Jeon Young-Hee, Seo Jeong-Eun, Kim Ju-Hee, Lee Yu-Jin, Choi Sang-Won
Department of Food Science and Nutrition, Daegu Catholic University, Gyeongbuk 38430, Korea.
Uljin Agricultural Technology Center, Gyeongbuk 36339, Korea.
Prev Nutr Food Sci. 2021 Mar 31;26(1):100-108. doi: 10.3746/pnf.2021.26.1.100.
Five flavonol glycosides including quercetin 3--β-D-glucoside (QG), kaempferol 3--β-D-glucoside (KG), quercetin 3--(6″--acetyl)-β-D-glucoside (QAG), kaempferol 3--(6″--acetyl)-β-D-glucoside (KAG), and quercetin 3--(3″---coumaroyl)-β-D-glucoside (QCG) were isolated and purified from red pine ( Sieb. et Zucc.) nee-dles, and identified by nuclear magnetic resonance and mass spectrometer spectral analyses. In addition, the quantification of the five flavonol glycosides in pine needles was performed by high-performance liquid chromatography analysis according to cultivar, growing district, harvest season, and thermal processing. The red pine needles had higher amounts of the five flavonol glycosides than the black pine needles except for QCG. There were no large differences in flavonoid composition and content among pine needles grown in three different areas. Levels of the five flavonol glycosides in red pine needles harvested during Spring ranged from 6.13 to 27.03 mg/100 g dry weight. Levels of two flavonol glycosides, QG and KG, gradually decreased with increasing harvest time, whereas the acylated flavonol glycoside, QCG, a predominant flavo-noid in pine needles, increased gradually with increasing harvest time. Two acetyl flavonol glycosides, QAG and KAG, increased steadily through Spring to Autumn, and then decreased gradually by Winter. Meanwhile heat treatments, such as roasting and steaming, increased the five flavonol glycosides during heating for 3 min, but then slowly decreased these when heating for 10 min. Microwave processing increased to some extent the five flavonol glycosides when heating for 3 min, and remained unchanged during the 10 min heating. These results suggest that the pretreated red pine needles with enhanced flavonoid content may be useful as potential sources for nutraceuticals and cosmeceuticals.
从红松(Sieb. et Zucc.)针叶中分离并纯化出5种黄酮醇苷,包括槲皮素3-β-D-葡萄糖苷(QG)、山奈酚3-β-D-葡萄糖苷(KG)、槲皮素3-(6″-乙酰基)-β-D-葡萄糖苷(QAG)、山奈酚3-(6″-乙酰基)-β-D-葡萄糖苷(KAG)和槲皮素3-(3″-香豆酰基)-β-D-葡萄糖苷(QCG),并通过核磁共振和质谱光谱分析进行鉴定。此外,根据品种、生长地区、收获季节和热处理情况,采用高效液相色谱分析法对松针中的5种黄酮醇苷进行定量分析。除QCG外,红松针叶中的5种黄酮醇苷含量高于黑松针叶。在三个不同地区生长的松针中,黄酮类化合物的组成和含量没有显著差异。春季收获的红松针叶中5种黄酮醇苷的含量范围为6.13至27.03毫克/干重100克。两种黄酮醇苷QG和KG的含量随着收获时间的增加而逐渐降低,而酰化黄酮醇苷QCG是松针中的主要黄酮类化合物,其含量随着收获时间的增加而逐渐增加。两种乙酰化黄酮醇苷QAG和KAG在春季至秋季稳步增加,然后在冬季逐渐降低。同时,烘烤和蒸煮等高热处理在加热3分钟时会增加5种黄酮醇苷的含量,但在加热10分钟时会缓慢降低。微波处理在加热3分钟时会在一定程度上增加5种黄酮醇苷的含量,并且在10分钟加热过程中保持不变。这些结果表明,黄酮类化合物含量增加的预处理红松针叶可能作为营养保健品和药妆品的潜在来源。
