Fermentation characteristics and probiotic activity of a purified fraction of polysaccharides from Fuzhuan brick tea

Polysaccharides from Fuzhuan brick tea(FBTPS),one of most important bioactive components in tea,showed various health-promoting functions.Our previous work demonstrated that the crude FBTPS(CFBTPS)could modulate the gut microbiota.However,which purified fraction in CFBTPS contributing to the modulation of gut microbiota remains unclear.Thus,the fermentation characteristics and probiotic activity of a purified fraction(FBTPS-2-1)of CFBTPS were evaluated in this work.The results showed that gut microbiota could utilize FBTPS-2-1 to produce short-chain fatty acids including acetic,propionic,n-butyric and n-valeric acids.FBTPS-2-1 could modulate the structure and metabolic pathways of gut microbiota.FBTPS-2-1 could increase the health-promoting gut microbiota such as Prevotellaceae and Bifidobacteriaceae,and decreased the harmful bacteria such as Enterobacteriaceae and Fusobacteriaceae.The results of metagenomics showed that Prevotella copri and Megamonas funiformis were the dominant bacteria after fermentation of FBTPS-2-1.Furthermore,FBTPS-2-1 could regulate the biosynthesis and metabolism pathways of gut microbiota.Thus,the enrichment of food with FBTPS-2-1 is expected as a potential strategy for promoting human health due to modulation of gut microbiota.

Structure variety and its effects on biological activity of tea polysaccharides

Tea polysaccharides(TPSs),one of the major bioactive ingredients in tea,have been widely studied due to their variety of biological activities,including antioxidant,cancer prevention,hypoglycemia,anti-fatigue,anti-coagulant,anti-obesity and immunomodulatory effect.The biological effectiveness of TPSs has direct relation with their structures such as monosaccharide composition,molecular weight,glycosidic linkages,conformation and others,which can be influenced by tea materials,processing methods,extraction and purification procedures among others.Comparing to the study of tea polyphenols,the exploration of TPSs in structural elucidation and biofunctionality is very preliminary.Yet several factors affecting the structural change of TPSs have been studied and identified.Consequently,the variation of some TPS biological activity brought by the change of TPS structures has been evaluated and preliminary correlation of structure activity relationship of TPSs has been performed.Therefore,this review aims to serve as a summary research report regarding the influencing factors on TPSs structures and consequential effects on the biological activities of TPSs.We hope to provide updated information and systematic references for future study and functional food development of TPSs.

Optimization of Extraction Process of Yingshan Cloud Tea Polysaccharides by Response Surface Methodology

[Objectives] This study was conducted to explore the optimal process conditions for hot water extraction of polysaccharides from Yingshan cloud tea. [Methods] Based on single factor experiments, with the extraction rate of polysaccharides as the response value and liquid-to-solid ratio, extraction temperature and extraction time as investigation factors, the optimum extraction process for tea polysaccharides from Yingshan cloud tea was determined by Box-Behnken central componse design and response surface analysis method. [Results] Under the conditions of the liquid-to-solid ratio of 50∶1(ml/g), the extraction temperature at 94 ℃ and the extraction time of 210 min, the extraction rate of polysaccharides from Yingshan cloud tea reached 2.16%. [Conclusions] This study will provide theoretical basis and reference for subsequent related research.

Production and characterization of an extracellular polysaccharide of antarctic marine bacteria Pseudoalteromonas sp. S-15-13

Twenty-seven antarctic bacteria producing extracellular polysaccharide （EPS） were selected from 57 strains by staining technology. The effects of major environmental factors on the growth and EPS production of Pseudoalteromonas sp. S - 15 - 13 were investigated, and the EPS was separated and purified for characterization analysis. The results showed that the optimal conditions for the EPS production were culture period, 56 h; growth temperature, 8 ℃ ; carbon source, 1.0% glucose; NaCI concentration, 3.0% ; pH 6.0 - 7.0. The EPS was purified by cold ethanol precipitation, proteins removal, ion exchange chromatography and gel chromatography technology. The molecular mass of EPS - H was 62 kDa as determined by the high performance gel permeation chromatography. Its sugar composition was a homopolymer of marmose analyzed by gas chromatograph spectroscopy. After repeated freezing and thawing of the bacteria hiomass in the presence of EPS, the bacterial growth was much higher than that observed after freezing in the absence of EPS and the difference augmented with the increase of freeze-thaw cycles. It is hypothesized that the adaptation of Pseudoalteromonas sp. S- 15 - 13 to the antarctic marine conditions, characterized by low temperature, high NaCl concentration and repeated freeze-thaw cycles, might be related to the EPS production ability.

