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In vitro antioxidant,anti-diabetic,cholinesterase and tyrosinase inhibitory potential of fresh juice from Citrus hystrix and C.maxima fruits 被引量:8
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作者 Arumugam Abirami Gunasekaran Nagarani Perumal Siddhuraju 《Food Science and Human Wellness》 SCIE 2014年第1期16-25,共10页
In the present study,antioxidant potential,α-amylase,α-glucosidase,cholinesterase and tyrosinase inhibitory activity of fresh juice from indigenous fruits of Citrus hystrix and C.maxima(Red&White var.)were inves... In the present study,antioxidant potential,α-amylase,α-glucosidase,cholinesterase and tyrosinase inhibitory activity of fresh juice from indigenous fruits of Citrus hystrix and C.maxima(Red&White var.)were investigated using an in vitro model.The contents of total phenolics,tannins,and total flavonoids ranged between 836.90 and 909.52 mg gallic acid equivalent(GAE)/L,333.33 and 523.21 mg gallic acid equivalent(GAE)/L and 224.88 and 262.22 mg rutin equivalent/L,respectively.The antioxidant activity of fresh juice was evaluated by employing different in vitro assays such as reducing power assay,DPPH•,ABTS•+and•OH radical scavenging capacities,peroxidation inhibition activity,antihemolytic assay.In addition,75.55%–79.75%ofα-amylase and 70.68%–72.83%ofα-glucosidase enzyme inhibition characteristics were found under in vitro starch digestion bioassay.Also,all the juice samples exhibited excellent tyrosinase(76.95%–80.79%),acetylcholinesterase(75.71%–79.74%)andβ-glucuronidase inhibitory activity(68.13%–69.38%).These results indicated that fresh juice of C.hystrix and C.maxima(Red&White var.)could be used as a source of antioxidant agents,functional food and nutraceuticals.©2014 Beijing Academy of Food Sciences.Production and hosting by Elsevier B.V.All rights reserved. 展开更多
关键词 citrus fruits Fresh juice Antioxidant potential Enzymatic inhibitory activity NUTRACEUTICALS
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Effects of maturity of citrus fruits on their stalks cutting force 被引量:1
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作者 Yi Wang Dun Liu +3 位作者 Yali Li Hongmei Zhao Changhui Yang Yitan Zhang 《International Journal of Agricultural and Biological Engineering》 SCIE CAS 2022年第6期23-30,共8页
When the citrus harvesting robot harvests citruses,the mechanical properties of citrus stalks have an important influence on the success rate of the citrus harvesting robot.During the harvesting,the maturity of citrus... When the citrus harvesting robot harvests citruses,the mechanical properties of citrus stalks have an important influence on the success rate of the citrus harvesting robot.During the harvesting,the maturity of citrus fruits not only determined the harvesting time of citrus fruits but also affected the mechanical properties of citrus fruit stalks.In this study,the changes in the cutting force of citrus fruit stalks were described during the maturity of citrus fruits,and the effect of the maturity on the cutting force of stalks was clarified,so as to determine the harvesting time with the minimum cutting force required for harvesting citrus fruits by the harvesting robot.During the maturity,the relevant parameters of fruit maturity,such as the hardness,pH,and solid solution content of citrus fruits,were monitored.The results showed that there is a significant correlation between the hardness,pH,the solid solution content of citrus fruits,and the cutting force of citrus fruit stalks during maturity.The single-factor mechanical model of hardness,pH,solid solution content of citrus fruits,and the cutting force of citrus fruit stalks were established based on the data of 2019,which were verified through tests in 2020.The test results are as follows:during the ripening period of citrus fruits,the fruit hardness varies in the range of 0.13-0.31 MPa,the hardness changes by 0.02 MPa,and the cutting force changes by about 2.0-6.0 N;the pH of the citrus fruits changes in the range of 2.8-4.0,and the cutting force changes by about 1.5-2.2 N for every 0.1 change in the pH;the variation range of fruit solid solution content is 6.5%-9.0%,and for every 0.2%change in solid solution,the cutting force of citrus fruit stalks changes by about 1.25-2.0 N.The mechanical models can predict the cutting force required to cut off citrus fruit stalks according to the relevant parameters of citrus fruit maturity and can provide a reference for effectively evaluating the required cutting force. 展开更多
