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紫外线B诱导的萝卜芽下胚轴花青素积累在照射后于黑暗中持续存在。

UV-B-induced anthocyanin accumulation in hypocotyls of radish sprouts continues in the dark after irradiation.

作者信息

Su Nana, Lu Yanwu, Wu Qi, Liu Yuanyuan, Xia Yan, Xia Kai, Cui Jin

机构信息

College of Life Sciences, Nanjing Agricultural University, Nanjing 210095, Jiangsu, People's republic of China.

出版信息

J Sci Food Agric. 2016 Feb;96(3):886-92. doi: 10.1002/jsfa.7161. Epub 2015 Apr 16.

DOI:10.1002/jsfa.7161
PMID:25754879
Abstract

BACKGROUND

Raphanus sativus L. cv. Yanghua sprouts are rich in health-promoting anthocyanins; thus hypocotyls show a red color under light. In this study, effects of UV-B irradiation at 5 W m(-2) on anthocyanin biosynthesis in the hypocotyls of radish sprouts were investigated.

RESULTS

Anthocyanins began to accumulate rapidly from 24 h irradiation and increased continuously until 48 h, showing a similar pattern to phenylalanine ammonia lyase (PAL) activity, with a correlation coefficient of 0.804. The expression of DFR and ANS paralleled the upward trend in anthocyanin accumulation, while CHS, CHI and F3H were upregulated before accumulation. When sprouts were moved into the dark from UV-B, the anthocyanin accumulation did not stop immediately. By contrast, anthocyanin accumulated continuously for more than 12 h in the dark, which was further supported by the significantly higher PAL activity monitored at 24 h after irradiation. Similarly, the transcript levels of anthocyanin biosynthesis-related genes were much higher over 6 h after 12 h UV-B irradiation.

CONCLUSION

UV-B-induced anthocyanin accumulation continues in the dark after irradiation, which was supported by unfading PAL activity and high levels of biosynthesis-related genes. This will provide evidence to produce high-quality sprouts with more anthocyanins but less energy wastage in practice.

摘要

背景

萝卜品种“扬花”芽苗富含具有促进健康作用的花青素;因此,下胚轴在光照下呈现红色。本研究调查了5 W m(-2)的UV-B辐射对萝卜芽苗下胚轴花青素生物合成的影响。

结果

花青素在照射24 h后开始迅速积累,并持续增加至48 h,呈现出与苯丙氨酸解氨酶(PAL)活性相似的模式,相关系数为0.804。二氢黄酮醇4-还原酶(DFR)和花青素合成酶(ANS)的表达与花青素积累的上升趋势平行,而查尔酮合酶(CHS)、查尔酮异构酶(CHI)和黄酮醇3-羟化酶(F3H)在积累之前被上调。当芽苗从UV-B照射转移到黑暗中时,花青素的积累并没有立即停止。相反,花青素在黑暗中持续积累超过12 h,这在照射后24 h监测到的显著更高的PAL活性中得到进一步支持。同样,在UV-B照射12 h后的6 h内,花青素生物合成相关基因的转录水平要高得多。

结论

UV-B诱导的花青素积累在照射后的黑暗中仍持续,这得到了PAL活性未消退和生物合成相关基因高水平的支持。这将为在实际中生产出具有更多花青素但能源浪费更少的优质芽苗提供证据。

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