Optimization of Supercritical Fluid Extraction of Tea Flower Polysaccharides by Using Response Surface Method

Polysaccharide production from tea flower(TFPS) was carried out using supercritical fluid extraction(SFE).Response surface methodology(RSM),based on a five level,four variable small central composite design,was employed to obtain the best possible combination of extraction time,pressure,temperature and ethanol content of modifier for maximum production.The optimum conditions were as follows:extraction time of 170 min,pressure of45 MPa,temperature of 75 ℃,and 50% aqueous ethanol solution as modifier.Under these conditions,the experimental yield was 6.56 ± 0.37%,which was similar to the value predicted by the model.Monosaccharide composition of TFPS was fucose,rhamnose,arabinose,xylose,galactose,glucose,mannose,fructose,ribose,galacturonic acid and glucuronic acid in a molar percent of 31.69,0.21,0.49,1.29,35.82,0.97,1.63,18.34,7.88,1.06 and 0.63.Compared to other extraction methods,SFE could achieve higher yield and gain more types of monosaccharide.

茶多糖-海藻酸钠复合涂膜对草莓的保鲜效果研究

采用不同浓度的海藻酸钠与茶多糖配制涂膜保鲜剂的章姬草莓,以未涂膜处理的草莓作空白对照,于4℃环境下贮藏,每2d测定各项保鲜指标,比较不同处理组草莓品质的变化情况。与空白对照组和2%茶多糖处理组相比,茶多糖-海藻酸钠复合涂膜可降低草莓的失重率、腐烂程度,减缓可滴定酸和Vc含量的流失,抑制草莓细胞膜脂的氧化,从而改善章姬草莓在贮藏期间的品质。其中2 wt%茶多糖与2 wt%海藻酸钠复合涂膜效果最佳。

TEA CO_2激光器输出平顶模按厄米-高斯模的展开

TEA CO2激光器输出光束的能量密度分布一般为平顶型分布.为了给研究和分析TEACO2激光器输出光束提供一种新的处理方法,采用FGB理论,对实验测量的一台TEA CO2激光器输出的实际平顶型光斑的能量密度分布按厄米-高斯函数进行了展开.根据展开结果,对TEACO2激光器输出光束的空间分布特性进行了分析与讨论.初步证实了TEA CO2激光器输出光束的能量密度分布可以按厄米-高斯函数展开.

TEA及其同源类似物TPeA拮抗β淀粉样蛋白25-35引起皮层神经元细胞活力降低

目的探讨TEA及其同源类似物TPeA对Aβ25-35所致的培养皮层神经元细胞毒性作用的影响。方法利用细胞毒性检测技术,如细胞活力检测cck-8、乳酸脱氢酶(LDH)释放检测和Calcein-AM染色,观察TEA及其同源类似物TPeA对Aβ25-35所致的培养皮层神经元细胞活力的影响。结果TEA及其同源类似物TPeA能够拮抗Aβ引起神经元死亡,包括Aβ引起细胞活力降低,LDH的释放增多,以及活细胞数目的减少。结论钾通道在Aβ引起神经元毒性作用中发挥重要作用,电压依赖性钾通道参与了Aβ引起的神经元死亡,钾通道可能成为防治神经退行性疾病的重要靶点。