关键词 citrus fruit harvesting cutting force of citrus fruit stalks citrus fruit maturity mechanical regression model
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Effects of edible whole citrus fruits on endogenous antioxidant enzymes of HepG2 cells 被引量:1
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作者 Yujing Sun Miaomiao Liu +2 位作者 Wenyang Tao Xingqian Ye Peilong Sun 《Food Quality and Safety》 SCIE CSCD 2022年第2期310-317,共8页
The effects of eating fresh citrus fruits including two varieties of mandarins,one of sweet oranges,one of grapefruit,two of pomelo,and one of kumquat cultivated in China on endogenous antioxidant enzymes were investi... The effects of eating fresh citrus fruits including two varieties of mandarins,one of sweet oranges,one of grapefruit,two of pomelo,and one of kumquat cultivated in China on endogenous antioxidant enzymes were investigated by in vitro digestion and HepG2 cells.The correlations between enzyme activity and cell uptake of phytochemicals and cellular antioxidant capacities were analyzed.The results showed that most fresh citrus fruits increased the endogenous antioxidant activity.Bairoumiyou,Hongroumiyou,Ponkan,and Jinju after digestion significantly increased the activity of catalase(P<0.05).Hongroumiyou,Bairoumiyou,Ponkan navel orange,and Jinju after digestion significantly increased glutathione peroxidases(GPxs)activity(P<0.05),while Huyou and satsuma could not increase the activity of GPxs after digestion.Thioredoxin oxidoreductase activity was improved significantly by most of the digested whole citrus fruits except Ponkan(P<0.05)and thioredoxin oxidoreductase added whole citrus fruits had a higher increase than added citrus fruits extracts.The results indicated that edible whole citrus fruits had similar effects as extracts on enzymes. 展开更多
关键词 citrus fruit endogenous antioxidant enzymes in vitro digestion POLYPHENOLS carotenoids
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Impact of citrus fruit and hesperidin intake on multiple health outcomes:An umbrella review
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作者 Yu-Sen Cheng Yong Zhou 《Journal of Nutritional Oncology》 2023年第1期16-24,共9页
Citrus fruits are rich sources of several biologically active flavonoids such as hesperidin,naringin,and polymethoxylated flavones.We evaluated the evidence of associations between citrus fruit or hesperidin intake an... Citrus fruits are rich sources of several biologically active flavonoids such as hesperidin,naringin,and polymethoxylated flavones.We evaluated the evidence of associations between citrus fruit or hesperidin intake and multiple health outcomes.An umbrella review was conducted for studies performed in humans.Overall,246 articles were initially identified by searching in 4 databases.Twenty-two meta-analyses and systematic reviews with 28 health outcomes met the inclusion criteria.Citrus fruit intake had beneficial effects on all-cause mortality(relative risk[RR].0.90;95%confidence interval[95%CI],0.86 to 0.94),cardiovascular diseases(RR,0.78;95%CI,0.66 to 0.92),coronary heart disease(RR,0.91;95%CI,0.86 to 0.96),stroke(RR,0.74;95%CI,0.65 to 0.84),type 2 diabetes mellitus(RR,0.85;95%CI,0.78 to 0.92),and several cancers.Dose-response analyses indicated that each 100-g/d increase in citrus fruit intake could reduce the risks of all-cause mortality by 6%(RR,0.94;95%CI,0.88 to 1.00),stroke by 22%(RR,0.78;95%CI,0.69 to 0.90),and cardia gastric cancer by 40%(RR,0.60;95%CI,0.44 to 0.83).Citrus fruit intake also had beneficial effects on the lipid profile and body weight control(weighted mean difference,−1.28;95%CI,−1.82 to−0.74).Grapefruits could reduce the systolic blood pressure(weighted mean difference,−2.43,95%CI,−4.77 to−0.09).Hesperidin supplementation significantly improved inflammation.Citrus fruit intake was generally safe and beneficial for multiple health outcomes in humans.However,grapefruit and pomelo juice may affect the bioavailability of various medications,so care should be exercised before increasing the intake of these fruits or their juices. 展开更多
