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6. Identification of Flavonoids, Antioxidant and Antiproliferative Activity of Aqueous Infusions of Calendula officinalis L., Chelidonium majus L., Teucrium chamaedrys L. and Alchemilla vulgaris L.

Author

Bilušić, Tea, Šola, Ivana, Čikeš Čulić, Vedrana, Bilušić, Tea, Šola, Ivana, and Čikeš Čulić, Vedrana

Abstract

Research background. The current changes in the global economy, characterised by the climate crisis and the economic and health impact of the COVID-19 pandemic, have led to a significant demand for medicinal herbs. This trend is expected to increase significantly by 2050. In this study, we investigated the biopotential of aqueous infusions of four medicinal plants: Calendula officinalis, Chelidonium majus, Teucrium chamaedrys and Alchemilla vulgaris. Experimental approach. The flavonoid analysis of the aqueous infusions of the selected plants was carried out using the RP-HPLC technique. The antiproliferative activity of the prepared aqueous plant infusions was analysed against three human cancer cell lines (MDA-MD-231, T24 and A549), while the antioxidant potential was measured using three antioxidant methods (DPPH, FRAP and Rancimat assay). Results and conclusions. T. chamaedrys had the highest total phenolics (expressed as GAE (2061±42) mg/L), free radical scavenging activity (IC50=1.9 mg/mL) and Fe(III) reducing antioxidant power (expressed as FeCl2 (9798±27) mg/L). At a concentration of 1 mg/mL, the antiproliferation of T24 by C. majus was 96 % and of MDA-MD-231 cells by A. vulgaris was 75 % after 72 h. After principal component analysis, T. chamaedrys and C. majus were grouped together. Quercetin glucoside and antioxidant capacity (DPPH) contributed the most to differentiate these infusions from the other two. Novelty and scientific contribution. This study represents a comparative analysis of the biopotential of four medicinal plants. A new RP-HPLC method was developed to separate the flavonoids in the herbal infusions. This is the first report on the presence of kaempferol-3-O-rutinoside in C. officinalis and isorhamnetin-3-O-rutinoside in A. vulgaris aqueous infusion. For the first time, C. majus has been shown to contribute to the oxidative stability of edible oil. Furthermore, this is the first comparative study on the antiproliferative activity of selecte, Pozadina istraživanja. Aktualne promjene na području svjetske ekonomije, uvjetovane klimatskim promjenama te ekonomskim i zdravstvenim implikacijama pojave pandemije bolesti COVID-19, rezultirale su izraženim zanimanjem stanovništva za ljekovitim biljem. Predviđa se da će do 2050. godine zanimanje za ljekovito bilje još više porasti. U ovom istraživanju ispitali smo biološki potencijal vodenih infuza četiriju ljekovitih biljnih vrsta: Calendula officinalis, Chelidonium majus, Teucrium chamaedrys i Alchemilla vulgaris. Eksperimentalni pristup. Analiza flavonoida u vodenim infuzima odabranih biljnih vrsta provedena je pomoću tehnike RP-HPLC. Antiproliferacijska aktivnost pripravljenih biljnih infuza testirana je na trima tipovima ljudskih tumorskih stanica (MDA-MD-231, T24 i A549), dok je antioksidacijski potencijal određen pomoću triju metoda (DPPH, FRAP i Rancimat test). Rezultati i zaključci. Vrsta T. chamaedrys imala je najveći udjel ukupnih fenola ((2061±42) mg/L ekvivalenata galne kiseline), najbolju sposobnost uklanjanja slobodnih radikala (IC50=1,9 mg/mL) i najveći stupanj redukcije Fe(III) iona (izraženo kao FeCl2 (9798±27) mg/L). Najbolji antiproliferacijski učinak na stanice T24 imao je infuz vrste C. majus (96 %) pri koncentraciji od 1 mg/mL nakon perioda inkubacije od 72 h, dok je infuz vrste A. vulgaris imao antiproliferacijski učinak na stanice MDA-MD-231 od 75 %. Na temelju analize glavnih komponenata, vodeni infuzi vrsta T. chamaedrys i C. majus izdvojili su se od ostala dva. Koncentracija kvercetin-glukozida i antioksidacijski kapacitet izmjeren metodom DPPH najviše su pridonijeli izdvajanju ova dva tipa infuza. Novina i znanstveni doprinos. Ovo istraživanje predstavlja komparativnu analizu biopotencijala četiriju ljekovitih biljnih vrsta. U svrhu optimalnog razdvajanja pojedinačnih flavonoida iz vodenih biljnih infuza razvijena je nova metoda RP-HPLC. Po prvi put je identificiran flavonoid kempferol-3-O-glukozid u vodenom infuzu biljne vrste C. offi

Published
2024

7. The Invasive Alien Plant Solidago canadensis : Phytochemical Composition, Ecosystem Service Potential, and Application in Bioeconomy.

Author

Poljuha, Danijela, Sladonja, Barbara, Uzelac Božac, Mirela, Šola, Ivana, Damijanić, Danijela, and Weber, Tim

Subjects
ECOSYSTEM services, INDIGENOUS species, INTRODUCED plants, SUSTAINABLE development, SOIL structure
Abstract

Solidago canadensis L. (Canadian goldenrod) is a widely distributed invasive herb from the Asteraceae family. It contains compounds that can change the soil structure and its nutritional components and thus affect indigenous species' growth, germination, and survival. Consequently, it can pose a major ecological threat to biodiversity. On the other hand, many studies show that this species, due to its chemical properties, can be used for many positive purposes in pharmacy, agriculture, medicine, cosmetic industry, etc. S. canadensis contains a diverse array of bioactive compounds that may be responsible for antioxidant, antimicrobial, and anticancer activities. Many studies have discussed the invasiveness of S. canadensis, and several chemical and genetic differences between this plant in native and introduced environments have been discovered. Previous ecological and environmental evaluations of the potential of S. canadensis as an ecosystem services provider have come out with four promising groups of its products: active extracts, essential oil, fuel, and others. Although identified, there is a need for detailed validation and prioritisation of ecosystem services. This article aims to overview the S. canadensis invasive features, emphasising chemical characterisation and its potential for providing ecosystem services. Moreover, it identifies scenarios and proposes a methodology for estimating S. canadensis use in bioeconomy. [ABSTRACT FROM AUTHOR]

Published
2024
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9. A Comparative Study of Oleuropein Extraction from Wild Olive Leaves (Olea europea subsp. oleaster, Hoffmanns. & Link), Its Gastrointestinal Stability, and Biological Potential

Author

Soldo, Barbara, primary, Bilušić, Tea, additional, Giacometti, Jasminka, additional, Ljubenkov, Ivica, additional, Čikeš Čulić, Vedrana, additional, Bratanić, Andre, additional, Bošković, Perica, additional, Šola, Ivana, additional, and Ilić, Krunoslav, additional

Published
2024
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14. Invasive Alien Species as a Potential Source of Phytopharmaceuticals: Phenolic Composition and Antimicrobial and Cytotoxic Activity of Robinia pseudoacacia L. Leaf and Flower Extracts

Author

Uzelac, Mirela, primary, Sladonja, Barbara, additional, Šola, Ivana, additional, Dudaš, Slavica, additional, Bilić, Josipa, additional, Famuyide, Ibukun M., additional, McGaw, Lyndy J., additional, Eloff, Jacobus N., additional, Mikulic-Petkovsek, Maja, additional, and Poljuha, Danijela, additional

Published
2023
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15. Physiological responses of grapevine (Vitis viniferavar. ‘Pinot gris’) affected by different flavescence doréegenotypes: dynamics through the development of phytoplasma infection

