Review

Content of Review in our journal     Published in last 1 year |  In last 2 years |  In last 3 years |  All Please wait a minute... For Selected: Download Citations EndNote Reference Manager ProCite BibTeX RefWorks Toggle Thumbnails Select Construction of Polyphenol Self-assembly Antibacterial Biomaterials and Progress in Their Applications XU Wei, YU Rongxin, ZHANG Xiangchun, ZHANG Yiwen, CHEN Hongping, TIAN Baoming, ZHENG Qinqin, WU Yuanyuan, XIA Chen, WEI Bing Journal of Tea Science    2024, 44 (1): 1-15.   DOI: 10.13305/j.cnki.jts.2024.01.004 Abstract （131）      PDF（pc） （4782KB）（90）       Knowledge map    Save Bacterial infection, a leading cause of global mortality, can result in various diseases. While antibiotics are the primary treatment for infections, their excessive and irrational use has led to the emergence of a variety of bacterial drug resistance, posing a serious threat to human health. Plant polyphenols have natural antibacterial properties, but the instability of the phenolic hydroxyl structure limits their bioavailability. To solve this problem, researchers have explored the self-assembly of polyphenols with other substances to construct new nano-biomaterials. These biomaterials not only enhance the stability and bioavailability of polyphenols but also exhibit synergistic antibacterial activity, showing a great promise in the field of antibacterial applications. This review examined the construction strategies and antibacterial properties of different types of polyphenol self-assembled biomaterials developed in recent years, including polyphenol-metal, polyphenol-hydrogel, polyphenol-chitosan, polyphenol-protein and polyphenol-liposome. Furthermore, the challenges and future prospects of the novel polyphenol self-assembling biomaterials in the field of antibacterial application were discussed. Reference | Related Articles | Metrics Select Research Progress on the Mechanism of Natural Tea Components in Alleviating Acne WU Zhiyuan, WANG Kaibo, CHEN Silin, ZHAO Bi, SHEN Shiquan Journal of Tea Science    2024, 44 (1): 16-26.   DOI: 10.13305/j.cnki.jts.2024.01.010 Abstract （73）      PDF（pc） （1220KB）（50）       Knowledge map    Save Tea, as a natural beverage, is highly favored due to its clear health benefits. With in-depth research on the active ingredients of tea in recent years, it has been confirmed that natural components can have positive effects on various disease models. Acne is an inflammatory skin disease with a high prevalence and recurrence rate. In addition to traditional clinical diagnosis and treatment, complementary and alternative therapies represented by patches, skin care, and dietary improvement are also popular. In the market, more and more acne control products claim to add tea active ingredients to the raw materials. Natural components such as tea polyphenols, caffeine, theanine and tea saponins have shown great potential in alleviating acne. In this paper, the effects and molecular mechanisms of different functional components of tea on inhibiting sebum secretion, alleviating acne, improving skin microbial imbalance, and alleviating skin focal inflammation were reviewed, in order to provide reference for the research and development of tea natural products. Reference | Related Articles | Metrics Select Research Progress of Quantitative Evaluation Methods for Tea Grade ZOU Dan, YIN Xiaoli, GU Huiwen, LONG Wanjun, FU Haiyan, SHE Yuanbin Journal of Tea Science    2023, 43 (6): 733-746.   DOI: 10.13305/j.cnki.jts.2023.06.011 Abstract （202）      PDF（pc） （2029KB）（189）       Knowledge map    Save Grade is an important indicator for discerning the quality of green tea and other types of tea, and it is directly related to their selling prices. However, there is often a phenomenon of falsely labeling tea grades in the market, which seriously undermines consumer rights. At present, tea grade is mainly assessed by sensory evaluation. Sensory evaluation, after long-term development, has formed relatively unified standard, but it still has a certain subjectivity. To evaluate the tea grade more accurately and objectively, researchers have developed a series of quantitative evaluation methods for tea grade. Given the significant practical importance of evaluating tea grade, this article provided a comprehensive review of the recent research status in the qualitative and quantitative evaluation of tea grades, including bionic sensing intelligent sensory detection technology, specific chemical components detection and metabolomics techniques. Major problems and challenges on tea grade evaluation were discussed, and future development trend was also prospected in this study. It has positive guiding significance for objective, scientific and standardized evaluation and quality control of tea quality. Reference | Related Articles | Metrics Select Research Progress on Colored Substances in Tea LONG Piaopiao, SU Shengxiao, ZHANG Liang Journal of Tea Science    2023, 43 (5): 593-606.   