关键词 citrus fruit HESPERIDIN HEALTH Umbrella review META-ANALYSIS Systematic review
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Role of pomegranate and citrus fruit juices in colon cancer prevention 被引量:6
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作者 Saravana Kumar Jaganathan Muthu Vignesh Vellayappan +1 位作者 Gayathri Narasimhan Eko Supriyanto 《World Journal of Gastroenterology》 SCIE CAS 2014年第16期4618-4625,共8页
Colorectal cancer is the second leading cause of cancer-related deaths in the United States.Recent studies prove that though chemotherapeutic agents are being used for the treatment of colon cancer,they become non-eff... Colorectal cancer is the second leading cause of cancer-related deaths in the United States.Recent studies prove that though chemotherapeutic agents are being used for the treatment of colon cancer,they become non-effective when the cancer progresses to an invasive stage.Since consumption of certain dietary agents has been linked with various cancers,fruit juices have been investigated for their consistently protective effect against colon cancer.The unique biochemical composition of fruit juices is responsible for their anticancer properties.In this review,the chemo-preventive effect of fruit juices such as pomegranate and citrus juices against colon cancer are discussed.For this purpose,the bioavailability,in vitro and in vivo effects of these fruit juices on colorectal cancer are highlighted.Moreover,there is a scarcity of studies involving human trials to estimate the preventive nature of these juices against colon cancer.This review will support the need for more preclinical tests with these crude juices and their constituents in different colorectal cancer cell lines and also some epidemiological studies in order to have a better understanding and promote pomegranate and citrus juices as crusaders against colon cancer. 展开更多
关键词 Colon cancer Fruit juices POMEGRANATE citrus fruits CHEMOPREVENTION
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Two Lycopene β-Cyclases Genes from Sweet Orange (Citrus sinensis L. Osbeck) Encode Enzymes With Different Functional Efficiency During the Conversion of Lycopene-to-Provitamin A 被引量:9
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作者 ZHANG Jian-cheng ZHOU Wen-jing +5 位作者 XU Qiang TAO Neng-guo YE Jun-li GUO Fei XU Juan DENG Xiu-xin 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2013年第10期1731-1747,共17页
Citrus fruits are rich in carotenoids.In the carotenoid biosynthetic pathway,lycopene β-cyclase(LCYb,EC:1.14.-.-) is a key regulatory enzyme in the catalysis of lycopene to β-carotene,an important dietary precurs... Citrus fruits are rich in carotenoids.In the carotenoid biosynthetic pathway,lycopene β-cyclase(LCYb,EC:1.14.-.-) is a key regulatory enzyme in the catalysis of lycopene to β-carotene,an important dietary precursor of vitamin A for human nutrition.Two closely related lycopene β-cyclase cDNAs,designated CsLCYb1 and CsLCYb2,were isolated from the pulp of orange fruits(Citrus sinensis).The expression level of CsLCYb genes is lower in the flavedo and juice sacs of a lycopeneaccumulating genotype Cara Cara than that in common genotype Washington,and this might be correlated with lycopene accumulation in Cara Cara fruit.The CsLCYb1 efficiently converted lycopene into the bicyclic β-carotene in an Escherichia coli expression system,but the CsLCYb2 exhibited a lower enzyme activity and converted lycopene into the β-carotene and the monocyclic γ-carotene.In tomato transformation studies,expression of CsLCYb1 under the control of the cauliflower mosaic virus(CaMV) 35S constitutive promoter resulted in a virtually complete conversion of lycopene into β-carotene,and the ripe fruits displayed a bright orange colour.However,the CsLCYb2 transgenic tomato plants did not show an altered fruit colour during development and maturation.In fruits of the CsLCYb1 transgenic plants,most of the lycopene was converted into β-carotene with provitamin A levels reaching about 700 μg g-1DW.Unexpectedly,most transgenic tomatoes showed a reduction in total carotenoid accumulation,and this is consistent with the decrease in expression of endogenous carotenogenic genes in transgenic fruits.Collectively,these results suggested that the cloned CsLCYb1 and CsLCYb2 genes encoded two functional lycopene β-cyclases with different catalytic efficiency,and they may have potential for metabolite engineering toward altering pigmentation and enhancing nutritional value of food crops. 展开更多