Author

Davosir, Dino, Šola, Ivana, and Šeruga Musić, Martina

Abstract

Phytoplasmas are phytopathogenic bacteria that cause serious damage to agriculture. A quarantine pathogen, the flavescence doréephytoplasma (FDp), often associated with grapevine yellows disease, affects viticultural production across Europe. However, the mechanisms of FDp pathogenicity are not still elucidated. In this study, symptomatic and asymptomatic grapevine (Vitis viniferaL. var. ‘Pinot gris’) leaves were sampled. Two different FDp genotypes (M38 and M54) were identified, and genotype-dependent changes to grapevine physiological responses through the development of FDp infection were analysed. Correlation analyses established a potential link between measured physiological parameters and relative FDp DNA abundance. Increased malondialdehyde levels pointed to the oxidative stress in infected leaves, and highly correlated with the activation of L-ascorbic acid synthesis. Levels of hydrogen peroxide were reduced in infected leaves, possibly as an FDp mechanism to avoid plant-derived oxidative damage. Genotype M54 was associated with a lower accumulation of soluble sugars and lower damage to photosynthetic pigments while retaining a higher titre than M38. Therefore, pronounced phytoplasma genotype-dependent changes in grapevine physiology, potentially caused by the differences between M54 and M38 on the level of the efficiency of their effectors should be further investigated. Altogether, results provide data on certain targets of FDp in grapevine and could assist in the identification of potential specific effectors of this phytoplasma to aid the efforts of FDp management in European vineyards.

Published
2024
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18. THE GOOD, THE BAD AND THE UGLY: INVASIVE ALIEN PLANT SPECIES AS PHYTOPHARMACEUTICALS

Author

Poljuha, Danijela, Uzelac, Mirela, Sladonja, Barbara, Bilić, Josipa, Šola, Ivana, Mikulič Petkovšek, Maja, Dudaš, Slavica, and Georgiev, Milen I.

Subjects
ecosystem services, LC-MS, phenolics, phytochemicals, plant extracts
Abstract

The phytochemical characterisation has been considered crucial in the investigation of the invasive potential of alien plant species, making it a primary contributor to their negative impact on the environment [1]. Conversely, the diverse array of phytochemicals also presents an immense untapped potential in the extraction of active compounds, leading to their application as phytopharmaceuticals [2, 3]. This study provides the LC-MS phytochemical screening of four invasive alien plant species (IAPS) (Robinia pseudoacacia L., Helianthus tuberosus L., Ailanthus altissima (Mill.) Swingle, and Solidago canadensis L.) in the Istria region (Croatia). Using a non-targeted metabolomics approach, we identified 130 phenolic compounds in the 70% ethanolic leaf extracts, of which 85 were species-specific. Caffeoylquinic, coumaroylquinic, and feruloylquinic acids, as well as kaempferol and caffeic acid hexosides, were detected in all the tested IAPS. Furthermore, A. altissima had the highest spectrophotometrically determined total phenolic (TP) and non-flavonoid (TNF) content, as well as antioxidant capacity (AC) obtained by ABTS, DPPH, and FRAP assays. The highest total flavonoid (TF) content was recorded in the extracts of H. tuberosus. A strong correlation between TP content and AC values was observed in all extracts. In the next phase, we will investigate the antimicrobial, cytotoxic, genotoxic and antioxidant properties of extracts. Based on the obtained results and the ecological assessment of IAPS impacts, we will propose a model for exploring new IAPS provisioning ecosystem services on the pilot territory of Istria.

Published
2023

19. Microgreens brokule pri visokoj i niskoj temperaturi: Koji su bogatiji proteinima?

Author

Šola, Ivana, Gmižić, Daria, Litrić, Magdalena, and Vilagoš, Ena

Subjects
klijanci, klimatske promjene, globalno zagrijavanje
Abstract

U sklopu radionice, posjetitelji su se okušali u analizi koncentracije proteina u ekstraktima klijanaca brokule koji su uzgajani na tri različite temperature: niskoj, visokoj i normalnoj. Nakon pokusa, diskutiralo se o mogućoj primjeni dobivenih rezultata u industriji i svakodnevnom životu.

Published
2023

20. Effect of Temperature Stress on the Concentration of Bioactive Compounds in Broccoli

Author

Kokić, Emilie, Zekirovski, Jana, and Šola, Ivana

Subjects
broccoli, phenolics, photosynthetic pigments, phytochemicals, temperature stress
Abstract

Climate change is a global challenge that has changed the physiological and biochemical parameters of plants. Plants are sessile organisms and their survival depends on the effective activation of metabolic mechanisms of resistance to such stress. In the scope of this work, we investigated the influence of low (0⁰C) and high (80⁰C) water temperature on the metabolism of young broccoli plants (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.) with the aim of adefining the parameters that indicate susceptibility or resistance of broccoli to stress caused by low and high water temperature, and b) evaluating the changes in selected parameters of broccoli metabolism due to these two types of stress. For the determination of bioactive compounds, we used high performance liquid chromatography and spectrophotometric methods. For all pigments, except chlorophyll a, a statistically significant difference was observed between the group treated with high temperature water and the remaining two groups (control and group treated with cold water). The highest proportion of chlorophyll b was found in the group treated with hot water. Regarding the proportions of total porphyrins and lycopene, a difference was also observed between the group treated with hot water and the other two groups. The proportion of carotenoids, on the other hand, was the lowest in the group treated with hot water. The proportion of total proanthocyanidins in young broccoli plants was the highest in the group treated with hot water, while the proportion of total hydroxycinnamic acids and flavonols was significantly lower in the group treated with hot water than in the other two groups. The proportion of the remaining four groups of compounds (total phenols, flavonoids, tannins and phenolic acids) in broccoli subjected to stress caused by high and low temperature water did not statistically differ from the control group.

Published
2023

21. Do broccoli's phenolics like it hot or cold?

Author

Gmižić, Daria and Šola, Ivana

Subjects
Brassicaceae, climate change, phytochemicals, specialized plant metabolites
Abstract

Plants produce specialized metabolites, phenolics being one of them, in order to adapt to abiotic and biotic stresses more successfully. This study aimed to investigate which groups of phenolics in broccoli seedlings (Brassica oleracea botrytis var. cymosa) are more susceptible to concentration changes at high and low growing temperature. To answer this, in the fall of 2022/2023, we cultivated three biological replicas of broccoli seedlings in three different temperature conditions: high (38 °C day/33 °C night), low (12 °C day/7 °C night), and regular (23 °C day/18 °C night) as a control group. Seedlings were lyophilized, extracts in 70% ethanol prepared and spectrophotometric analyses of total phenolics, flavonoids, flavonols, hydroxycinnamic and phenolic acids were conducted. According to the results, total flavonols and flavonoids decreased significantly when seedlings were grown at both high and low temperatures, while total phenolics, phenolic and hydroxycinnamic acids decreased significantly only when grown at high temperature. Out of these groups of phenolics, total flavonols were the most susceptible to change when grown at high temperature, while total flavonoids were the most susceptible to change when grown at low temperature. Total phenolic acids were the most resistant at high and low temperature cultivation. In conclusion, high temperature cultivation significantly reduced the concentration of all analyzed groups of phenolics and had more impact on phenolics of broccoli seedlings than low temperature cultivation.

Published
2023

22. Microgreens brokule pri visokoj i niskoj temperaturi

Author

Šola, Ivana, Gmižić, Daria, Litrić, Magdalena, and Vilagoš, Ena

Subjects
fitokemikalije, globalno zatopljenje, klimatske promjene, kupusnjače
Abstract

Posjetitelji su se okušali u analizi koncentracije proteina i antioksidacijski kapacitet ekstrakata klijanaca brokule koji su uzgajani na različitim temperaturama: niskoj, visokoj i normalnoj. Nakon pokusa, diskutiralo se o mogućoj primjeni dobivenih rezultata u industriji i svakodnevnom životu.

