Effects of drying methods on assay and antioxidant activity of xanthones in mangosteen rind
Rind of mangosteen is one of the best natural sources of xanthones, which have been reported to have high antioxidant activity. In many cases mangosteen rind must be dried prior to extraction of the active compounds. However, information on the effects of different drying methods and conditions on t...
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| Published in | Food chemistry Vol. 125; no. 1; pp. 240 - 247 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
Kidlington
Elsevier Ltd
01.03.2011
[Amsterdam]: Elsevier Science Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0308-8146 1873-7072 |
| DOI | 10.1016/j.foodchem.2010.09.015 |
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| Abstract | Rind of mangosteen is one of the best natural sources of xanthones, which have been reported to have high antioxidant activity. In many cases mangosteen rind must be dried prior to extraction of the active compounds. However, information on the effects of different drying methods and conditions on the retention of xanthones in mangosteen rind is still very limited. This work was therefore aimed at studying the effects of selected drying methods and conditions on the changes of the contents as well as the antioxidant activity of xanthones in mangosteen rind. Mangosteen rind was subject to hot-air drying, vacuum drying or low-pressure superheated steam drying (LPSSD) at 60, 75 and 90
°C and in the case of sub-atmospheric drying methods at an absolute pressure of 7
kPa. The xanthones contents were analysed by HPLC, while their antioxidant activity was assessed by DPPH radical scavenging capacity and ABTS assays. The results showed that the drying methods significantly affected degradation of xanthones (i.e., α-mangostin and 8-desoxygartanin) and their antioxidant activity. Either hot-air drying or LPSSD at 75
°C is proposed as an appropriate drying technique and condition to preserve xanthones in mangosteen rind. |
|---|---|
| AbstractList | Rind of mangosteen is one of the best natural sources of xanthones, which have been reported to have high antioxidant activity. In many cases mangosteen rind must be dried prior to extraction of the active compounds. However, information on the effects of different drying methods and conditions on the retention of xanthones in mangosteen rind is still very limited. This work was therefore aimed at studying the effects of selected drying methods and conditions on the changes of the contents as well as the antioxidant activity of xanthones in mangosteen rind. Mangosteen rind was subject to hot-air drying, vacuum drying or low-pressure superheated steam drying (LPSSD) at 60, 75 and 90
°C and in the case of sub-atmospheric drying methods at an absolute pressure of 7
kPa. The xanthones contents were analysed by HPLC, while their antioxidant activity was assessed by DPPH radical scavenging capacity and ABTS assays. The results showed that the drying methods significantly affected degradation of xanthones (i.e., α-mangostin and 8-desoxygartanin) and their antioxidant activity. Either hot-air drying or LPSSD at 75
°C is proposed as an appropriate drying technique and condition to preserve xanthones in mangosteen rind. Rind of mangosteen is one of the best natural sources of xanthones, which have been reported to have high antioxidant activity. In many cases mangosteen rind must be dried prior to extraction of the active compounds. However, information on the effects of different drying methods and conditions on the retention of xanthones in mangosteen rind is still very limited. This work was therefore aimed at studying the effects of selected drying methods and conditions on the changes of the contents as well as the antioxidant activity of xanthones in mangosteen rind. Mangosteen rind was subject to hot-air drying, vacuum drying or low-pressure superheated steam drying (LPSSD) at 60, 75 and 90°C and in the case of sub-atmospheric drying methods at an absolute pressure of 7kPa. The xanthones contents were analysed by HPLC, while their antioxidant activity was assessed by DPPH radical scavenging capacity and ABTS assays. The results showed that the drying methods significantly affected degradation of xanthones (i.e., α-mangostin and 8-desoxygartanin) and their antioxidant activity. Either hot-air drying or LPSSD at 75°C is proposed as an appropriate drying technique and condition to preserve xanthones in mangosteen rind. Rind of mangosteen is one of the best natural sources of xanthones, which have been reported to have high antioxidant activity. In many cases mangosteen rind must be dried prior to extraction of the active compounds. However, information on the effects of different drying methods and conditions on the retention of xanthones in mangosteen rind is still very limited. This work was therefore aimed at studying the effects of selected drying methods and conditions on the changes of the contents as well as the antioxidant activity of xanthones in mangosteen rind. Mangosteen rind was subject to hot-air drying, vacuum drying or low-pressure superheated steam drying (LPSSD) at 60, 75 and 90°C and in the case of sub-atmospheric drying methods at an absolute pressure of 7kPa. The xanthones contents were analysed by HPLC, while their antioxidant activity was assessed by DPPH radical scavenging capacity and ABTS assays. The results showed that the drying methods significantly affected degradation of xanthones (i.e., α-mangostin and 8-desoxygartanin) and their antioxidant activity. Either hot-air drying or LPSSD at 75°C is proposed as an appropriate drying technique and condition to preserve xanthones in mangosteen rind. |
| Author | Chaweerungrat, Chanchawee Suvarnakuta, Peamsuk Devahastin, Sakamon |
| Author_xml | – sequence: 1 givenname: Peamsuk surname: Suvarnakuta fullname: Suvarnakuta, Peamsuk email: speamsuk@tu.ac.th organization: Department of Food Science and Technology, Faculty of Science and Technology, Thammasat University (Rangsit Center), Paholyothin Road, Pathum-thani 12121, Thailand – sequence: 2 givenname: Chanchawee surname: Chaweerungrat fullname: Chaweerungrat, Chanchawee organization: Department of Food Engineering, Faculty of Engineering, King Mongkut’s University of Technology Thonburi, 126 Pracha u-tid Road, Tungkru, Bangkok 10140, Thailand – sequence: 3 givenname: Sakamon surname: Devahastin fullname: Devahastin, Sakamon organization: Department of Food Engineering, Faculty of Engineering, King Mongkut’s University of Technology Thonburi, 126 Pracha u-tid Road, Tungkru, Bangkok 10140, Thailand |
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| Keywords | Hot-air drying Vacuum drying α-Mangostin LC–MS Enzymatic degradation 8-Desoxygartanin Low-pressure superheated steam drying Thermal degradation Polyphenol oxidase Enzyme Air drying Superheated steam Catechol oxidase Liquid chromatography Method Antioxidant LC-MS Low pressure Mangosteen Oxidoreductases Enzymatic reaction |
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| SubjectTerms | 8-Desoxygartanin air drying antioxidant activity Biological and medical sciences chemical degradation drying drying quality Enzymatic degradation Food industries Fundamental and applied biological sciences. Psychology high performance liquid chromatography Hot-air drying LC–MS Low-pressure superheated steam drying mangosteens peels phytochemicals Polyphenol oxidase temperature Thermal degradation Vacuum drying xanthones α-Mangostin |
| Title | Effects of drying methods on assay and antioxidant activity of xanthones in mangosteen rind |
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