关键词 carotenoids biosynthesis citrus fruit gene expression lycopene lycopene β-cyclase β-Carotene transgenic tomato fruit
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Molecular Phylogeny of the “True Citrus Fruit Trees” Group (Aurantioideae, Rutaceae) as Inferred from Chloroplast DNA Sequence
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作者 LU Zhen-hua ZHOU Zhi-qin XIE Rang-jin 《Agricultural Sciences in China》 CAS CSCD 2011年第1期49-57,共9页
The genus Citrus L. has a long controversial taxonomy history, and a well-resolved molecular phylogeny of the "true citrus fruit trees" group in the future will provide new information for advancing breeding techniq... The genus Citrus L. has a long controversial taxonomy history, and a well-resolved molecular phylogeny of the "true citrus fruit trees" group in the future will provide new information for advancing breeding techniques and developing better conservation strategies. In the present study, three cpDNA fragments (TrnL-TrnF, PsbH-PetB, and TrnS-TrnG) of 30 genotypes chosen from the six genera of the "true citrus fruit trees" group were analyzed. A molecular phylogenetic tree of the "true citrus fruit trees" group "~as reconstructed based on plastid DNA sequences. The results confirmed that the "true citrus fruit trees" group was monophyletic, and thereby the group was divided into genera as previously suggested based on morphological characters. The cpDNA data also suggested that Poncirus might be the first genus separated from the other five genera in the group. The genus Fortunella were of hybrid origin and Citrus might be as its putative paternal parent. The genera Microcitrus, Eremocitrus, and Clymenia were possibly monophyletic and their common ancestor might branch out from Citrus. Furthermore, the phylogenetic relationships within the Citrus genus were discussed. 展开更多
关键词 RUTACEAE Aurantioideae true citrus fruit trees group molecular phylogenetics cpDNA sequence
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Global Solution for Preserving Citrus Fruit Using Natural Treatments
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作者 Claudia Conesa Emesto Conesa 《Journal of Agricultural Science and Technology(A)》 2013年第7期503-510,共8页
Different tests were carried out to assess the efficiency of replacing plant protection products used at the main application points in citrus fruit packinghouses with natural treatments. The efficiency of an aqueous ... Different tests were carried out to assess the efficiency of replacing plant protection products used at the main application points in citrus fruit packinghouses with natural treatments. The efficiency of an aqueous treatment containing potassium sorbate was found to significantly reduce decaying in Marisol mandarins previously inoculated with Penicillium digitatum and Penicillium italicum. The same food preservative was used in conjunction with a fruit detergent and was applied on Washington Navel oranges and the reduction in the appearance of decaying was similar to that obtained using Guazatine. Finally, two different essential oils were tested. One was combined with a coating and the KS, whilst the other was applied as a fumigant. In the case of wax treatments, it was found that the combination of essential oil or KS with Imazalil at half the dose (0.1%) was equivalent to treatment with a higher dose of Imazalil (0.2%) thus making it possible to reduce the dose of plant protection products used without reducing decay control effectiveness. The treatment with a fumigant with essential oil has a level of efficiency similar to Imazalil against PI. These treatments can be considered a viable alternative to the use of plant protection products. 展开更多
关键词 POSTHARVEST DECAY citrus fruit potassium sorbate essential oils.