Published
2023

23. Phytochemical adaptation of plants to temperature: Case of broccoli

Author

Šola, Ivana, Gmižić, Daria, Stić, Petra, Davosir, Dino, Kokić, Emilie, Zekirovski, Jana, Pinterić, Marija, and Lazarus, Maja

Subjects
brassicaceous vegetables, climate change, global warming, plant adaptation, plant metabolites
Abstract

Plants are extremely adaptable organisms, they can survive different types of environmental stresses. Survival is possible due to their ability to quickly adapt phyotchemically to new conditions. Such phytochemical adaptations can cause change of plant nutritional potential, as well as to lead to formation of new (sub)species. The effect of temperature stress on broccoli plants will be discussed, accompanied by the most important results of analyses.

Published
2023

24. Utjecaj vode niske i visoke temperature na hranidbenu vrijednost brokule (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.)

Author

Zekirovski, Jana and Kokić, Emilie, Šola, Ivana

Subjects
amilaza, brokula, HPLC, klimatske promjene, lipaza
Abstract

Klimatske promjene globalni su problem koji je promijenio i fiziološke i biokemijske parametre biljaka. S obzirom da su biljke sesilni organizmi, opstanak im ovisi o učinkovitoj aktivaciji metaboličkih mehanizama otpornosti na takav stres. U sklopu ovog rada istražen je utjecaj vode niske i visoke temperature na metabolizam mladih biljaka brokule s ciljem utvrđivanja promjene hranidbenih svojstava biljaka. Ekstrakti brokule pripremljeni su u 70% etanolu. Spektrofotometrijski je određena koncentracija ukupnih glukozinolata, metodom tekućinske kromatografije visoke moći razlučivanja identificiran je i kvantificiran vitamin C, te je izmjerena sposobnost ekstrakata da inhibiraju aktivnost enzima α-amilaze i lipaze. Rezultati su pokazali da se koncentracija vitamina C značajno povećala kod skupine tretirane vodom visoke temperature. S druge strane, koncentracija ukupnih glukozinolata kao i sposobnost inhibicije α-amilaze značajno se povećala kod skupine tretirane vodom niske temperature. Što se inhibicije lipaze tiče, ona se značajno smanjila kod skupine tretirane vodom visoke temperature. Promjene u navedenim parametrima upućuju na to da bi porast globalne temperature, kao i sve češći temperaturni šokovi, mogli značajno utjecati na hranidbenu vrijednost biljaka.

Published
2023

25. Hot- and cold-water stress impact on broccoli nutritional potential

Author

Šola, Ivana, Davosir, Dino, Kokić, Emilie, and Zekirovski, Jana

Subjects
abiotic stress, brassicaceous vegetables, global warming, glucosinolates, phenolics, vitamins
Abstract

Due to climate change, sudden and intense changes in weather conditions are becoming more frequent. Immobile organisms such as plants cannot “take refuge” from high or low temperatures but adapt their physiology to the new conditions to survive. The intensity and direction of these changes depend on both the temperature and the plant species. Since adaptations at the metabolic level are fast, changes in the ambient temperature can be detected on the level of biochemical responses by which plants react to the new conditions. Such changes are usually crucial yield-limiting factors for plants. Broccoli (Brassica oleracea) is rich in vitamins (C, K) ; β-carotene, a precursor of vitamin A ; dietary fibers ; polyphenols ; fatty acids ; minerals and glucosinolates - phytochemicals that are predominantly represented in Brassica vegetables. These compounds contribute to the health benefits of broccoli, such as antioxidant, antiproliferative and antidiabetic properties and the protection of the cardiovascular system. Temperature and irradiation have been recognized as the most important factors for the production of consumer-orientated quality broccoli. Since broccoli is native to moderate climatic zones such as the Mediterranean region, high or low temperatures will cause perturbations in its phytochemical profile to survive. Such phytochemical perturbations might have consequences on the biological effects of a plant and its products. In scope of our work, we investigated the influence of hot- and cold-water stress on the metabolism of young broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.) plants with the aim to (i) define the susceptible and resistant parameters of this plant during low- and high-temperature water stress, (ii) determine the degree of metabolism change of broccoli due to these two types of stress, and (iii) determine the degree of change in the biological effects of broccoli extracts due to the types of stress.

Published
2023

26. Kako globalno zatopljenje utječe na prehrambenu vrijednost biljaka?

Author

Šola, Ivana

Subjects
globalno zatopljenje, klimatske promjene, nutritivna vrijednost biljaka, temperaturni stres, vodni stres
Abstract

Kako globalno zatopljenje utječe na prehrambenu vrijednost biljaka? - predstavljanje rezultata istraživanja u sklopu projekta "Indirektni utjecaj globalnog zagrijavanja na fiziološke parametre sisavaca prehranom biljkama uzgojenim pri visokoj temperaturi (TEMPHYS)".

Published
2023

27. How to improve the nutritional properties of microgreens?

Author

Šola, Ivana

Subjects
biofortification, functional food, interspecies transfer of metabolites, membrane permeabilizers, microgreens
Abstract

In the last years there is a growing demand for fresh and healthy food, and sprouts are an example of recognized nutritional value. Moreover, the improvement of the foods nutritional quality has become a general health concern. The practical advantage and convenience that the sprouts offer to the consumers makes this market currently the fastest growing sector in food industry. One simple strategy to improve the nutritional properties of microgreens could be the interspecific transfer of bioactive compounds. Therefore, our goal was to analyze the potential of interspecific source-sink phytochemical transfer for the improvement of phenolic bioactive compounds and vitamin C profile in microgreens, their gastrointestinal bioaccessibility, hypoglycemic potential, and antioxidant capacity as well as antiproliferative effect. In addition, we also tested whether an effect of phytochemical transfer is evident in the expression of marker genes in phenolic biosynthetic pathways. Chinese cabbage (Brassica rapa ssp. pekinensis) was used as a model organism. The results showed that interspecific phytochemical transfer from donor Tamus communis extract significantly improved bioaccessibility of vitamin C, kaempferol and total phenolics both before and after gastrointestinal digestion of Chinese cabbage microgreens, increased their hypoglycemic activity, and antioxidant capacity. In addition, sprouts treated with extracts from Rosa sp. and H. perforatum showed better cytotoxicity towards human breast adenocarcinoma cells than untreated sprouts. qRT-PCR analyses revealed that BrpFLS of Chinese cabbage microgreens was slightly upregulated upon a 4-hour treatement with Rosa sp. extract, therefore, this gene could be used as a marker for the biosynthetic pathway alteration. All together, the results suggest that treatment with donor extracts can be considered a promising approach to improve the nutritional properties of Chinese cabbage sprouts as „healthy food“.

Published
2023

29. INCREASE IN PHENOLICS CONTENT AS A BIOMARKER OF LATE INFECTION WITH FLAVESCENCE DOREÉ PHYTOPLASMA IN GRAPEVINE

Author

Davosir, Dino, Šola, Ivana, Šeruga Musić, Martina, and GÜNDÜZ, Gökhan

Subjects
grapevine, phenolics, phenolic acids, phytoplasmas
Abstract

Due to inability to culture phytoplasmas in vitro in a pure culture, our knowledge of them is still limited. Nevertheless, their negative impact on agricultural production worldwide is prominent. Phytoplasmas are bacterial parasites which belong to the genus ‘Candidatus Phytoplasma’ and infect a wide variety of plants and insects. Among infecting other agriculturally important plant species, they are known to heavily affect viticultural production. Phytoplasmas have a variety of effector molecules which help them modify host physiological processes in order to promote their reproduction and transmission. However, plant responses to phytoplasma infection remain insufficiently investigated. Therefore, in this study, we investigated the effect of infection with the flavescence doreé phytoplasma on the phenolic profile of grapevine (Vitis vinifera L.) leaves. Infection with the flavescence doreé phytoplasma was confirmed in symptomatic plants using the multiplex real-time PCR assay. The content of groups of phenolic metabolites was evaluated in grapevine leaves sampled at the three time points during the development of infection. Results revealed the lower content of most groups of phenolic compounds at the first time point. However, the content of total phenolic acids was higher at the first time point in leaves of infected plants compared to the uninfected leaves. At the third time point, content of all phenolics groups was higher in infected plants. Results point to induction of phenolic biosynthesis in infected plants at a late stage of infection, pointing to phenolic compounds as a biomarker of late stages of grapevine infection with the flavescence doreé phytoplasma.

