Luminescence and fahua-fermentation qualities of an autofluorescent microorganism from Fu brick tea
文献类型: 外文期刊
第一作者: Liu, An
作者: Liu, An;Zhang, Tuo;Lin, Ling;Xu, Wei;Hu, Yuan;Xiao, Wenjun;Gong, Zhihua;Liu, An;Zhang, Tuo;Huang, Tian;Xiao, Yiping
作者机构:
期刊名称:JOURNAL OF FOOD PROCESSING AND PRESERVATION ( 影响因子:2.609; 五年影响因子:2.61 )
ISSN: 0145-8892
年卷期: 2022 年 46 卷 1 期
页码:
收录情况: SCI
摘要: Recently, the autofluorescence of Fu brick tea was observed during its production and consumption. Notably, the autofluorescence intensity of Fu brick tea varies in different locations. To explore underlying cause of autofluorescence, we detected ten types of microorganisms from Jingwei Fu tea and Xiangyi Fu tea, which contain the same raw materials but undergo different processing environments, leading to different autofluorescence levels. Consequently, we found that Eurotium cristatum and Aspergillus chevalieri are responsible for the autofluorescence of Fu tea. The differences in autofluorescence intensity are due to different densities of the two fungal species. And the fluorescence intensity of these fungi was affected by pH, temperature, and staining concentration. Therefore, different processing environments lead to different autofluorescence intensities of Fu tea. Additionally, we inoculated the two strains into raw dark tea, we observed altered contents of amino acids, catechins, etc.in dark tea, and these changes correlated with the autofluorescence intensity. Novelty impact statement The cause of autofluorescence of Fu brick tea was obtained. We observed E. cristatum and A. chevalieri produced autofluorescence in these teas. Microorganisms caused changes in various biochemical components of the teas.
分类号:
- 相关文献
作者其他论文 更多>>
-
Selenium-rich Lactobacillus plantarum alleviates salinity stress in Cyprinus carpio: Growth performance, oxidative stress, and immune and inflammatory responses
作者:Che, Xinghua;Geng, Longwu;Zhang, Qing;Wei, Haijun;Xu, Wei;Shang, Xinchi;Che, Xinghua;Geng, Longwu;Zhang, Qing;Wei, Haijun;Xu, Wei;Shang, Xinchi;He, Hailong;Shang, Xinchi
关键词:Selenium -rich Lactobacillus plantarum; Salinity stress; Antioxidants; Inflammatory responses; Cyprinus carpio
-
Two horizontally acquired bacterial genes steer the exceptionally efficient and flexible nitrogenous waste cycling in whiteflies
作者:Yang, Zezhong;Guo, Zhaojiang;Gong, Cheng;Xia, Jixing;Hu, Yuan;Zhong, Jie;Yang, Xin;Xie, Wen;Wang, Shaoli;Wu, Qingjun;Zhang, Youjun;Yang, Zezhong;Liu, Baiming;Ye, Wenfeng;Turlings, Ted C. J.;Zhou, Xuguo
关键词:
-
Proteomics and metabolomics analysis of American shad (Alosa sapidissima) liver responses to heat stress
作者:Luo, Mingkun;Zhu, Wenbin;Fu, Jianjun;Miao, Linghong;Dong, Zaijie;Feng, Bingbing;Xu, Wei;Liang, Zhengyuan;Dong, Zaijie
关键词:Alosa sapidissima; Liver; Heat stress; Proteome; Metabolome
-
Digital financial inclusion, industrial structure and urban-Rural income disparity: Evidence from Zhejiang Province, China
作者:Wen, Changcun;Hu, Bao;Xiao, Yiping
关键词:
-
Analysis revealed the molecular mechanism of oxidative stress-autophagy-induced liver injury caused by high alkalinity: integrated whole hepatic transcriptome and metabolome
作者:Shang, Xinchi;Geng, Longwu;Wei, Hai jun;Liu, Tianqi;Che, Xinghua;Li, Wang;Shi, Xiao dan;Xu, Wei;Shang, Xinchi;Geng, Longwu;Wei, Hai jun;Liu, Tianqi;Che, Xinghua;Li, Wang;Xu, Wei;Shang, Xinchi;Li, Jianhong;Liu, Yuhao;Teng, Xiaohua
关键词:high alkalinity stress; MiRNA-mRNA network; metabolomics; autophagy; miR-140-5p-ULK2 axis
-
Selenium-enriched Lactobacillus plantarum alleviate of high alkalinity-induced microbiota-gut-blood systems affect by improving the gut microbiota
作者:Shang, Xinchi;Xing, Lu;Li, Jian Hong;Shang, Xinchi;Geng, Longwu;Wei, Haijun;Che, Xinghua;Xing, Meiqi;Xu, Wei;Shang, Xinchi;Geng, Longwu;Wei, Haijun;Che, Xinghua;Xing, Meiqi;Xu, Wei
关键词:Se-enriched L. plantarum; High alkalinity; Gut microbial; Tight junction protein; LPS
-
Multifunctional Dual Network Hydrogel Loaded with Novel Tea Polyphenol Magnesium Nanoparticles Accelerates Wound Repair of MRSA Infected Diabetes
作者:Hu, Xulin;Qian, Zhiyong;Hu, Xulin;Qian, Zhiyong;Hu, Xulin;Wang, Chun;Wang, Yao;Hu, Xulin;Wang, Chun;Wang, Yao;He, Jian;Qiao, Liang;Wang, Chun;Wang, Yao;Yu, Rongxin;Xu, Wei;Zhang, Xiangchun;Wang, Fan;Yang, Shuhao
关键词:diabetes wound healing; double network hydrogel; magnesium nanoparticles; MRSA biofilm; tea polyphenol