DOI: 10.13305/j.cnki.jts.2023.05.010 Abstract （373）      PDF（pc） （733KB）（373）       Knowledge map    Save The color of tea leaves and infusions is an important attribute to tea flavor and quality. Colored substances contain chromophore and auxochrome groups, which contribute to producing different shades of green, yellow, and red hue in tea infusion. As the concentrations of colored substances increase, the tea infusions’ color will increase accordingly, presenting different colors such as yellowish-green, reddish-yellow and reddish-brown. Furthermore, fermentation (enzymatic oxidation) and drying stages during processing, as well as temperature, pH, and concentration in sensory evaluation, affect the color and brightness of tea infusions. This review revealed the color formation mechanisms by summarizing the chemical structures, color characteristics, coloration mechanisms and other factors of color substances in tea. It also provided a theoretical evidence for the quality improvement of tea flavor and the innovation of processing technology. Reference | Related Articles | Metrics Select Advances in the Application of Metabolomics in the Study of Physiological and Biochemical Metabolism of Tea Plants [Camellia sinensis (L.) O. Kuntze] MAO Chun, HE Ji, WEN Xuefeng, WU Chuanmei, YI Chengxi, LIAN Jianhong, GUO Wenmin Journal of Tea Science    2023, 43 (5): 607-620.   DOI: 10.13305/j.cnki.jts.2023.05.009 Abstract （211）      PDF（pc） （477KB）（327）       Knowledge map    Save Tea is a leafy perennial crop, and its physiological metabolism is significantly affected by external environmental factors. Main biochemical components such as amino acids, caffeine and tea polyphenols not only give tea unique flavor quality and health characteristics, but also are important contributors to the resistance of tea plants to biotic and abiotic stresses. Metabolomics technologies have the characteristics of high throughput, high sensitivity and systematization. They can identify and quantify tea metabolites comprehensively, accurately and quickly. The in-depth study of metabolomics provides a technical platform for the further development and utilization of tea metabolites. This paper reviewed the applications of metabolomics in the study of physiological and biochemical metabolism (photosynthesis, respiration, carbon and nitrogen metabolism) and metabolism of main quality biochemical components (flavonoids, alkaloids, amino acids, etc.) of tea plants in recent years, and prospected the future applications of metabolomics in the field of tea, so as to provide some theoretical references for further tea management, cultivar breeding and quality improvement. Reference | Related Articles | Metrics Select Present Status and Development Trends of Research on Tea Polysaccharides LI Yan, LIN Yongfeng, LIU Wenmei, ZOU Zehua, LIU Guangming, LIU Qingmei Journal of Tea Science    2023, 43 (4): 447-459.   DOI: 10.13305/j.cnki.jts.2023.04.001 Abstract （261）      PDF（pc） （475KB）（456）       Knowledge map    Save Tea polysaccharides are important active ingredients in tea. Studying the properties of tea polysaccharides and promoting the development of tea polysaccharides products will benefit both the tea industry and the health industry. In the present paper, literatures related to tea polysaccharides from the Web of Science database over the past decade were visually analyzed. The results show that the overall number of papers related to tea polysaccharides showed an increasing trend from 2013 to 2022. The co-occurrence, emergence and frequency analysis of keywords show that the antioxidant activities of tea polysaccharides are a continuous research hotspot, which may also be one of the main trends in future research. At present, global research on tea polysaccharides mainly focuses on the physicochemical properties including monosaccharide composition, solubility, emulsification and biological activities such as antioxidation, anticancer and antidiabetic. Although tea polysaccharides exhibit a variety of biological activities, the underlying mechanisms are still not well understood. Recent studies have shown that tea polysaccharides can exert probiotic potential by affecting gut microbiota. In addition, the transformation and development of tea polysaccharide-related products are particularly insufficient. In the future, researchers can focus on developing biofilm products, drug delivery vehicles and functional foods using tea polysaccharides. Overall, the present paper summarized the main contents and hot spots in the field of tea polysaccharides, aiming to serve as a reference for researchers in this field as well as for the development of the tea polysaccharide industry. Reference | Related Articles | Metrics Select Research Progress on the Bitterness of Green Tea MA Yuanyuan, CAO Qingqing, GAO Yizhou, LIU Yuyi, DENG Sihan, YIN Junfeng, XU Yongquan Journal of Tea Science    2023, 43 (1): 1-16.   