Published
2022

30. Influence of temperature stress on the concentration of vitamin C and phenolic compounds in broccoli (Brassica oleracea botrytis var. cymosa)

Author

Kokić, Emilie: Zekirovski, Jana and Šola, Ivana

Subjects
flavonoids, phenolic acids, temperature stress, vegetables, vitamin C
Abstract

Broccoli (Brassica oleracea botrytis var. cymosa) was grown to a stage with two adult leaves, after which it was subjected to temperature stress until the stage of development with 6-8 adult leaves. Ice water treatment was performed by applying ice to the substrate in pots in which broccoli was grown and hot water treatment by watering the substrate with water at a temperature of 80°C. A control group of plants was watered with room temperature water. After collecting the aboveground part of the plants, it was immediately frozen in a stream of liquid nitrogen and then lyophilized. The extracts were prepared in 70% ethanol, after which they were hydrolysed using 1.2 M hydrochloric acid. Separation, identification and quantification of vitamin C, ferulic and synapic acid and flavonols quercetin and kaempferol were performed using high performance liquid chromatography (HPLC). Stress caused by high temperature water significantly increased the concentration of vitamin C and ferulic acid and decreased the concentration of kaempferol and synapic acid in young broccoli plants. Stress caused by ice water did not increase the concentration of any of the analysed bioactive compounds, but therefore significantly reduced the concentration of kaempferol and synapic acid. The concentration of flavonol quercetin in young broccoli did not change significantly after stress caused by hot and ice water.

Published
2022

31. Broccoli seedlings extracts change the activity of α-amylase and α-glucosidase: effect of growing temperature

Author

Šola, Ivana, Gulin, Silvija, Vujčić Bok, Valerija, Rusak, Gordana, Vuković, N., and Šegota, V.

Subjects
antidiabetic activity, digestive enzymes, food, global warming, microgreens
Abstract

Plants challenged with high temperature (HT) undergo many adaptive mechanisms at molecular levels to keep normal physiological function. Such adaptations consequently influence their bioactivity. In this work, within the scope of the TEMPHYS project (IP-2020-02- 7585), we investigated the effect of HT on the antidiabetic activity of broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.) seedlings. The activity was spectrophotometrically assessed via the percentage of inhibition of α-amylase and α-glucosidase, enzymes required for carbohydrate digestion. Enzyme inhibitory activity was calculated from the equation: % inhibition = 100 – [(At – Atb / Ac – Acb) x 100], where At was absorbance of test, Atb was absorbance of test blank, Ac was absorbance of control, and Acb was absorbance of control blank. Seedlings were grown in a climatic chamber with temperature range 23°C/16h, 18°C/8h for control group, and 38°C/16h, 33°C/8h for HT group. The extracts were prepared from freeze- dried plant material using boiling (100°C) water followed by incubation on rotary extractor for 1 hour at 23°C. The results showed that broccoli seedlings aqueous extracts were more efficient in the inhibition of α-amylase (88% relative to the standard acarbose), than α-glucosidase (67% relative to the standard acarbose). HT significantly (p≤0.05) decreased the potential to inhibit α-amylase (80%), however it improved the potential to inhibit α-glucosidase (70%). These results show that high growing temperature significantly changes the biological effects of plants ; moreover, their activity toward different enzymes is specifically affected. Further more detailed analyses into the effect of global warming on cruciferous (Brassicaceae) vegetables bioactivity are needed.

Published
2022

32. High growing temperature affects the antioxidant potential of broccoli seedlings (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.)

Author

Gmižić, Daria, Šola, Ivana, Vuković, Nina, and Šegota, Vedran

Subjects
ABTS, β-carotene bleaching, climate change, DPPH, FRAP
Abstract

Due to climate change, plants are exposed to abiotic stress, especially high temperatures. To combat those stressful conditions, they developed antioxidant mechanisms which help them to reduce reactive oxygen species. To investigate how high temperature affects the antioxidant potential of broccoli seedlings (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.), in the winter of 2021/2022, within the scope of the TEMPHYS project (IP-2020-02-7585), we cultivated three biological replicas of broccoli seedlings at high temperature (38 °C day/33 °C night) and three biological replicas at regular temperature (23 °C day/18 °C night) as a control group. Extracts of lyophilized broccoli tissue were made in 70% ethanol, and antioxidant potential was measured using four methods: ABTS, DPPH, FRAP and β- carotene bleaching. The obtained values were compared to those of standard Trolox solution of the same concentration as our extracts (i.e. 30 mg/mL for all the methods, except for FRAP which was 15 mg/mL). Based on the results of ABTS, FRAP and β-carotene bleaching method, high temperature significantly increased antioxidant potential of broccoli seedlings. However, DPPH method indicated a reduction of antioxidant potential. All the methods were significantly positively correlated with each other, except the DPPH which was negatively correlated with other methods. Both, at high and regular temperature, statistical methods principal component analysis and hierarchical clustering revealed higher similarity between second and third biological replicas, and separation of first biological replica. However, all biological replicas grown at high temperature tended to cluster together and clearly separated from those at regular temperature. In conclusion, based on three out of four used methods, high temperature significantly increased antioxidant potential of broccoli seedlings, suggesting further research into the effect on plant metabolism.

Published
2022

33. Interspecies Transfer of Metabolites for Improvement of Plant Phytochemical Content and Biological Effects

Author

Šola, Ivana, Vujčić Bok, Valerija, Pinterić, Marija, Auer, Susann, Ludwig-Müller, Jutta, and Rusak, Gordana

Subjects
cytotoxicity, gastrointestinal bioavailability, hypoglycemic potential, interspecies transfer of metabolites, microgreens
Abstract

The high demand for healthy food in recent years led to an increasing need for highly bioactive plant materials. One simple method to improve the nutritional properties of plants could be the treatment of plants of known bioactive potential (acceptor) with extracts of different plant species (donors) that contain additional high bioactive compounds, so-called interspecies source-sink phytochemical transfer. The aim of the present study was to evaluate the effect of interspecies transfer of metabolites on plant phenolic and vitamin C profile to improve their gastrointestinal bioavailability, hypoglycemic potential, and antioxidant capacity as well as cytotoxicity. Additionally, it was tested whether there is an effect of phytochemical transfer on the expression of marker genes in phenolic biosynthetic pathways. Chinese cabbage (Brassica rapa ssp. pekinensis) sprouts were chosen as a model of plant acceptor, while the inflorescences of St. John`s-wort (Hypericum perforatum) and chamomile (Matricaria chamomilla), leaves of rose (Rosa sp.) and shoots of black bryony (Tamus communis) were used as plant donors. Even though the chamomile extract increased the highest number of individually identified compounds in Chinese cabbage sprouts, that was not crucial for the improvement of their bioactivity. Rather, black bryony application induced more biopotential parameters in the sprouts such as significantly improved bioavailability of vitamin C, kaempferol and total phenolics both before and during gastrointestinal digestion of sprouts, increased hypoglycemic activity of sprouts, and their antioxidant capacity during digestion. For an increased cytotoxicity against MCF cells, St. John`s-wort, rose and chamomille extracts could be applied to Chinese cabbage sprouts. The results suggest that interspecies phytochemical transfer could enhance the phytochemical profile and the bioactive properties of the acceptor plant.

