Crops ›› 2016, Vol. 32 ›› Issue (1): 149-153.doi: 10.16035/j.issn.1001-7283.2016.01.028

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Study on Total Phenolic Content and Correlation between PPO Activity and Browning of Corydalis saxicola Bunting Callus

Cen Zhongyong,Su Jiang,Deng Xichao,Xie Yanjun   

  1. School of Chemistry and Biological Engineering,Hechi University,Yizhou 546300,Guangxi,China
  • Received:2015-11-04 Revised:2015-12-30 Online:2016-02-15 Published:2018-08-25

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Abstract:

With non-browned callus of Corydalis saxicola as materials, the effects of different concentrations of ascorbic acid on browning of Corydalis saxicola callus, total phenolic content and PPO activity were studied by adding them to culture medium in this experiment. The results showed that the browning rates of Corydalis saxicola bunting callus under different ascorbic acid concentrations were lower than that of the control on the 20th day. While the activities of PPO of all the treatments were higher than that of the control, the activity of PPO with concentration of 175mg/L ascorbic acid was the highest with a value of 14.1400U/(g·min), 72.3% higher than the control. The total phenolic contents of all the treatments were lower than that of the control, and the total phenolic content with concentration of 175mg/L ascorbic acid was the lowest with a value of 0.4633μg/mL, 88.3% lower than the control. The correlation analysis showed that the browning rate of callus was positively correlated with the content of total phenols, and negatively correlated with the activity of PPO. The activity of PPO was much negatively correlated with the total phenol content in the callus.

Key words: Corydalis saxicola, Bunting callus, Browning, Total phenol, PPO

Table 1

The effects of different treatments on the activity of PPO of Corydalis saxicola bunting callus U/(g·min)"

处理
Treatment		 均值
Mean value		 标准差
Standard deviation		 标准误
Standard error		 均值的95%置信区间95% Confidence interval of mean 极小值
Minimum		 极大值
Maximum
下限Lower bound 上限Upper bound
对照(CK) 3.9233 0.11930 0.06888 3.6270 4.2197 3.79 4.02
75mg/L 5.6500 0.26514 0.15308 4.9914 6.3086 5.39 5.92
125mg/L 7.1633 0.19655 0.11348 6.6751 7.6516 6.94 7.31
175mg/L 14.1400 0.25239 0.14572 13.5130 14.7670 13.85 14.31
225mg/L 9.0900 0.20421 0.11790 8.5827 9.5973 8.86 9.25

Table 2

Multi-comparisons of the activity of PPO of Corydalis saxicola bunting callus of different treatments U/(g·min)"

处理
Treatment		 重复Repetition 平均
Average
对照(CK) 3.79 4.02 3.96 3.9233E
75mg/L 5.92 5.39 5.64 5.6500D
125mg/L 7.24 6.94 7.31 7.1633C
175mg/L 14.31 13.85 14.26 14.1400A
225mg/L 9.25 8.86 9.16 9.0900B

Table 3

Total phenolic content of Corydalis saxicola bunting callus of different treatments μg/mL"

处理
Treatment		 均值
Mean value		 标准差
Standard deviation		 标准误
Standard error		 均值的95%置信区间95% Confidence interval of mean 极小值
Minimum		 极大值
Maximum
下限Lower bound 上限Upper bound
对照(CK) 3.6167 0.33081 0.19099 2.7949 4.4384 3.24 3.86
75mg/L 2.6233 0.15177 0.08762 2.2463 3.0003 2.46 2.76
125mg/L 2.1400 0.08185 0.04726 1.9367 2.3433 2.05 2.21
175mg/L 0.4633 0.07371 0.04256 0.2802 0.6464 0.38 0.52
225mg/L 1.2600 0.09165 0.05292 1.0323 1.4877 1.18 1.36

Table 4

Multi-comparisons of total phenolic content of Corydalis saxicola bunting callus of different treatments μg/mL"

处理
Treatment		 重复Repetition 平均
Average
对照(CK) 3.24 3.75 3.86 3.62A
75mg/L 2.46 2.65 2.76 2.62B
125mg/L 2.05 2.16 2.21 2.14C
175mg/L 0.38 0.52 0.49 0.46E
225mg/L 1.18 1.36 1.24 1.26D

Table 5

Effects of different treatments on Corydalis saxicola bunting callus browning"

处理
Treatment		 接种愈伤组织数
Inoculated callus number		 褐化愈伤组织数
Number of
brown callus		 褐化率
Browning rate(%)
对照(CK) 111 84 75.68
75mg/L 117 31 27.35
125mg/L 112 26 23.21
175mg/L 115 21 18.26
225mg/L 119 25 21.01

Table 6

Correlation between browning rate,ppo activity and total phenols content of Corydalis saxicola bunting callus"