茶多糖对海藻酸钠-淀粉-茶末复合膜性能的影响

目的:开发绿色环保海藻酸钠-淀粉-茶末复合膜。方法:向海藻酸钠-淀粉-茶末复合膜中添加不同质量分数的茶多糖,探究其对复合膜全红外阻隔率、色差、水溶性、水蒸气透过系数、力学性能、厚度、含水率、自由基清除率、抑菌性等性能的影响。结果:茶多糖和海藻酸钠有很强的相互作用。当茶多糖质量分数为5.00%时,复合膜拉伸强度最大,为9.71 MPa;断裂伸长率最大,为25.42%,水蒸气透过系数最小,为2.38×10^(-9)g·mm/(cm^(2)·d·Pa),此时其抑菌性能最好。复合膜的抗氧化性随茶多糖添加量的增加而增加,最高可达85.49%。结论:茶多糖对复合膜理化性质及抑菌抗氧化性能均有一定影响。当茶多糖质量分数为5.00%时,复合膜具有最佳的力学性能、阻湿性能及抑菌性能。

响应面法优化乌龙茶提取茶多糖的工艺研究

以乌龙茶为原料,选用回流法提取茶多糖,根据Plackett-Burman实验设计考察提取温度、提取时间、提取次数、料液比等多种因素对茶多糖提取率的影响;在单因素实验基础上,运用Box-Behnken实验设计进行响应面剖析.实验结果显示,当提取温度100℃、提取时长80 min、料液比1∶50时,乌龙茶茶多糖的提取率显著增加,得率是6.13%.对最佳提取工艺开展验证,结果显示实测均值与模型估计值相近,表明该提取工艺平稳可行.

乌龙茶多糖OTPS 2-1的光谱特性、形貌特征及热特性研究

采用纤维素和葡聚糖凝胶柱层析法分离纯化 ,获得乌龙茶多糖主要组分 OTPS 2 -1 .经 GC,HPLC,UV,IR和 GPC-LLS证实 OTPS2 -1是富含糖醛酸和少量蛋白质的三元糖复合物 ,相对重均分子量为8.877× 1 0 4 ,糖基由半乳糖、葡萄糖、阿拉伯糖、岩藻糖和鼠李糖组成 ,其摩尔比为 7.5 8∶ 2 .1 4∶ 7.0 5∶1 .76∶ 1 .0 2 .利用 AFM,QELS及 LSCM观察 OTPS2 -1在溶液中的形貌特征 ,结果表明 ,OTSP2 -1在溶液中呈直径 0 .2～ 0 .5μm、高度 0 .3～ 0 .6μm的短棒形不均一聚集体 ,并具有强烈的荧光 ,溶液的 p H值显著影响其聚集行为 .p H值、离子强度和络合物等环境因素的改变 ,均导致多糖立体构象和非对称性的变化 .OTPS2 -1在 SEM低倍镜下呈折叠卷曲形貌 ,在高倍镜下呈现平整的图像 .综合热分析结果表明 ,在加热过程中 ,多糖有 3次大的质量损失过程 ,出现 3次吸热峰和放热峰 .提示茶叶经过半发酵处理后 ,多糖组成、分子质量分布以及分子间相互作用可引起微观形貌、链构象和聚集行为的变化 。

蒽酮-硫酸法测定茶多糖含量的研究

对蒽酮-硫酸法测定茶多糖含量的条件进行了研究。结果表明,蒽酮浓度0.05%,样品溶液与蒽酮-硫酸的比1:4,100℃反应5min后立即于冰水中冷却30min,675nm比色,以半乳糖为标准,可提高茶多糖测定的准确度。平均回收率达94.58%±1.68%,重现性好,RSD为0.548%(n=6)。