Published
2022

34. Changes of antioxidative potential of broccoli and kale seedlings extracts during in vitro simulated human digestion

Author

Davosir, Dino, Šola, Ivana, and Caput Mihalić, Katarina et al.

Subjects
brassicaceous vegetables, functional food, gastrointestinal stability
Abstract

Seedlings of cruciferous plants are becoming more represented in human diet and are often labelled as functional food because of their richness in healthy antioxidative compounds. In this study, we analysed the antioxidative potential of extracts from two types of cruciferous seedlings, broccoli (Brassica oleracea var. italica) and kale (B. oleracea var. acephala). Ethanolic extracts were subjected to in vitro simulated human digestion, and the antioxidative capacity of the extracts before and after salivary, gastric and intestinal phase of digestion was assessed using ABTS, DPPH and FRAP assays. ABTS assay revealed the highest antioxidative potential of both broccoli and kale seedlings extracts in the intestinal phase, pointing to the high gastrointestinal stability of antioxidative compounds from broccoli and kale extracts. Each of the three assays revealed the higher antioxidative potential of kale extract before and after in vitro digestion in comparison to the antioxidative potential of broccoli extract, pointing to kale seedlings being a richer source of compounds with high antioxidative activity. The results support the use of cruciferous seedlings as a natural source of compounds with high gastrointestinal stability and high antioxidative potential, pointing to their potential healthy bioactive properties in vivo.

Published
2022

35. Effect of flavescence dorée phytoplasma infection on physiological parameters of grapevine (Vitis vinifera) var. ‘Pinot noir’

Author

Davosir, Dino, Šola, Ivana, Šeruga Musić, Martina, and Emek, Mustafa Latif

Subjects
hydrogen peroxide, lipid peroxidation, photosynthetic pigments, proline, ROS, sugars
Abstract

Phytoplasmas, bacteria of genus ‘Candidatus Phytoplasma’, infect both plants and insects, which act as their vectors. They are pathogens of various agriculturally important plants, causing severe damage to crop. Phytoplasmas have been identified as causative agents of grapevine yellows (GY) diseases, which affect viticultural production worldwide. Two phytoplasmas have been linked to GY, one of which is the flavescence dorée phytoplasma (FDp, ribosomal group 16SrV), a quarantine pathogen in many countries. However, due to the inability to establish in vitro phytoplasma culture, phytoplasma research is still challenging. In this study, we collected symptomatic and asymptomatic leaves of grapevine (Vitis vinifera L.) var. ‘Pinot noir’ from a vineyard in central continental Croatia at three time points during the development of infection. Using a multiplex real time PCR assay, we confirmed the infection with FDp in symptomatic leaves. To assess the physiological response of grapevine to FDp infection, we used a plethora of spectrophotometric assays. Effect of FDp infection on photosynthetic pigment content in grapevine and level of proline and soluble sugars was analysed. Furthermore, the content of hydrogen peroxide, a reactive oxygen species (ROS), was assessed in sampled leaves, as well as the level of lipid peroxidation, an indicator of membrane damage. Results revealed an induction of ROS synthesis as well as the higher level of lipid peroxidation in leaves of infected plants, pointing to the occurrence of oxidative stress in infected plants. Induction of proline and sugar synthesis was also observed in infected plants, pointing to the activation of grapevine defence mechanisms against FDp infection. However, the biggest differences in the content between infected and uninfected leaves were observed for photosynthetic pigments, which point to a strong inhibition of photosynthetic processes in grapevine infected with FDp. Results expand the knowledge of the effect of phytoplasma infection on grapevine leaves physiology, as well as grapevine protective mechanisms against phytoplasma infection.

Published
2022

36. Utjecaj hidrokinona iz ekstrakta Arctostaphylos uva-ursi na proteom stanica mokraćnog mjehura T24

Author

Huđek Turković, Ana, Gunjača, Marija, Marjanović, Marko, Lovrić, Marija, Butorac, Ana, Rašić, Dubravka, Peraica, Maja, Vujčić Bok, Valerija, Šola, Ivana, Rusak, Gordana, Durgo, Ksenija, Kos, Blaženka, Ivanković, Ante, Beljo Lučić, Ružica, Novak, Jasna, Rumbak, Ivana, and Balbino, Sandra

Subjects
Arctostaphylos uva-ursi ekstrakt, hidrokinon, stanice mokraćnog mjehura T24, toksični učinak, proteomski profil
Abstract

Arctostaphylos uva-ursi je tradicionalna biljka koja se koristi u terapeutske svrhe za liječenje akutnih urinarnih infekcija, a njezina antiseptička svojstva mogu se pripisati hidrokinonu koji nastaje hidrolizom arbutina. Cilj ove studije bio je odrediti toksikološki profil hidrokinona na stanicama mokraćnog mjehura (T24). Kvantitativna i kvalitativna analiza ekstrakta i digestivna stabilnosti te bioraspoloživosti arbutina i hidrokinona provedena je HPLC testom i simuliranom in vitro probavom. Citotoksični učinak, indukcija reaktivnih kisikovih vrsta (ROS) i promjene u proteomu utvrđeni su Neutral red i DCFH-DA testom te spektrometrijom masa. Tijekom in vitro probave, arbutin je bio stabilan, a koncentracija hidrokinona se povećala nakon želučane probave pepsinom (109, 6%), a zatim se smanjila nakon faze tankog crijeva (65, 4%). Preporučene doze napitka imale su citotoksični učinak kada su svi konjugati hidrokinona bili prevedeni u slobodni hidrokinon (320 i 900 μg/mL), a toksični učinak je bio pojačan 24-satnim oporavkom. Jedna šalica terapijske doze imala je prooksidativni učinak nakon 4 h inkubacije, a kraće vrijeme tretmana (2 h) nije imalo utjecaja na indukciju ROS-ova. Proteomska analiza otkrila je 17 statistički znatno više eksprimiranih proteina u odnosu na kontrolu povezanih s odgovorom na oksidativni stres, signalizaciju prilagođenog odgovora na stres, „heat-shock“ odgovorom i inicijacijom translacije. Dobiveni rezultati su dokaz da biljni spojevi, iako iz prirodnog izvora, mogu pokazati negativna svojstva.

Published
2022

37. Phytoplasma genotype-dependant effects on specialized metabolism of grapevine leaves

Author

Davosir, Dino, Šola, Ivana, Ivančan, Goran, and Šeruga Musić, Martina

Subjects
phytoplasma, specialized metabolism, phenolics, flavescence dorée
Abstract

Phytoplasmas (genus Candidatus Phytoplasma) are a diverse group of bacterial intracellular pathogens causing significant damage in agriculture worldwide. However, due to inability of obtaining a pure phytoplasma culture in vitro, they remain insufficiently investigated. With the aim of studying the interactions between plants and phytoplasmas, grapevine (Vitis vinifera ; Vv) and flavescence dorée phytoplasma (FDp ; ribosomal group 16SrV), one of the main causative agents of grapevine yellows disease and a quarantine pathogen in Europe, were chosen as a model pathosystem. Leaves of symptomatic and asymptomatic plants from Continental Central Croatia were sampled three times during the development of symptoms. Using triplex real-time PCR assay, infection of Vv by FDp was confirmed in symptomatic plants. To assess the genetic structure of phytoplasmas, map gene was amplified and sequence d followed by phylogenetic analysis. In order to investigate changes in concentration of specialized metabolites between infected and uninfected Vv leaves, high performance liquid chromatography and spectrophotometric assays were used. Two different mapFD-genotypes (M38 and M54) were identified among analysed samples. Metabolomic analyses revealed a high dynamics of specialized metabolite concentrations (metabolite groups and individual compounds) during the development of infection. Furthermore, results point to a phytoplasma genotype-dependant effect on specialized metabolism of infected Vv leaves, as suggested by different patterns of change in phenolics concentration in investigated time points between plants infected with two different phytoplasma genotypes. The results contribute to the understanding of grapevine response to infection with different FDp genotypes and reveal potential protective mechanisms of Vv against phytoplasma infection.

