Ultra-high Pressure Extraction of Anthocyanins from Lonicera Caerulea and its Antioxidant Activity Compared with Ultrasound-assisted Extraction. | [International Journal of Agriculture and Biology • 2018]

Author(s):

1. Xinyuan Li: College of Food Science, Shenyang Agricultural University, Shenyang 110866, China

2. Xianjun Meng: College of Food Science, Shenyang Agricultural University, Shenyang 110866, China

3. Hui Tan: Faculty of Health Sciences, Hokkaido University, Sapporo, 060-0812, Japan

4. Qingqi Ren: College of Food Science and Engineering, Northwest A&F University, Yangling712100, China

5. Dongnan Li: College of Food Science, Shenyang Agricultural University, Shenyang 110866, China

6. Bin Li: College of Food Science, Shenyang Agricultural University, Shenyang 110866, China

Abstract:

The present study was aimed to determine the effect of ultrahigh pressure on the anthocyanin content and antioxidant activity of extracts from Lonicera caerulea berries. Response surface analysis predicted that the optimal conditions for ultrahighpressure extraction (UPE) included an extraction time of 7 min 43 sec, berry. Extraction buffer ratio of 1:14.70 (g:mL), and extraction pressure of 426 MPa showed that these conditions would yield a maximum anthocyanin content of 323.85 mg/100 g berries, which was significantly higher than those of extracts produced by ultrasound-assisted extraction and conventional solvent extraction (P < 0.05). In addition, radical scavenging assays indicated that the UPE extracts also exhibited higher antioxidant activity (P < 0.05), and HPLC-DAD-MS indicated that the UPE extracts had higher total anthocyanin contents and higher contents of two potent antioxidants, 5-methylpyranocyanidin-3-hexoside and cyanidin-3-hexoside-ethyl-catechin (P < 0.05). Therefore, current research indicated that UPE can be used as an effective extraction method for bioactive substances.

Page(s): 2257-2264

DOI: 10.17957/IJAB/15.0775

Published: Journal: International Journal of Agriculture and Biology, Volume: 20, Issue: 10, Year: 2018

Keywords:

Keywords are not available for this article.

References:

[1] Celli , G.B.,A.Ghanem,S.L.Brooks, 2015.Optimization of ultrasoundassisted extraction of anthocyanins from haskap berries (Lonicera caerulea L.) using Response Surface Methodology, 27 449 -455

[2] Chen , M.,Z.Yi,S.Yu, 2015.Optimisation of ultrasonic-assisted extraction of phenolic compounds, antioxidants, and anthocyanins from sugar beet molasses,Food Chem 172 543 -550

[3] Corrales , M.,A.F.García,P.Butz,B.Tauscher, 2009.Extraction of anthocyanins from grape skins assisted by high hydrostatic pressure,J. Food Eng 90 415 -421

[4] Corrales , M., S.,Toepfl , P.,Butz , D.,Knorr and B.,Tauscher, 2008.Extraction of anthocyanins from grape by-products assisted by ultrasonics, high hydrostatic pressure or pulsed electric fields: A comparison,Innov. Food Sci. Emerg 9 85 -91

[5] Dicko , M.H.,H.Gruppen,A.S.Traore,W.J.H.V.Berkel,A.G.J.Voragen, 2005.Evaluation of the effect of germination on phenolic compounds and antioxidant activities in sorghum varieties,J. Agric. Food Chem 53 2581 -2588

[6] Giusti , M.M.,R.E.Wrolstad, 2001.Current Protocols in Food Analytical Chemistry. Characterization and Measurement of Anthocyanins by UV‐Visible Spectroscopy, -

[7] Jing , P.,M.M. Giusti, 2007.Effects of extraction conditions on improving the yield and quality of an anthocyanin-rich purple corn (Zea mays L.) color extract,J. Food Sci. 72 363 -368

[8] Jordheim , M., 2007.Identification and Properties of Pyranoanthocyanins and Anthocyanin Forms,Ph.D. Thesis -

[9] Jun , X., 2006.Application of high hydrostatic pressure processing of food to extracting lycopene from tomato paste waste,High Pressure Res. 26 33 -41

[10] Kamachi , M.,H.Kamachi,T.Kakuchi,T.Satoh, 2005.Polysaccharide/functional compound complex,US Patent -

[11] Lapornik , B.,M.Prošek,A.G.Wondra, 2005.Comparison of extracts prepared from plant by-products using different solvents and extraction time,J. Food Eng 71 214 -222

[12] Lazze , M.C.,R.Pizzala,M.Savio,L.A.Stivala,E.Prosperi,L.Bianchi, 2003.Anthocyanins protect against DNA damage induced by tert - butyl-hydroperoxide in rat smooth muscle and hepatoma cells,Mutat. Res. 535 103 -115