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Integrative cytology and proteome alterations unravel the multitarget effect of a novel alkaloid antofine against Penicillium italicum
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作者 彭旋 万春鹏 +4 位作者 张雅婕 陈金印 杨志成 张欣雨 陈楚英 《Food Quality and Safety》 SCIE CSCD 2023年第2期370-382,共13页
Penicillium italicum is the causal agent of citrus blue mold,which is a major threat to the global citrus fruit industry.Antofine,a natural phenanthroindolizidine alkaloid,is water-soluble and exhibits a broad range o... Penicillium italicum is the causal agent of citrus blue mold,which is a major threat to the global citrus fruit industry.Antofine,a natural phenanthroindolizidine alkaloid,is water-soluble and exhibits a broad range of biological activities.However,whether it can inhibit P italicum growth and the potential inhibitory mechanism remains to be elucidated.This study aimed to investigate the antifungal mechanism of antofine against P italicum using scanning electron microscopy,transmission electron microscopy(TEM),propidium iodide staining,and tandem mass tag-labeled quantitative proteomic analysis.Antofine was found to exhibit its preeminent antifungal activity against P italicum with a minimum inhibitory concentration of 1.56 mg/L and a minimum fungicidal concentration of 6.25 mg/L.The challenge test revealed that antofine inhibited the development of citrus blue mold during a 6-d P italicum-infected period.Antofine acted on its potential multitargets to inhibit P italicum growth by synergistically activating oxidative stress through accumulating excess reactive oxygen species,impairing membrane integrity.inducing membrane lipid peroxidation,and disrupting mitochondrial function,thereby disrupting the membrane system and reducing cell via-bility.Moreover,antofine treatment downregulated most differentially expressed proteins involved in carbon metabolism,pyruvate metabolism,and the tricarboxylic acid cycle(TCA)in P italicum mycelia,which may explain the mitochondrial decomposition observed by TEM and the de-clines in ATP levels as well as the activities of TCA-related enzymes.These results indicate that antofine treatment inhibited P italicum growth by targeting the cell membrane and mitochondria. 展开更多
关键词 Antofine Penicillium italicum citrus fruit antifungal mechanism quantitative proteomics
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Identification and expression profiles of gustatory receptor genes in Bactrocera minax larvae(Diptera:Tephritidae):Role of BminGR59f in larval growth 被引量:2
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作者 Guijian Zhang Shuai Cao +4 位作者 Tong Guo Haoran Wang Xuewei Qi Xueming Ren Changying Niu 《Insect Science》 SCIE CAS CSCD 2022年第5期1240-1250,共11页
Insects employ various types of gustatory receptors(GRs)to identify nutrient-rich food and avoid toxic substances.The larval gustatory system is the critical checkpoint for food acceptance or rejection.As a specialist... Insects employ various types of gustatory receptors(GRs)to identify nutrient-rich food and avoid toxic substances.The larval gustatory system is the critical checkpoint for food acceptance or rejection.As a specialist herbivore,the larvae of Bactrocera minax feed only on unripe citrus fruits.However,how larvae use GRs to check and adapt to the secondary metabolites in unripe citrus fruits remains unknown.In this study,we first performed developmental expression profiles showing that most BminGRs genes were highly expressed in 1st and 2nd instar larvae and that tissue-specific expression indicated high expression of most BminGRs genes in the mouthparts of 2nd instar larvae.Furthermore,we found that silencing BminGR59f by RNA interference(RNAi)affected the growth of 2nd instar B.minax larvae.Hesperidin and naringin were screened as ligands of BminGR59f via RNAi and cell calcium imaging,and the combination of these two flavones increased the body weight of larvae.In summary,we identified a novel gustatory perception pattern in B.minax for detecting hesperidin and naringin,which boosted the growth of B.minax larvae.These results shed light on how specialist herbivores detect and adapt to host metbolites in adverse environments depending on larval GRs. 展开更多
关键词 gustatory receptors secondary metabolites specialist herbivores tephritid unripe citrus fruits
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