DOI: 10.13305/j.cnki.jts.2023.01.001 Abstract （501）      PDF（pc） （602KB）（776）       Knowledge map    Save Tea, as a hobby drink, the flavor is its first quality attribute. The presentation of its taste is the comprehensive perception effect of the human taste organs on the flavor components in tea infusion, which is generally manifested as bitter, astringent, fresh, sweet and other sensory experiences. Among them, bitterness is the most easily perceived taste attribute, and as a crucial factor affecting the flavor quality of tea. Meanwhile, due to the bitter taste, summer and autumn tea resources are faced with the dilemma of large abandonment, resulting in a great waste of resources. Based on this, this paper reviewed the physiological basis of bitter perception and the evaluation methods of bitter taste perception. Taking green tea infusion as the main carrier, the bitter taste components of tea were systematically integrated, and the interaction effect between other taste monomers and bitter compounds, as well as the regulatory mechanism of post-treatment on the bitter taste of tea infusion were discussed. It was expected to enrich the theoretical basis of taste chemistry and clarify the flavor characteristics of bitter compounds of tea, the taste mechanism and the interaction effect between taste substances, and provide theoretical reference for promoting the high-value utilization and taste regulation of summer and autumn tea. Reference | Related Articles | Metrics Select Research Progress of Tea Plant (Camellia sinensis) Growth under Light Regulation GAI Shujie, WANG Yixiong, LI Lan, LIU Shuoqian, LI Yinhua, CHENG Xiao, XIA Mao, LIU Zhonghua, ZHOU Zhi Journal of Tea Science    2022, 42 (6): 753-767.   DOI: 10.13305/j.cnki.jts.2022.06.005 Abstract （458）      PDF（pc） （882KB）（449）       Knowledge map    Save The growth and development of tea plants are affected by external environmental factors, and light is one of the most important factors, which can affect the growth and secondary metabolites of tea plants alone or in coordination with other environmental factors such as temperature, etc. This paper introduced the research progress of light regulation of tea plant growth and metabolic at domestic and abroad in recent years. The main points of discussion were the effects of different spectral bands, photon flux and photoperiod on tea plant growth, types and contents of metabolites. It’s mainly for clarifying the light regulated metabolic process of tea plant growth, analyzing the light regulated mechanism, and providing theoretical support for the development of light regulated metabolic technology that can be used in production practice. Reference | Related Articles | Metrics Select Recent Advances in Catechin Biomedical Nanomaterials YU Rongxin, ZHENG Qinqin, CHEN Hongping, ZHANG Jinsong, ZHANG Xiangchun Journal of Tea Science    2022, 42 (4): 447-462.   DOI: 10.13305/j.cnki.jts.2022.04.004 Abstract （426）      PDF（pc） （2659KB）（514）       Knowledge map    Save Catechins are a kind of bioactive substances rich in tea, which have the functions of anti-oxidation, anti-tumor, anti-virus, anti-inflammatory and immune regulation. However, due to the high activity of phenolic hydroxyl groups, catechins are easy to lose in vitro and in vivo activities, resulting in lower bioavailability. The recent development of nanobiotechnologies is expected to solve the problem of low bioavailability of catechins through ligand design, accurate synthesis and intelligent regulation, which can expand its application in the field of life and health. In this review, a summary on the progress of catechin biomedical nanomaterials in recent years, including the anti-tumor, antibacterial, anti-inflammatory, drug delivery and anti-virus activities, was firstly made. Later, the construction and biological mechanism of catechin biomedical nanomaterials were discussed in detail. Finally, future perspectives on the design and application of novel catechin nanomaterials were provided. Reference | Related Articles | Metrics Select Research Advances of Fluoride Accumulation Mechanisms in Tea Plants (Camellia sinensis) XING Anqi, WU Zichen, XU Xiaohan, SUN Yi, WANG Genmei, WANG Yuhua Journal of Tea Science    2022, 42 (3): 301-315.   