in different accessions are relatively limited. In this study, we investigated the phenolic compound content of leaf extracts from 49 different roselle accessions from a worldwide collection by ultra-high performance liquid chromatography mass spectrometry. The aim was to chemically classify and assess the pharmacological properties of the phenolic compounds in the leaves. The phenolic compounds were identified as neochlorogenic acid, cryptochlorogenic acid, rutin, rutin isomer, isoquercitin, kaempferol-3-O-rutinoside, kaempferol-3-O-glucoside, quercetin, quercetin isomer, and kaempferol. These compounds were present at significantly different levels among the accessions. The most abundant phenolic compound was rutin, which was found in 45 accessions where the total phenolic compound content was 18.75-46.51 mg/g (average 31.52 mg/g). The phenolic compounds were classified into four groups. The two accessions with the highest total phenolic compound content were from Ghana (PI286316) and Senegal (PI275413). The hierarchical cluster analysis of the 49 roselle accessions showed that they formed five groups according to their phenolic compound content. Our results will be useful for the selection of roselle genotypes with improved functional compounds.
류재일,박지현,김주곤,배창휴,정원중,민성란,유장렬 한국식물생명공학회 2018 Plant biotechnology reports Vol.12 No.6
A fusion gene coding for trehalose-6-phosphate synthase/phosphatase (TPSP) derived from Escherichia coli was introduced into tomato plants (Solanum lycopersicum cv. Joyful) to generate overexpressing lines and enhance the level of trehalose in the seeds. Trehalose has been implicated in tolerance to abiotic stress in plants, so the response to heat stress of seeds from the transgenic lines and seeds from wild-type plants were compared. Wild-type heat-treated seeds had a germination rate of 17%, while four transgenic lines had germination rates over 50% following heat stress. In one heat-treated transgenic line, 100% of the seeds germinated, and therefore had a germination rate six times that of seeds from wild-type plants. Moreover, quantitative PCR revealed that the expression of diverse genes that respond to heat stress was enhanced in TPSP transgenic seeds compared to wild-type seeds 150 min after the onset of heat stress. The enhanced germination rate and expression of these genes in the transgenic seeds were essentially mimicked in wild-type seeds treated with 1 mM exogenous trehalose. Therefore, accumulated trehalose and associated metabolites may act as signaling molecules that enhance the expression of heat stress-responsive genes and confer heat-stress tolerance to seeds.