项目Items 褐变率Browning rate PPO活性PPO activity 总酚含量Total phenols content
褐变率 Browning rate 相关性Pearson 1 -0.654 0.786
显著性(双侧)Sig.(2-tailed) 0.231 0.115
N 5 5 5
PPO活性 PPO activity 相关性Pearson -0.654 1 -0.963**
显著性(双侧)Sig.(2-tailed) 0.231 0.009
N 5 5 5
总酚含量 Total phenols content 相关性Pearson 0.786 -0.963** 1
显著性(双侧)Sig.(2-tailed) 0.115 0.009
N 5 5 5
[1] 韦范, 李翠, 韦坤华 , 等. 岩黄连的高频再生体系建立与优化. 江苏农业科学, 2014,42(11):68-71.
[2] Chen K Y, Ye J, Liu C , et al. Molecular characterization, recombinant expression in Escherichia coli and biological activity of (S)- Tetrahydroberberine oxidase from Corydalis saxicola Bunt. Molecular Biology Reports, 2012,39:3319-3326.
doi: 10.1007/s11033-011-1101-y
[3] Huang L C, Lee Y L, Huang B L , et al. High polyphenol oxidase activity and low titratable acidity in browning bamboo tissue culture.In Vitro Cellular & Developmental Biology-Plant, 2002,38:358-365.
doi: 10.1079/IVP2002298
[4] Poudyal B K, Du G Q, Zhang Y X . Studies on browning problem and phenols content on shoots of Yali,Aikansui and Abbe Fetel pears for in vitro culture. Frontiers of Agriculture in China, 2008,2(3):321-330.
doi: 10.1007/s11703-008-0035-1
[5] Tao F J, Zhang Z Y, Zhou J , et al. Contamination and browning in tissue culture of Platanus occidentalis L. Forestry Studies in China, 2007,9(4):279-282.
doi: 10.1007/s11632-007-0044-9
[6] 尹桂芳, 孙玲, 马继琼 , 等. 外植体取材时期对地涌金莲组织培养褐化的影响. 西南农业学报, 2015,28(1):349-352.
[7] 谷延泽, 高瑞彦 . 植物组织培养中的褐化现象及防治措施. 河北农业科学, 2008,12(6):56-58.
[8] 郑超, 徐晟, 夏冰 , 等. 三种抗氧化剂对曼地亚红豆杉愈伤组织褐化及相关物质含量的影响. 植物生理学报, 2013,49(3):259-263.
[9] 戴勤, 俞建妹, 谭玲 , 等. 擎天树初始外植体总酚含量与PPO活性的关系. 中南林业科技大学学报, 2014,34(4):50-54.
[10] 赵滢, 杨树华, 李秋香 , 等. 热激处理对蝴蝶兰组培褐变的抑制及其生理机制. 北京林业大学学报, 2013,35(1):103-108.
[11] 郑颖, 秦红玫, 黎云祥 . 台湾桤木外植体褐化机理初探. 中国农学通报, 2013,29(28):23-27.
[12] 蔡文国 . 鱼腥草总酚和黄酮含量测定及其体外抗氧化能力研究. 成都:四川大学, 2011.
[13] 熊汝琴, 王锐, 刘忠荣 , 等. Folin-Ciocaileu比色法测定不同等级天麻总酚含量.浙江农业科学, 2014(5):664-667.
[14] 吴立根, 王岸娜, 徐山宝 , 等. 福林法测定猕猴桃多酚含量的研究. 食品科学, 2008,29(7):4.
[15] 黄树苹, 徐长城, 谈杰 , 等. 不同影响因素下普通丝瓜果肉褐变度、多酚氧化酶活性及多酚质量比变化研究. 西南大学学报(自然科学版), 2015,37(9):31-36.
[16] 王栋 , 买合木提·克衣木,玉永雄,等.植物组织培养中的褐化现象及其防止措施.黑龙江农业科学, 2008(1):7-10.
[17] 郭艳, 杨海玲 . 植物组织培养中的褐化现象及解决途径. 山西农业科学, 2009,37(7):14-16.
[18] 常云霞, 徐克东, 李俐俐 , 等. 抗坏血酸对大豆愈伤组织抗渗透胁迫的影响. 大豆科学, 2014,33(1):66-69.
[19] 赖艳艳, 许传俊, 陈冬茵 , 等. 柠檬酸和抗坏血酸对蝴蝶兰叶外植体褐变发生的影响. 生物技术, 2010,20(2):70-72.
[20] 周永妍, 李亚, 余爱农 . 抗坏血酸/谷氨酸Maillard 反应体系中间产物和褐变程度的研究. 湖北民族学院学报(自然科学版), 2015,33(1):80-84.
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