DOI: 10.13305/j.cnki.jts.20220416.003 Abstract （883）      PDF（pc） （876KB）（476）       Knowledge map    Save Camellia sinensis (L.) O. Kuntze is a hyper fluoride (F) accumulation plant, whose F content in tea leaves is much higher than other plants, without any toxic symptoms. However, F is not an essential element for tea plant growth, and under high F stress, F affects the normal growth of plants by destroying the cell structure and inhibiting enzyme activities. In order to provide a theoretical basis for the future study of F accumulation in tea plants, the research progresses in the absorption, enrichment and accumulation/detoxification mechanisms of F in tea plants were reviewed. Reference | Related Articles | Metrics Select Research Progress of Tea Quality Evaluation Technology LIU Qi, OUYANG Jian, LIU Changwei, CHEN Hongyu, LI Juan, XIONG Ligui, LIU Zhonghua, HUANG Jian'an Journal of Tea Science    2022, 42 (3): 316-330.   DOI: 10.13305/j.cnki.jts.20220416.001 Abstract （912）      PDF（pc） （812KB）（954）       Knowledge map    Save The quality of tea is the embodiment of the shape and inner quality of tea, and evaluating the quality of tea quickly and accurately is essential for tea trade and processing. Sensory evaluation, composition analysis and detection, and emerging technologies are the main tea quality evaluation techniques at present. This article summarized the research progress of three major evaluation technologies in recent years, and focused on the development trend of emerging technologies. Sensory evaluation is greatly influenced by subjective factors, but combined with quantitative description and analysis can reduce the influence of subjectivity. Component analysis detection has high threshold, difficult operation, time-consuming and labor-consuming, and the results obtained are relatively accurate. Emerging technologies are simple, fast, and non-destructive, but at present they cannot achieve satisfactory accuracy. In the tea product diversification today, only multi-dimensional comprehensive utilization of multiple methods can quickly and efficiently detect the quality of tea, and provide assistance for the healthy and efficient development of the tea industry. Reference | Related Articles | Metrics Select Effects of Intercropping Functional Plants on the Ecosystem Functions and Services in Tea Garden SHI Fan, HUANG Hongjing, CHEN Yanting, CHEN Lilin Journal of Tea Science    2022, 42 (2): 151-168.   DOI: 10.13305/j.cnki.jts.2022.02.011 Abstract （549）      PDF（pc） （1493KB）（433）       Knowledge map    Save As one of the main measures of habitat management, reasonable intercropping of functional plants in tea garden can shade tea bushes and keep them warm, conserve water and soil, increase fertility and promote growth, as well as maintain micro-habitat stability. It also can attract natural enemies, repel pests, reduce the damage caused by diseases, insects, and weeds in tea garden, therefore it is beneficial for improving the quality and efficiency of the tea. However, unreasonable intercropping will destroy the micro-habitat of tea garden, compete for nutrients, thus affecting the growth of tea plants. In this paper, the intercropping of functional plants and their effects on the ecosystem functions and services in tea garden in recent years were reviewed. These effects mainly included the species, management models, functions and common problems with the most widely used functional plants, as well as the regulatory effects of intercropping of functional plants on the growth and development of tea plants, tea quality and yield, and tea pests. The ultimate goal of this paper was to provide guidance for the application of intercropping measures to promote the comprehensive regulation of pests in tea garden, and enhance the ecosystem functions and services of tea garden. Reference | Related Articles | Metrics Select Research Progress of Tea Beer CHEN Dequan, ZHU Yan, ZOU Chun, YIN Junfeng, CHEN Jianxin, XU Yongquan Journal of Tea Science    2022, 42 (2): 169-178.   DOI: 10.13305/j.cnki.jts.2022.02.005 Abstract （638）      PDF（pc） （708KB）（369）       Knowledge map    Save Tea beer is a new type of beer, obtained by adding tea or tea extract in the brewing process with the dual flavor characteristics of tea and beer. The development of tea beer would not only enrich the types, flavors, and physiological effects of beer, but also improve the utilization rate and additional value of tea resources and benefit for the common development of tea and beer industries. However, the studies of tea beer on pretreatment of raw materials, fermentation and clarification technologies were still not mature. Therefore, this paper systemically summarized the processing technologies of tea beer, including the pretreatment of raw materials, fermentation and clarification technologies. Based on that, we made the prospects for the future of tea beer, aiming to provide a reference for the research and development of tea beer in depth. Reference | Related Articles | Metrics Select Research Progress on the Biosynthesis of Monomeric and Polymeric Catechins in Camellia sinensis LIU Yajun, WANG Peiqiang, JIANG Xiaolan, ZHUANG Juhua, GAO Liping, XIA Tao Journal of Tea Science    2022, 42 (1): 1-17.   