Published
2022

38. Phenolic fingerprinting of broccoli, cauliflower and kale microgreens

Author

Davosir, Dino, Šola, Ivana, and Erkmen, Osman

Subjects
antioxidants, Brassicaceae, flavonoids, phenolic acids, polyphenols, RP-HPLC
Abstract

Mature Brassicaceae plants are established as a great source of antioxidants, particularly phenolic compounds. Their seedlings, nowadays often branded as microgreens, also emerged as a rich source of healthy phytochemicals. However, results and comparisons of phenolic profiles of different Brassicaceae varieties are scarce. Therefore, in this study, ethanolic extracts of broccoli (Brassica oleracea var. italica), cauliflower (B. oleracea var. botrytis) and kale (B. oleracea var. acephala) were subjected to the chromatographic analysis using reversed-phase high-performance liquid chromatography (RP-HPLC). Using targeted metabolomics approach, we identified and quantified five phenolic acids (p- coumaric, ferulic, caffeic, sinapic and gallic acid) and two flavonoids (quercetin and kaempferol). In broccoli seedlings, highest levels of caffeic and gallic acid were recorded, as well as the highest quercetin content among the tested extracts. Cauliflower seedlings had the highest levels of kaempferol, ferulic and p-coumaric acid. Kale seedlings had the highest content of sinapic acid and quercetin. Results established that the phenolic profiles of different Brassica microgreens largely vary among cultivars. Each of the identified compounds were present in high concentrations in the extracts, confirming the cruciferous microgreens as a rich source of phenolic compounds. High content of flavonoids and phenolic acids contribute to the antioxidative potential of Brassica microgreens, establishing them as a healthy functional food which should be included in the human diet on a wider scale. Further studies should evaluate the health benefits of the Brassica microgreens in more detail.

Published
2022

39. How High Temperature Affects Vegetable Bioactive Compounds and Nutritional Value: Example of Broccoli

Author

Šola, Ivana

Subjects
climate change, global warming, food safety, microgreens, phytochemicals
Abstract

The world community is making great efforts to understand the current and potential impacts of global warming on plants and animals. Not only because of the negative effects on crop production and therefore on food supply, but also because of changes in the nutritional value of vegetables that occur as a result of the temperature increase. Plants challenged with high temperature undergo many adaptive mechanisms at molecular levels to keep normal physiology function. They can adapt to different temperatures by changing their transcriptome, proteome and metabolome, or even by activating cell death mechanisms. Such adaptability is due to their intensive shifts in biochemical pathways, which, as a consequence, can significantly change their bioactivity as well. Changes like these could have significant outcome on the plant nutritional value and present serious challenges for global food security. Because of that the objective of our work is to investigate the consequences of environmental increased temperature on vegetable nutritional value. We are trying to assign correlations between temperature shift and plant biochemical traits employing targeted specific metabolomics approach, statistical data analyses and modelling in order to construct a model showing a tentative pattern of environment temperature effect on plant bioactive compounds. As a model plant organism we use broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. Var. cymosa Duch.) in different stage of development.

Published
2022

40. Vodeni ekstrakti klijanaca brokule mijenjaju stupanj glikacije proteina i aktivnost enzima α-lipaze: utjecaj visoke temperature uzgoja

Author

Šola, Ivana, Gulin, Silvija, Vujčić Bok, Valerija, Pavoković, Dubravko, Rusak, Gordana, Caput Mihalić, Katarina, Mičetić Stanković, Vlatka, Urlić, Inga, Mešić Petar, Armin, and Kružić, Petar

Subjects
antiglikacijski potencijal, funkcionalna hrana, globalno zatopljenje, klijanci kupusnjača, pretilost
Abstract

Biljke se visokoj temperaturi (VT) prilagođavaju promjenom transkriptoma, proteoma i metaboloma. Takva prilagodljivost posljedica je njihovih intenzivnih promjena u biokemijskim putevima, što može značajno promijeniti i njihove biološke učinke. U ovom radu istražili smo učinak VT na antiglikacijski potencijal vodenog ekstrakta klijanaca brokule (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.), te njihovu mogućnost inhibicije α-lipaze, enzima potrebnog za hidrolizu prehrambenih lipida. Potencijal antiglikacije procijenjen je postotkom inhibicije stvaranja krajnjih produkata glikacije (AGEs, advanced glycation end products), a potencijal hidrolize prehrambenih lipida putem postotka inhibicije α-lipaze. Klijanci su uzgajani u klima komori s temperaturnim rasponom 23°C/16h, 18°C/8h - kontrolnu skupina i 38°C/16h, 33°C/8h - VT ). Ekstrakti su pripremljeni iz liofiliziranog biljnog materijala u kipućoj (100°C) vodi nakon čega je slijedila inkubacija na rotacijskom ekstraktoru 1 sat/23°C. Rezultati su pokazali da su vodeni ekstrakti HT-klijanaca brokule učinkovitiji u inhibiciji stvaranja AGEs od kontrolne skupine. Tijekom in vitro simulirane ljudske probave, potencijal inhibicije je povećan, ali je razlika između HT- i kontrolne skupine smanjena. S druge strane, aktivnost α-lipaze nije se značajno razlikovala (p≤0, 05) između HT- i kontrole, a potencijal inhibicije tijekom probave se smanjio. Dodatna identifikacija proteina, čija se količina promjenila, je trenutno u procesu. Ovi rezultati pokazuju da HT značajno mijenja biopotencijal biljaka.

Published
2022

41. Effect of proteins, carbohydrates and oils on phytochemical bioavailability and bioactivities of ginkgo leaf extract

Author

Vujčić Bok, Valerija, Nikša, Ema, Šola, Ivana, Rusak, Gordana, Vuković, N., and Šegota, V.

Subjects
antidiabetic activity, antioxidant activity, bioactive compounds, Ginkgo biloba L., weight loss
Abstract

The main goal of our study was to evaluate the effect of proteins (40 g/L casein), carbohydrates (25 g/L glucose) and oils (5% olive oil) on phytochemical bioavailability, antioxidant, antidiabetic and weight loss activity of gingko leaves standardized extracts after in vitro gastrointestinal digestion. Spectrophotometric methods were used to determine the concentration of total phytochemicals (TP: total phenols, TF: total flavonoids, TPA: total phenolic acids, TFLA: total flavanols, TFLO: total flavonols, TPAN: total proanthocyanidins and TTL: total triterpene lactones), antioxidant (DPPH and FRAP), antidiabetic (inhibition of α-glucosidase and BSA glycation) and weight loss (inhibition of lipase) activity. Ginkgo olive oil formulation had the highest TFLO, TFLA, TPAN and TTL bioavailability after in vitro gastrointestinal digestion. The highest TF and TPA bioavailability had gingko casein formulation. In the gingko water formulations, the highest TP bioavailability was detected. All gingko formulations had high (>70%) antioxidant activity (DPPH and FRAP), high (>70%) enzyme (α-glucosidase and lipase) inhibitory activity and high (>70%) inhibition of BSA glycation after in vitro digestion. According to our results, ginkgo formulation with olive oil has proved to be the formulation with the highest bioavailability of polyphenolic groups and terpene lactones after in vitro gastrointestinal digestion.

