Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
Journal of Natural Medicines
Published in: Journal of Natural Medicines 3/2018

Open Access 01-06-2018 | Original Paper

Impact of different post-harvest processing methods on the chemical compositions of peony root

Authors: Shu Zhu, Aimi Shirakawa, Yanhong Shi, Xiaoli Yu, Takayuki Tamura, Naotoshi Shibahara, Kayo Yoshimatsu, Katsuko Komatsu

Published in: Journal of Natural Medicines | Issue 3/2018

Login to get access

Abstract

The impact of key processing steps such as boiling, peeling, drying and storing on chemical compositions and morphologic features of the produced peony root was investigated in detail by applying 15 processing methods to fresh roots of Paeonia lactiflora and then monitoring contents of eight main components, as well as internal root color. The results showed that low temperature (4 °C) storage of fresh roots for approximately 1 month after harvest resulted in slightly increased and stable content of paeoniflorin, which might be due to suppression of enzymatic degradation. This storage also prevented roots from discoloring, facilitating production of favorable bright color roots. Boiling process triggered decomposition of polygalloylglucoses, thereby leading to a significant increase in contents of pentagalloylglucose and gallic acid. Peeling process resulted in a decrease of albiflorin and catechin contents. As a result, an optimized and practicable processing method ensuring high contents of the main active components in the produced root was developed.
Appendix
Available only for authorised users
Literature
1.
Chinese Pharmacopoeia Commission (2015) Pharmacopoeia of the People’s Republic of China (2015 Edition) Volume 1, English version, vol 1. China Medical Science Press, Beijing, pp 306–308
2.
Namba T (1993) The Encyclopedia of Wakan-Yaku (Traditional Sino-Japanese Medicines) with Color Pictures, vol I, 2nd edn. Hoikusha Publishing Co., Ltd., Osaka, pp 102–104
3.
Wu SH, Wu DG, Chen YW (2010) Chemical constituents and bioactivities of plants from the genus Paeonia. Chem Biodivers 7:90–104CrossRef
4.
He CN, Peng Y, Zhang YC, Xu LJ, Gu J, Xiao PG (2010) Phytochemical and biological studies of paeoniaceae. Chem Biodivers 7:805–838CrossRef
5.
Shi YH, Zhu S, Ge YW, He YM, Kazuma K, Wang ZT, Yoshimatsu K, Komatsu K (2016) Monoterpene derivatives with anti-allergic activity from red peony root, the root of Paeonia lactiflora. Fitoterapia 108:55–61CrossRef
6.
Zhu S, Yu XL, Wu YQ, Shiraishi F, Kawahara N, Komatsu K (2015) Genetic and chemical characterization of white and red peony root derived from Paeonia lactiflora. J Nat Med 69:35–45CrossRef
7.
Shi YH, Zhu S, Ge YW, Toume K, Yoshimatsu K, Komatsu K (2016) Characterization and quantification of monoterpenoids in different types of peony root and the related Paeonia species by liquid chromatography coupled with ion trap and time-of-flight mass spectrometry. J Pharm Biomed Anal 129:581–592CrossRef
8.
Japanese Pharmacopoeia Commission, the Ministry of Health, Labour and Welfare (2015) The Japanese Pharmacopoeia 17th Edition, English version. Japanese Government, pp 1935–1936
9.
Japan Kampo Medicinal Manufacturers Association (2016) Survey reports on annual consumption of herbal drugs (4). Japanese Government, Tokyo, p 6
10.
Zheng HC, Cai SQ (eds) (2003) Medicinal plants and pharmacognosy. People’s Medical Publishing House, Bejing, pp 166–173
11.
Gonnet JF (1999) Color effects of co-pigmentation of anthocyanins revisited-2. A colorimetric look at the solutions of cyanin co-pigmented by rutin using the CIELAB scale. Food Chem 66:387–394CrossRef
12.
Hayashi S, Anetai M, Sato M, Shibata T (2010) Effect of Post-harvest Processing of Paeonia lactifiora Pallas on quality of the crude drug in Northern Hokkaido. J Pharmacog 64:68–75
13.
Jin L, Zhao WS, Guo QS, Zhang WS, Ye ZL (2015) Study on chemical components distribution in Paeoniae Radix Alba and its processing methods. Zhongguo Zhong Yao Za Zhi 40:1953–1959PubMed
14.
15.
Liu EH, Qi LW, Li B, Peng YB, Li P, Li CY, Cao J (2009) High-speed separation and characterization of major constituents in Radix Paeoniae Rubra by fast high-performance liquid chromatography coupled with diode-array detection and time-of-flight mass spectrometry. Rapid Commun Mass Spectrom 23:119–130CrossRef
16.
Nishizawa M, Yamagishi T, Nonaka G, Nishioka I, Nagasawa T, Oura H (1983) Tannins and related compounds XII. Isolation and characterization of galloylglucoses from Paeoniae Radix and their effects on urea-nitrogen concentration in rat serum. Chem Pharm Bull 31:2593–2600CrossRef
17.
Nishizawa M, Yamagishi T, Nonaka G, Nishioka I (1980) Structure of Gallotannins in Paeoniae Radix. Chem Pharm Bull 28:2850–2852CrossRef
18.
González MJ, Torres JL, Medina I (2010) Impact of thermal processing on the activity of gallotannins and condensed tannins from Hamamelis virginiana used as functional ingredients in seafood. J Agric Food Chem 58:4274–4283CrossRef
Metadata
Title
Impact of different post-harvest processing methods on the chemical compositions of peony root
Authors
Shu Zhu
Aimi Shirakawa
Yanhong Shi
Xiaoli Yu
Takayuki Tamura
Naotoshi Shibahara
Kayo Yoshimatsu
Katsuko Komatsu
Publication date
01-06-2018
Publisher
Springer Singapore
Published in
Journal of Natural Medicines / Issue 3/2018
Print ISSN: 1340-3443
Electronic ISSN: 1861-0293
DOI
https://doi.org/10.1007/s11418-018-1214-x

Other articles of this Issue 3/2018

Journal of Natural Medicines 3/2018 Go to the issue

Original Paper

Quantitative analysis of the anti-inflammatory activity of orengedokuto II: berberine is responsible for the inhibition of NO production

Note

Chemical constituents from Canarium album Raeusch and their anti-influenza A virus activities

Editorial

Greetings from the chief editor

Original Paper

Anti-invasive effect of Cyclamen pseudibericum extract on A549 non-small cell lung carcinoma cells via inhibition of ZEB1 mediated by miR-200c

Original Paper

Mitogenic activity of Artocarpus lingnanensis lectin and its apoptosis induction in Jurkat T cells

Original Paper

Scutellaria baicalensis regulates FFA metabolism to ameliorate NAFLD through the AMPK-mediated SREBP signaling pathway