Abstract （442）      PDF（pc） （1664KB）（264）       Knowledge map    Save Catechin compounds, mainly including monomeric catechins and polymericcatechins, are the main components of tea polyphenols in Camellia sinensis and the decisive components of the "taste" of green tea. The synthesis and accumulation of tea catechin compounds have remarkable tissue- and organ- specificity. The leaves mainly biosynthesize monomeric catechins, and roots mainly accumulate polymeric catechins. The downstream enzymes of flavonoid metabolism pathway, leucoanthocyanidin reductase (LAR) and anthocyanin reductase (ANR) are the key enzymes determining the types of catechins. This paper mainly reviewed the research progress on the biosynthesis, accumulation, and transcriptional regulation of catechins in Camellia sinensis, with emphasis on the latest research progress in the function and transcriptional regulation of LAR, ANR and leucoanthocyanidin dioxygenase (LODX). Our views on the unsolved problems in catechin synthetic pathway were also proposed. Reference | Related Articles | Metrics Select Research Advance of Tea Plant Genome and Sequencing Technologies WANG Pengjie, YANG Jiangfan, ZHANG Xingtan, YE Naixing Journal of Tea Science    2021, 41 (6): 743-752.   Abstract （764）      PDF（pc） （564KB）（512）       Knowledge map    Save The tea plant has the characteristics of high heterozygosity, large genome and high duplication, which has led to the slow progress of the preliminary research on the tea plant genomes. The rapid development of genome sequencing technologies has strongly promoted the deciphering and improvement of the tea plant genomes. This article reviewed the development of genome sequencing technologies, and classified the assembly and research progress of tea plant genomes in recent years according to the draft level, chromosome level and haplotype level. By discussing the future application and development direction of tea plant genomes, it provided a reference for the functional genomics research and precision molecular breeding in tea plants. Reference | Related Articles | Metrics Select Camellia Ptilophylla and Specific Chemical Components, Theirs Health Beneficial Effects WU Wenliang, TONG Tong, HU Yao, ZHOU Hao, YIN Xia, ZHANG Shuguang Journal of Tea Science    2021, 41 (5): 593-607.   DOI: 10.13305/j.cnki.jts.20210917.002 Abstract （852）      PDF（pc） （1145KB）（383）       Knowledge map    Save Cocoa tea (Camellia ptilophylla Chang) is a specific tea resource in China, and theobromine (TB) and gallocatechin gallate (GCG), as the dominant chemical components of cocoa tea, have various health effects. This paper summarized intervention effects and mechanisms of cocoa tea, TB and GCG on cardiovascular diseases, cancers, obesity, diabetes, neurodegenerative diseases, dental diseases, respiratory diseases and kidney diseases, etc. This review would provide a theoretical reference for the development of functional cocoa tea products. Reference | Related Articles | Metrics Select Research Progress on the Volatile Compounds of Premium Roasted Green Tea SHI Yali, ZHU Yin, MA Wanjun, YANG Gaozhong, WANG Mengqi, SHI Jiang, PENG Qunhua, LIN Zhi, LYU Haipeng Journal of Tea Science    2021, 41 (3): 285-301.   DOI: 10.13305/j.cnki.jts.2021.03.001 Abstract （762）      PDF（pc） （622KB）（406）       Knowledge map    Save Aroma is one of the key indicators to evaluate tea quality, and aroma quality is formed by the complex interactions between different volatile compounds. Premium roasted green teas generally have characteristics of excellent flavor quality, and are the most typical and representative Chinese green tea. In recent years, studies on their volatile compounds had increased gradually and made good progress. However, there were very few systematic explanations on the composition characteristics in aroma compounds of diverse high-quality roasted green teas. Therefore, the present study summarized the research progression in volatile compounds of premium roasted green teas in recent twenty years, enumerated the aroma compounds, illuminated the common compounds, and further discussed the key aroma compounds. These results will provide scientific evidence for the flavor evaluation and aroma quality control for the premium roasted green tea. Reference | Related Articles | Metrics Select The Antiviral Properties of Tea XIONG Ligui, LIU Sihui, HUANG Jian'an, LIU Zhonghua Journal of Tea Science    2021, 41 (2): 143-158.   