Published
2022

42. Utjecaj visoke temperature na udio pigmenata u klijancima brokule (Brassica oleracea botrytis var. cymosa)

Author

Gmižić, Daria, Šola, Ivana, Ozimec, Siniša, Bogut, Irella, Bašić, Ivo, Rožac, Vlatko, Stević, Filip, and Popović, Željko

Subjects
fitokemijski sastav, globalno zagrijavanje, klimatske promjene, kupusnjače
Abstract

Porastom globalne temperature utjecaj na biljke je neizbježan, budući da su one sesilni organizmi, ali nema puno podataka o utjecaju visoke temperature na njihov fitokemijski sastav. Cilj ovog istraživanja bio je istražiti utječe li visoka temperatura i, ako da, u kojem smjeru na udio pigmenata u klijancima brokule. Također, željeli smo utvrditi udio kojih pigmenata klijanaca brokule je podložniji promjeni prilikom uzgoja na visokoj temperaturi. Kako bismo to istražili, uzgojili smo tri biološke replike klijanaca brokule na visokoj temperaturi (38 °C dan/33 °C noć) i tri biološke replike na regularnoj temperaturi (23 °C dan/18 °C noć) kao kontrolnu skupinu. Nakon toga smo liofilizirali tkiva i proveli spektrofotometrijsku analizu udjela klorofila a i b, karotenoida i porfirina. Prema rezultatima, visoka temperatura značajno je smanjila udio svakog od navedenih parametara, osim ukupnih karotenoida koji su se značajno povećali. Najpodložniji pigmenti promjeni udjela bili su ukupni karotenoidi, zatim porfirini i klorofil b, dok je klorofil a bio najstabilniji od analiziranih pigmenata. Zaključno, visoka temperatura značajno je utjecala na sve analizirane pigmente, što sugerira potrebu za istraživanjem utjecaja i na druge fitokemikalije.

Published
2022

43. Evaluation of antioxidative potential of broccoli, cauliflower and kale seedlings

Author

Davosir, Dino, Šola, Ivana, and Ozimec, Siniša et al.

Subjects
ABTS, Brassica, DPPH, FRAP, microgreens, phenolics
Abstract

Cruciferous plants (family Brassicaceae) are known as a great source of healthy phytochemicals. In recent years, focus shifted from mature plants to seedlings of cruciferous plants. They emerged as a rich source of phenolic compounds and glucosinolates. However, detailed analysis of their bioactivity is still lacking. Considering a rise in prevalence of chronic illnesses due to modern lifestyle, plant foods are considered as food supplements because of the richness in healthy compounds. Of particular interest are phytochemicals with high antioxidative capacity. In this study, antioxidative potential of broccoli (Brassica oleracea var. italica), cauliflower (B. oleracea var. botrytis) and kale (B. oleracea var. acephala) seedlings extracts was assessed by ABTS, DPPH and FRAP assays. Results of the FRAP assay revealed that kale seedlings extract had the highest antioxidative capacity of all three extracts, with no difference between broccoli and cauliflower extracts. ABTS assay revealed that kale and cauliflower seedlings extract had higher antioxidative capacity than broccoli seedlings extract. DPPH assay did not show statistically significant difference in antioxidative capacity of three assayed extracts. Considering that two assays revealed that kale extract had the highest antioxidative capacity, this extract should be further evaluated for its bioactivity. Nevertheless, all three Brassica seedlings extracts showed high antioxidative capacity in vitro. Therefore, their intake as food supplements with high antioxidative potential is highly recommended. Further studies should aim to identify compounds from seedlings extract that contribute to antioxidative capacity of extracts the most, and evaluate their antioxidative properties in vivo.

Published
2022

44. Degradation dynamics of photosynthetic pigments in flavescence dorée-infected grapevine (Vitis vinifera) leaves is linked to phytoplasma titre

Author

Davosir, Dino, Šola, Ivana, Šeruga Musić, Martina, YABALAK, Erdal, and ÖZBİLEN, Tolga

Subjects
chlorosis, FDp, photosynthesis, phytoplasmas, plant-pathogen interactions
Abstract

Phytoplasmas, bacteria belonging to the genus ‘Candidatus Phytoplasma’, are known to be pathogenic for a wide variety of plant species. One of highly impacted plant cultures by phytoplasmas is grapevine (Vitis vinifera L.). Grapevine yellows are serious diseases affecting viticultural production worldwide. One of them is caused by the flavescence dorée phytoplasma (ribosomal group 16SrV), which is spread by the vector, leafhopper Scaphoideus titanus. Phytoplasmas are known to secrete effector molecules, which affect the physiology of their hosts, in order to increase their replication and spread. It is known that the flavescence dorée phytoplasma heavily affects photosynthetic pigments of grapevine, causing severe chlorosis in infected leaves. In this study, we sampled the leaves of symptomatic and asymptomatic plants to evaluate the dynamics of photosynthetic pigment content during the development of infection. Using real-time PCR, we confirmed the infection with the flavescence dorée phytoplasma in symptomatic plants and quantitatively determined the phytoplasma titre. Additionally, by amplification, sequencing and phylogenetic analysis of map gene amplicons, we detected two flavescence dorée genotypes in sampled grapevine leaves, M38 and M54, both belonging to the mapFD2 cluster. Spectrophotometrically, we analysed the effect of the flavescence dorée phytoplasma infection on photosynthetic pigment content in grapevine and its dynamics during the development of infection and whether it is impacted by phytoplasma genotype. Results revealed that M38 impacted photosynthetic pigments more severely than M54 genotype. Interestingly, M38 was present in lower count in grapevine leaves than the M54. However, for both genotypes, it was revealed that the highest reduction in photosynthetic pigments was at the second time point, which was also when the phytoplasma titre was the highest. This potentially links the phytoplasma titre with severity of chlorosis symptoms due to the degradation of photosynthetic pigments. These results contribute to resolving the mechanisms of flavescence dorée phytoplasma pathogenicity on the level of photosynthetic pigments and provide details for the search of potential flavescence dorée phytoplasma effectors which target photosynthetic pigments.

Published
2022

45. Microscopic insight into the intriguing world of broccoli

Author

Šola, Ivana, Poljuha, Danijela, Macan, Jelena, and Kovačević, Goran

Subjects
broccoli, morphology, light microscopy, food and beverages
Abstract

Brassicaceae family counts around 350 genera and 3500 species [1], including crops of great economic importance, such as Brassica oleracea and B. rapa, which represent a significant part of human and animal diet [2]. The vegetables from this family have diverse morphological forms, such as leaves that form a head of cabbage, non- heading kale, collard greens and Chinese kale, an enlarged stem of kohlrabi, axillary buds of brussels sprouts, immature inflorescences of cauliflower and broccoli. Broccoli (Brassica oleracea botrytis var. cymosa) has a characteristic miniature tree-like appearance with a lot of elongated lateral shoots starting at the maturation of the terminal inflorescence [3]. What about the broccoli organism from the inside? Using a light microscope, we captured the structure of its tissues, cells, cell walls, tubes, vessels and pits. It is just as attractive and picturesque on the inside as it is on the outside.

Published
2022

46. Influence of temperature stress on the mass share of chlorophyll, lycopene, carotenoids and porphyrins in broccoli

Author

Kokić, Emilie, Zekirovski, Jana, Davosir, Dino, Šola, Ivana, and Baebler, Špela et al.