雅安藏茶茶多糖对^(60)Co-γ射线辐照损伤小鼠抗氧化和造血功能的防护作用

为探究雅安藏茶茶多糖对^(60)Co-γ射线辐射损伤小鼠抗辐射作用的影响,从雅安藏茶中提取茶多糖,用不同浓度(50、100、200 mg·kg-1·d-1)的茶多糖连续15 d灌胃小鼠,在第6天采用5Gy的^(60)Co-γ射线一次性全身辐照各组小鼠,灌胃第16天测定各组小鼠外周血细胞、肝脏组织总抗氧化能力(T-AOC)、总超强氧化物歧化酶(T-SOD)活性和总蛋白(TP)含量等指标。结果表明,与单纯辐照组相比,雅安藏茶茶多糖能显著提高辐照损伤小鼠的外周血细胞数量,极显著提高肝脏组织T-AOC、T-SOD活性和股骨骨髓DNA含量,极显著降低肝脏MDA含量,缓解了免疫器官胸腺的萎缩;且随着茶多糖浓度的增加,其抗辐射作用效果增强。综上,雅安藏茶茶多糖对^(60)Co-γ射线辐照损伤小鼠抗氧化功能和造血功能具有较强的防护作用,且具有一定的剂量效应。本研究结果为进一步深入探究茶多糖防辐射作用机理提供了新参考,也为雅安藏茶辐照保健功效研究提供了一定的理论依据。

具有抗氧化活性茶多糖TPS-Ⅱ的分离纯化及其性质研究

从六安炒青绿茶水提物中分离纯化得到具有抗氧化作用的茶多糖组分TPS-Ⅱ,经电泳和FPLC方法检测TPS-Ⅱ为均一组分;其总糖85.3%、糖醛酸28.0%、蛋白2.8%,分子量为1.01×105D;气相色谱法分析得知其单糖组成为L-鼠李糖、L-岩藻糖、L-阿拉伯糖、D-木糖、D-甘露糖、D-葡萄糖、D-半乳糖,摩尔比为2.98:1.58:4.27:1.00:1.82:2.25:6.98;红外光谱分析显示TPS-Ⅱ呈现多糖吸收特征峰,β-消去反应推断TPS-Ⅱ中多糖与蛋白的连接为非O-型糖肽键。

响应面法优化超声-微波协同辅助提取茶多糖工艺

以水作为提取溶剂,粗绿茶作为原料,通过响应面优化超声-微波协同辅助提取茶多糖的最佳工艺条件,比较传统水浴浸提法和超声-微波协同辅助提取法对茶多糖得率、纯度和结构的影响。结果表明:超声-微波协同辅助提取茶多糖的最佳工艺条件为提取时间23min、料液比1:30(g/mL)、微波功率90W。与传统的水浴浸提法相比,超声-微波协同辅助提取法在较短的超声提取时间下,茶多糖的得率从2.95%提高到4.19%,纯度从70.15%提高到86.08%,两种提取方法所得的茶多糖基团基本相同。

高效阴离子交换分离-脉冲安培检测茶叶多糖中的半乳糖、葡萄糖、甘露糖和果糖

建立了高效阴离子交换分离-脉冲安培检测(HPAE-PAD)同时分离测定茶叶多糖中的半乳糖、葡萄糖、甘露糖和果糖的分析方法。以Metrosep Carb1(150×4.0mm)阴离子交换柱为分离柱,以6.0mmol/LNaOH溶液将4种单糖从分离柱上洗脱,淋洗液流速为1.0ml/min,总分析时间为45min。在优化的分离条件下4种单糖的检出限为0.125～2.0mg/L(进样体积20μl,峰高定量)。20mg/L的半乳糖、葡萄糖、甘露糖和30mg/L的果糖混标溶液连续7次进样,峰高的相对标准偏差为5.82%～14.19%,保留时间的相对标准偏差为2.03%～2.26%,样品测定的回收率为91.8%～99.3%。用所建立的方法快速、有效分析了4种茶叶多糖中的4种单糖,并得到了满意的检测结果。

苯酚-硫酸法与蒽酮-硫酸法测定绿茶茶多糖的比较研究

对苯酚-硫酸法和蒽酮-硫酸法在茶多糖测定中的差异进行比较,并对苯酚-硫酸法的检测条件进行优化,在单因素试验的基础上,选定苯酚质量分数、硫酸用量、显色时间3个因素,利用响应面试验考察各因素变化对吸光度的影响。通过优化得到最佳测定条件为4.8%苯酚溶液1 mL、浓硫酸5 mL、显色时间29 min、检测波长488 nm。在此条件下的标准曲线在0-0.2 mg/mL范围内呈良好线性关系。该方法对3种样品的加标回收率均不小于97.55%,重复性实验相对标准偏差为1.82%,说明此方法准确可靠、稳定性高,适合于茶多糖的测定。