DOI: 10.13305/j.cnki.jts.2021.02.001 Abstract （940）      PDF（pc） （566KB）（640）       Knowledge map    Save Tea (Camellia sinensis) is known as a global health beverage, and global tea consumption increases due to its biological activities. In the last 30 years, antiviral activities of tea and its components, especially tea polyphenols, with different modes of action were demonstrated on diverse families of viruses, such as influenza virus, coronavirus, hepatitis virus, and human immunodeficiency virus, etc. This review summarized the current knowledge on the antiviral activities of tea and its components. Most of these studies demonstrated antiviral properties of tea and its components by in vitro biochemical or cell experiments with little rodent and clinical studies. Therefore, it is still unclear whether the antiviral effects of daily tea consumption are available. More large-scale randomized intervention and epidemiological/clinical studies are needed to confirm clinical efficacy of tea and its components. Reference | Related Articles | Metrics Select Inhibition of Active Compounds in Tea on Melanin Formation WANG Wei, CHEN Lin, WANG Weiwei, ZHANG Jianyong, JIANG Heyuan Journal of Tea Science    2021, 41 (1): 7-18.   DOI: 10.13305/j.cnki.jts.20201209.002 Abstract （611）      PDF（pc） （15038KB）（342）       Knowledge map    Save Melanin is a kind of high molecular biological pigment. The color of skin is determined by the type and accumulation of melanin as well as the redistribution and degradation of melanosome. Solar ultraviolet radiation is the most common cause of melanin formation. Although melanin can protect skin cells from UV damage, the abnormal accumulation of melanin will lead to diseases related with melanin disorders. Therefore, the development of green, safe and efficient melanin inhibitors extracted from plants has become a research hotspot in recent years. Many studies have proved that extract or monomer compounds of tea could significantly inhibit (a) the activity of tyrosinase, (b) the growth, proliferation, infiltration and metastasis of melanocytes, (c) the occurrence of skin cancer. In this paper, the research progress of tea active compounds inhibiting melanin formation in acellular tyrosinase test system, cell test system, animal model and human skin was reviewed to fully explore the key active compounds, find a safe and efficient inhibitor of melanin synthesis and provide reference for the comprehensive utilization of tea products and increasing the added value of tea industry. Reference | Related Articles | Metrics Select Advances of Magnesium Nutrition in Tea Plant ZHANG Qunfeng, NI Kang, YI Xiaoyun, LIU Meiya, RUAN Jianyun Journal of Tea Science    2021, 41 (1): 19-27.   DOI: 10.13305/j.cnki.jts.20201209.001 Abstract （700）      PDF（pc） （10936KB）（197）       Knowledge map    Save Magnesium (Mg) is not only the central atom of chloroplast, but also participates in the biosynthesis of quality-related components (theanine) in tea plant. The impacts of Mg on tea quality and plant growth have been well established. However, Mg fertilizer is still not widely used in tea gardens of China, although Mg deficiency frequently occurs. This paper reviewed main studies of Mg nutrition in tea plant in the past 30 years, including the application of Mg nutrition in tea gardens, impact of Mg on tea quality, and interactions of Mg and other nutrients. In view of the shortage of Mg in tea garden soil, insufficient input of Mg fertilizer and unclear mechanism of Mg utilization in tea plant, prospect of research on Mg in the future were put forward. Reference | Related Articles | Metrics Select Research Progress of Near-infrared Spectroscopy in Tea Quality Control and Equipment Development REN Guangxin, JIN Shanshan, LI Luqing, NING Jingming, ZHANG Zhengzhu Journal of Tea Science    2020, 40 (6): 707-714.   