Subjects
n/a
Abstract

Climate change is a global problem that has changed both the physiological and biochemical parameters of plants. Considering that plants are sessile organisms, their survival depends on the effective activation of metabolic mechanisms of resistance to such stress. As part of this study, we investigated the impact of low and high temperature water on the content of chlorophyll, lycopene, carotenoids and porphyrins in broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.). For all pigments, except chlorophyll a, a statistically significant difference was observed between the group treated with water of high temperature and the remaining two groups (control and group treated with water of low temperature). In the group treated with water of high temperature, the highest proportion of chlorophyll b (5.35 ± 0.34 mg/g of dry weight (sm)), lycopene (0.28 ± 0.016 mg/g sm), and porphyrins (28.27 ± 1.09 mg/g sm) was recorded. The proportion of carotenoids, on the other hand, was the lowest in this group (0.40 ± 0.19 mg/g sm). Based on this, we conclude that chlorophyll b, lycopene, porphyrins and carotenoids of broccoli are significantly more sensitive to high temperature water stress than to low temperature water.

Published
2022

47. What happens with antioxidant potential of young broccoli under temperature stress?

Author

Zekirovski, Jana, Kokić, Emilie, Davosir, Dino, Šola, Ivana, and Baebler, Špela et al.

Subjects
n/a
Abstract

Due to climate change, sudden and intense changes in weather conditions are becoming more frequent. Sessile organisms such as plants cannot "escape" from high or low temperatures but adapt their metabolism to new conditions to survive. Oxidative stress is a common response of plants exposed to extreme temperatures. During temperature stress, the production of a large amount of ROS can be a major risk factor for plant cells and therefore stimulates the synthesis of antioxidants in them. As part of this paper, we investigated the impact of cold (ice) and hot water (80°C) on the antioxidant potential of broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.) in the developmental stage with 6-8 leaves. We used three methods of analysis, ABTS, FRAP and DPPH. The results showed that none of the treatments significantly changed the antioxidant potential measured by ABTS and FRAP method, however, both caused a decrease in potential as measured by the DPPH method. In particular, the control group accounted for 4.71 ± 0.40 % of radical inhibition compared to Trolox, the group treated with cold water for 4.13 ± 0.51 %, and the group treated with hot water for 3.69 ± 0.46 %. Such a difference in results between different methods is a consequence of different types of antioxidants present in samples that react differently with the radicals used. Based on these results, we conclude that using cold or hot water, we cannot improve the antioxidant potential of broccoli ; moreover, according to the DPPH method, this potential was reduced.

Published
2022

48. Razvojno-specifične promjene koncentracije fenolnih spojeva i vitamina C, te antioksidacijskog potencijala klijanaca pekinškog kupusa

Author

Šola, Ivana, Dujmović, Mia, Vujčić Bok, Valerija, Rusak, Gordana, Caput Mihalić, Katarina, Mičetić Stanković, Vlatka, Urlić, Inga, Mešić Petar, Armin, and Kružić, Petar

Subjects
fenolne kiseline, flavonoidi, klijanci kupusnjača, L-askorbinska kiselina, nutritivni potencijal
Abstract

Konzumacija svježih klijanaca kupusnjača značajno je porasla posljednjih godina, stoga je njihova nutritivna karakterizacija nužna. U ovom radu spektrofotometrijski je izmjeren udio ukupnih fenola, flavonola i hidroksicimetnih kiselina, te su novorazvijenom metodom tekućinske kromatografije visoke razlučivosti analizirani pojedinačni flavonoidi, fenolne kiseline i vitamin C. Određen je i antioksidacijski potencijal pet razvojnih stadija kineskog kupusa. Razvojni stadiji sadržavali su: 1) samo kotiledone (klijanci), 2) kotiledone i dva lista, 3) četiri lista, 4) šest listova ili 5) deset listova. Analiza glavnih komponenata (PCA) i hijerarhijsko grupiranje (HC) korišteni su za vizualizaciju trenda klasifikacije između faza. Klijanci su sadržavali više sinapinske kiseline i vitamina C od starijih biljaka. Biljke koje su sadržavale šest ili deset listova imale su više ferulične kiseline i izoramnetina od onih u ranijim fazama razvoja. Ukupni fenoli, flavonoli, hidroksicimetne kiseline, kvercetin i antioksidacijski potencijal nisu se statistički razlikovali između klijanaca i stadija sa šest ili deset listova, te su njihove koncentracije bile značajno veće nego u stadijima s dva ili četiri lista. PCA i HC potvrdili su veću fitokemijsku sličnost između klijanaca i biljaka sa šest ili deset listova, nego biljaka s dva ili četiri lista. Na temelju navedenih parametara, klijanci kineskog kupusa i biljke sa šest ili deset listova bile bi bolji odabir od biljaka s dva ili četiri lista.

Published
2022

49. Intestinal bioavailability of total glucosinolates and phenolics from broccoli sprouts: Impact of high growing temperature

Author

Gulin, Silvija, Vujčić Bok, Valerija, Rukak, Gordana, and Šola, Ivana

Subjects
Brassicaceae, fenolni spojevi, glukozinolati, visoka temperatura
Abstract

The goal of our study was to evaluate the effect of high (HT: 38°C day/33°C night) and regular (RT: 23°C day/18°C night) growing temperature on the bioavailability of total glucosinolates and phenolics from broccoli (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch) sprouts upon final, intestinal, phase of in vitro simulated human digestion. The extracts were prepared from freeze-dried plant material using boiling (100°C) water followed by incubation on rotary extractor for 1 hour at 23°C. The results showed that HT negatively affected the intestinal bioavailability of total glucosinolates from broccoli sprouts, i.e. their concentration was decreased to 47 % of the initial concentration (non-digested extract). On the other hand, RT did not change the bioavailability of total glucosinolates significantly (p≤0.05). Total phenolics bioavailability was not affected neither by HT, nor by RT condition ; in both cases it was very high (>90 %). These results show that glucosinolates of broccoli sprouts are significantly more susceptible to HT than total phenolics, and suggests future more detailed analyses of Brassicaceae microgreens phytochemical temperature susceptibility/resistance.

Published
2022

50. Visoka temperatura mijenja koncentraciju ukupnih fenolnih spojeva, glukozinolata, šeera i proteina u klijancima brokule (Brassica oleracea botrytis var. cymosa)

Author

Gmižić, Daria, Šola, Ivana, Caput Mihalić, K., Mičetić Stanković, V., Urlić, I., Mešić, A., and Kružić P.

Subjects
fitokemikalije, globalno zatopljenje, klimatske promjene, kupusnjače
Abstract

Uz trenutne klimatske promjene, biljke su izložene rastućim temperaturama koje utječu na njihov fitokemijski sastav. U sklopu ovog rada cilj je bio istražiti učinak visoke temperature na koncentraciju ukupnih fenolnih spojeva, proteina, glukozinolata i topivih šećera u klijancima brokule (Brassica oleracea L. convar. botrytis (L.) Alef. var. cymosa Duch.), te navedene fitokemikalije sortirati prema stupnju njihove stabilnosti/osjetljivosti spram visoke temperature. U tu svrhu, u zimskim mjesecima 2021./2022. g. uzgojili smo šest bioloških replika klijanaca brokule pri visokoj temperaturi (38 °C dan/33 °C noć) i, kao kontrolu, šest bioloških replika pri regularnoj temperaturi (23 °C dan/18 °C noć). Ekstrakti liofiliziranog tkiva brokule pripremljeni su u različitim otapalima i provedene su spektrofotometrijske analize spomenutih grupa fitokemikalija. Visoka temperatura značajno je povećala koncentraciju ukupnih fenolnih spojeva i topivih šećera u klijancima brokule, ali smanjila koncentraciju ukupnih proteina i glukozinolata. Među testiranim spojevima klijanaca, najosjetljiviji na visoku temperaturu bili su topivi šećeri čija se koncentracija gotovo udvostručila, a najstabilniji ukupni proteini. Zaključno, visoka temperatura specifično je utjecala na različite skupine fitokemikalija u klijancima brokule, što sugerira potrebu daljnjih detaljnijih istraživanja.

Published
2022

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