[13] Lee , J.,C.Rennaker,R.E.Wrolstad, 2008.Correlation of two anthocyanin quantification methods: HPLC and spectrophotometric methods,Food Chem 110 782 -786

[14] Luo , J.,L.Li,L.Kong, 2012.Preparative separation of phenylpropenoid glycerides from the bulbs of Lilium lancifolium by high-speed counter-current chromatography and evaluation of their antioxidant activities,Food Chem 131 1056 -1062

[15] Matsumoto , H., Y.,Nakamura , M.,Hirayama , Y.,Yoshiki and K.,Okubo, 2002.Antioxidant activity of black currant anthocyanin aglycons and their glycosides measured by chemiluminescence in a neutral pH region and in human plasma,J. Agric. Food Chem 50 5034 -5037

[16] Palíková , I.,J.Heinrich,P.Bednár,P.Marhol,V.Kren,L.Cvak,K.Valentová,F.Růzicka,V.Holá,M.Kolár, 2009.Constituents and antimicrobial properties of blue honeysuckle: a novel source for phenolic antioxidants,J. Agric. Food Chem 56 11883 -11889

[17] Piret , R.,D.Anton,M.Roasto,K.Meremäe,P.Pedastsaar,M.Mäesaar,A.Raal,K.Laikoja,T.Püssa, 2013.The antioxidative and antimicrobial properties of the blue honeysuckle (Lonicera caerulea L.), Siberian rhubarb (Rheum rhaponticum L.) and some other plants, compared to ascorbic acid and sodium nitrite,Food Cont 31 129 -135

[18] Ramirez-Tortosa , C.,Ø.M. Andersen , P.T.,Gardner , P.C.,Morrice , S.G.,Wood , S.J.,Duthie , A.R.,Collins and G.G.,Duthie, 2001.Anthocyanin-rich extract decreases indices of lipid peroxidation and DNA damage in vitamin E-depleted rats,Free Radical Biol. Med 31 1033 -1037

[19] Rodríguez-Solana , R.,J.M.Salgado,J.M.Domínguez,S. CortésDiéguez, 2015.Lamiaceae species,Phytochem. Anal. 26 61 -71

[20] Rossi , A.,I. Serraino,P.Dugo,P.R.Di,L.Mondello,T.Genovese,D.Morabito,G.Dugo,L.Sautebin,A.P.Caputi, 2015.Protective effects of anthocyanins from blackberry in a rat model of acute lung inflammation,Free Rad. Res. 37 891 -900

[21] Shin , J.S.,S.C.Ahn,S.W.Choi,D.U.Lee,B.Y.Kim and M.Y. Baik, 2010.Ultra high pressure extraction (UHPE) of ginsenosides from Korean Panax ginseng powder,Food Sci. Biotechnol 19 743 -748

[22] Tang , L.,H.Zuo,L.Shu, 2014.Comparison of the interaction between three anthocyanins and human serum albumins by spectroscopy,J. Luminescence 153 54 -63

[23] Tu , Z.,X.Zhang,W.Hui,L.Peng,Y.Dou, 2008.Effect of ultra-high pressure microfluidization on the structure of peanut protein,Trans Chin. Soc. Agric 24 306 -308

[24] Xi , J. and S.,Zhang, 2007.Antioxidant activity of ethanolic extracts of propolis by high hydrostatic pressure extraction,Int. J. Food Sci. Technol 42 1350 -1356

[25] Zhang , D.Y., M.,Luo , W.,Wang , C.J.,Zhao , C.B.,Gu , Y.G.,Zu , Y.J.,Fu , X.H.,Yao and M.H.,Duan, 2013.Variation of active constituents and antioxidant activity in pyrola (P. incarnata Fisch.) from different sites in Northeast China,Food Chem 141 2213 -2219

[26] Zhang , M.,G,Y.N.Zhang,F.X.Chen, 2014.Optimization of Extraction of Lonicera edulis Anthocyanin by Response Surface Methodology, 23 113 -116

[27] Zhang , S.,J.Zhu,C.Wang, 2004.Novel high pressure extraction technology,Int. J. Pharm. 278 471 -474

[28] Zhang , S.,R.Chen,C.Wang, 2007.Experiment study on ultrahigh pressure extraction of Ginsenosides, 79 1 -5

[29] Zhou , S.H.,Z.X.Fang,L.Yuan,J.C.Chen,D.H.Liu,X.Q.Ye, 2009.Phenolics and antioxidant properties of bayberry ( Myrica rubra Sieb, 112 394 -399

[30] Zhu , Z.Y.,Y.Luo,G.L.Dong,Y.Y.Ren,L.J.Chen,M.Z.Guo,X.T.Wang,X.Y.Yang,Y.Zhang, 2016.Effects of the ultra-high pressure on structure and α-glucosidase inhibition of polysaccharide from Astragalus,Int. J. Biol. Macromol 87 570 -576

Citations

Downloads

Views