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第 6 期王藤等：普洱熟茶后发酵酚类物质变化研究进展 43

［15］ FANG Z T，YANG W T，LI C Y，et al.Accumulation pattern process provide significant antioxidative activity［J］. Food
of catechins and flavonol glycosides in different varieties and chemistry，2014，152：539-545.
cultivars of tea plant in China［J/OL］.Journal of food composi⁃ ［27］ KANEGAE A，SAKAMOTO A，NAKAYAMA H，et al.
tion and analysis，2021，97：103772［2025-09-15］.https：//doi. New phenolic compounds from Camellia sinensis L. fermented
org/10.1016/j.jfca.2020.103772. leaves［J］.Journal of natural medicines，2013，67（3）：652-656.
［16］ WANG T，AN J S，BO N G，et al. Changes and metabolic ［28］ WULANDARI R A，AMANO M，YANAGITA T，et al.
mechanisms of organic acids in the fermentation of Puer tea［J/ New phenolic compounds from Camellia sinensis L. leaves fer⁃
OL］.LWT，2024，203：116304［2025-09-15］.https：//doi.org/ mented with Aspergillus sp.［J］.Journal of natural medicines，
10.1016/j.lwt.2024.116304. 2011，65（3）：594-597.
［17］ WANG T，LI R Y，LIU K Y，et al.Changes in sensory charac⁃ ［29］ ZHU Y F，CHEN J J，JI X M，et al.Changes of major tea poly⁃
teristics，chemical composition and microbial succession during phenols and production of four new B-ring fission metabolites
fermentation of ancient plants Puer tea［J/OL］.Food chemis⁃ of catechins from post-fermented Jing-Wei Fu brick tea［J］.
try：x，2023，20：101003［2025-09-15］. https：//doi. org/ Food chemistry，2015，170：110-117.
10.1016/j.fochx.2023.101003. ［30］ HOLLAND T M，AGARWAL P，WANG Y M，et al.Associ⁃
［18］ MA B S，WANG J C，XU C C，et al.Interrelation analysis be⁃ ation of dietary intake of flavonols with changes in global cog⁃
tween phenolic compounds and in vitro antioxidant activities in nition and several cognitive abilities［J］.Neurology，2023，100
Puer tea［J/OL］. LWT，2022，158：113117［2025-09-15］. （7）：e694-e702.
https：//doi.org/10.1016/j.lwt.2022.113117. ［31］ CHEN H X，CUI F X，LI H，et al.Metabolic changes during
［19］ WANG Z H，ZHENG C Q，MA C Q，et al.Comparative anal⁃ the Puer tea pile-fermentation revealed by a liquid chromatog⁃
ysis of chemical constituents and antioxidant activity in tea- raphy tandem mass-spectrometry-based metabolomics ap⁃
leaves microbial fermentation of seven tea-derived fungi from proach［J］. Journal of food science，2013，78（11）：C1665-
ripened Puer tea［J/OL］.LWT，2021，142：111006［2025-09- C1672.
15］. https：//doi.org/10.1016/j.lwt.2021.111006. ［32］ LI J W，WANG Y，SUH J H. Multi-omics approach in tea
［20］ MA Y，LING T J，SU X Q，et al.Integrated proteomics and polyphenol research regarding tea plant growth，development
metabolomics analysis of tea leaves fermented by Aspergillus and tea processing：current technologies and perspectives［J］.
niger，Aspergillus tamarii and Aspergillus fumigatus［J/OL］. Food science and human wellness，2022，11（3）：524-536.
Food chemistry，2021，334：127560［2025-09-15］.https：//doi. ［33］ MA C Q，LI X H，ZHENG C Q，et al.Comparison of charac⁃
org/10.1016/j.foodchem.2020.127560. teristic components in tea-leaves fermented by Aspergillus
［21］ LONG P P，WEN M C，GRANATO D，et al.Untargeted and pallidofulvus PT-3，Aspergillus sesamicola PT-4 and Penicil⁃
targeted metabolomics reveal the chemical characteristic of pu- lium manginii PT-5 using LC-MS metabolomics and HPLC
erh tea （Camellia assamica） during pile-fermentation［J/OL］. analysis［J/OL］.Food chemistry，2021，350：129228［2025-09-
Food chemistry，2020，311：125895［2025-09-15］.https：//doi. 15］.https：//doi.org/10.1016/j.foodchem.2021.129228.
org/10.1016/j.foodchem.2019.125895. ［34］ NIAN B，CHEN L J，YI C，et al.A high performance liquid
［22］ ZHAO M，SU X Q，NIAN B，et al.Integrated meta-omics ap⁃ chromatography method for simultaneous detection of 20 bio⁃
proaches to understand the microbiome of spontaneous fermen⁃ active components in tea extracts［J］.Electrophoresis，2019，40
tation of traditional Chinese Puer tea［J/OL］.mSystems，2019，（21）：2837-2844.
4（6）：e00680-19［2025-09-15］. https：//doi. org/10.1128/ ［35］李红叶，陈立佼，刘明丽，等 . 黑曲霉单宁酶基因 Tan2克隆
msystems.00680-19. 与表达［J］. 生物技术通报， 2021，37 （3）：44-52.LI H Y，
［23］ TIAN L W，TAO M K，XU M，et al.Carboxymethyl- and car⁃ CHEN L J， LIU M L， et al.Cloning and expression of tan⁃
boxyl-catechins from ripe Pu-er tea［J］.Journal of agricultural nase gene Tan2 from Aspergillus niger［J］. Biotechnology bul⁃
and food chemistry，2014，62（50）：12229-12234. letin， 2021，37 （3）：44-52（in Chinese with English abstract）．
［24］ ZHOU Z H，ZHANG Y J，XU M，et al.Puerins A and B，two ［36］ GE Y H，BIAN X Q，SUN B Q，et al.Dynamic profiling of
new 8-C substituted flavan-3-ols from Pu-er tea［J］.Journal of phenolic acids during Puer tea fermentation using derivatiza⁃
agricultural and food chemistry，2005，53（22）：8614-8617. tion liquid chromatography–mass spectrometry approach［J］.
［25］ TAO M K，XU M，ZHU H T，et al. New phenylpropanoid- Journal of agricultural and food chemistry，2019，67（16）：4568-
substituted flavan-3-ols from Puer ripe tea［J］.Natural product 4577.
communications，2014，9（8）：1167-1170. ［37］ LV H P，ZHONG Q S，LIN Z，et al.Aroma characterisation of
［26］ WANG W N，ZHANG L，WANG S，et al. 8-C N-ethyl-2- Puer tea using headspace-solid phase microextraction com⁃
pyrrolidinone substituted flavan-3-ols as the marker com⁃ bined with GC/MS and GC–olfactometry［J］.Food chemis⁃
pounds of Chinese dark teas formed in the post-fermentation try，2012，130（4）：1074-1081.

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