DOI: 10.13305/j.cnki.jts.2020.06.001 Abstract （880）      PDF（pc） （1236KB）（493）       Knowledge map    Save Tea is an economic crop with Chinese characteristics and a high value-added natural beverage. Rapid and accurate nutrition diagnosis and quality monitoring are inevitable requirements for ensuring the quality of tea products. The limitations of traditional tea quality assessment methods and recent emerging rapid detection techniques were revealed in this study. The characteristics of near-infrared spectroscopy (NIRS) technology and the evolution of keywords from the published studies on the application of the NIRS method in the field of tea were presented. The research progress on the rapid detection of key components of tea products, the quality control of tea products, the development of the digital fast NIRS analyzer, and the development of technical standards were reviewed in detail. The development directions of the NIRS technology in the field of tea analysis were proposed and discussed. Reference | Related Articles | Metrics Select Research Progress of Tea Rhizosphere Microorganisms HUANG Fangfang, LI Qin, HUANG Jian'an Journal of Tea Science    2020, 40 (6): 715-723.   DOI: 10.13305/j.cnki.jts.2020.06.002 Abstract （516）      PDF（pc） （339KB）（281）       Knowledge map    Save The rhizosphere microbial community is rich in variety and quantity, which affects the physiology and development of plants and is called the second genome of plants. The specific ecosystem of tea rhizosphere is very important for the growth and health of tea plants, and understanding the microbes in the rhizosphere of tea plants is very important to improve the function of its rhizosphere ecosystems. Based on the ecological functions of rhizosphere microorganisms and the progress of their research methods, the research progress of tea rhizosphere microorganisms from the aspects of the diversity of tea rhizosphere microorganisms, its influencing factors and prospects for the urgent research directions was summarized. The paper provided a reference for improving the micro-environment of tea plants and tea quality. Reference | Related Articles | Metrics Select Research Progress of Tea Polysaccharides in Regulating Obesity OUYANG Jian, ZHOU Fang, LU Danmin, LI Xiuping, HUANG Jian'an, LIU Zhonghua Journal of Tea Science    2020, 40 (5): 565-575.   DOI: 10.13305/j.cnki.jts.2020.05.001 Abstract （632）      PDF（pc） （422KB）（436）       Knowledge map    Save With the improvement of people's living standards, the incidence of obesity has been rising, which has become a serious health problem of the society. Tea polysaccharide, as an acid heteropolysaccharide combined with protein, can regulate food intake and energy absorption, regulate adipogenesis, enhance antioxidant defense enzyme activities and reduce inflammation, regulate intestinal flora disorders and maintain different pathways such as intestinal barrier integrity, thereby effectively regulates obesity. The regulation mechanism of tea polysaccharides on obesity was reviewed based on the researches in recent years. Reference | Related Articles | Metrics Select Research Progress of Gallic Acid in Puer Tea and Its Improvement of Diet Induced Glucose and Lipid Metabolism Disorder WANG Shaomei, LI Xiaojun, SONG Wenming, PAN Lianyun Journal of Tea Science    2020, 40 (4): 431-440.   DOI: 10.13305/j.cnki.jts.2020.04.001 Abstract （820）      PDF（pc） （327KB）（249）       Knowledge map    Save The disorder of glucose and lipid metabolism is one of the important causes of cardiovascular diseases, diabetes and fatty liver. Gallic acid of Puer tea can ameliorate diet induced glucose and lipid metabolism disorder through regulating energy metabolism and adipocyte differentiation, promoting glucose absorption and utilization, and increasing insulin sensitivity. Gallic acid regulates mitochondrial energy metabolism, insulin sensitivity and glucose absorption to maintain glucose and lipid metabolism homeostasis through AMPK and IR-Akt pathway and PPAR gamma receptor. In this review, we summarized gallic acid in Puer tea and its mechanism to improve the disorder of glucose and lipid metabolism induced by diet. Reference | Related Articles | Metrics Select Research Progress of Proanthocyanidins in Tea GAO Chenxi, HUANG Yan, SUN Weijiang Journal of Tea Science    2020, 40 (4): 441-453.   DOI: 10.13305/j.cnki.jts.2020.04.002 Abstract （749）      PDF（pc） （517KB）（354）       Knowledge map    Save Proanthocyanidins are an important kind of polyphenols in tea leaves, and regarded as natural antioxidants. In recent years, proanthocyanudins in tea leaves had attracted widespread attention. Relative research would promote the study on polyphenol metabolic pathways during tea growth process. Moreover it is of great significance in conducting fundamental research on tea plant biochemistry. Based on domestic and overseas research status, this study summarized the relationship between proanthocyandins and anthocyandins, the biosynthetic pathways of procyanidins in tea and the condensation mechanism of proanthocyandins. The types, the application status and content difference of proanthocyanidins were also concerned in an attempt to discuss the development trend in the future. Reference | Related Articles | Metrics