植物多糖对日本血吸虫DNA疫苗pVIVO2-IL12-Sj23增效作用的研究

目的以提取天然香菇菌多糖和茶叶多糖混合物为佐剂,探讨混合型植物多糖对血吸虫疫苗的保护性免疫增效作用。方法构建日本血吸虫重组质粒pVIVO2-IL12-Sj23。BALB/c小鼠随机分为3组,每组10只。A组每鼠股四头肌注射生理盐水100μl为对照,B组每鼠注射pVIVO2-IL12-Sj23 100μg,C组每鼠注射pVIVO2-IL12-Sj23 100μg加等量多糖混合物。小鼠接种后第4周以日本血吸虫尾蚴40±2条经皮肤攻击感染,感染后6周剖杀,计算减虫率及每克肝组织减卵率,同时用ELISA测定血清中特异性抗体水平。结果C组减虫率和每克肝组织减卵率分别为64.3%和79.9%,B组则分别为45.5%和58.3%,B、C两组的差异有统计学意义(P<0.05)。B、C两组IgG水平均较A组显著升高(P<0.05),但B、C两组IgG抗体水平的差异无统计学意义(P>0.05)。结论以天然香菇菌多糖和茶叶多糖混合物为佐剂,对日本血吸虫重组质粒pVIVO2-IL12-Sj23的免疫效果有一定的增效作用。

茶树花多糖的修正系数蒽酮-硫酸检测新方法研究

建立一种茶树花多糖含量的修正系数蒽酮-硫酸检测方法.根据质量守恒定律,在普通蒽酮-硫酸检测多糖方法基础上,通过联用离子色谱检测技术,构建蒽酮-硫酸检测新方法的修正系数（f）,实现茶树花多糖检测技术的快捷、准确和客观.研究表明,以半乳糖为标准对照品时修正系数f半乳糖=2.84,以葡萄糖为标准对照品时修正系数f葡萄糖=4.49.该方法稳定性好（RSD葡萄糖=1.7%,RSD半乳糖=1.0%）、精密度高（RSD葡萄糖=1.4%,RSD半乳糖=2.0%）、重复性强（RSD葡萄糖=3.2%,RSD半乳糖=2.5%）及加标回收率佳（回收率葡萄糖=91.3%-104.1%,回收率半乳糖=95.9%-104.4%）.用新方法测得3产地茶树花多糖含量分别为10.30%、10.07%及9.99%,高于常规蒽酮-硫酸法检测茶树花多糖值.茶树花多糖中单糖组分分析表明,以半乳糖为标准对照品检测茶树花多糖较好.

泾渭茯茶茶多糖对D-半乳糖衰老小鼠模型的抗衰老机制研究

目的:经D-半乳糖诱导小鼠亚急性衰老模型,探讨茯茶茶多糖(Tea Polysaccharides,TPS)的抗衰老作用机制。方法:40只雌性昆明小鼠随机分为空白组、模型组、TPS低剂量组(0.5g/kg)、TPS高剂量组(1.0g/kg),每组10只。除空白组外,其余各组小鼠颈背部皮下注射5%D-半乳糖溶液(0.25ml/10g体重)致亚急性衰老。造模成功后第2天开始,TPS低剂量组及TPS高剂量组小鼠每日分别按0.5g/kg和1.0g/kg的剂量给予TPS溶液灌胃,每天1次;空白组和模型组每日灌服等体积生理盐水。6周后,经小鼠跳台试验测试小鼠的学习、记忆能力;检测血清、肝、脑组织中超氧化物歧化酶,谷胱甘肽过氧化物酶活性,丙二醛含量及胸腺、脾脏指数。结果:TPS的抗衰老作用与给药剂量呈正相关,与模型组相比,TPS高剂量组小鼠跳台学习反应时间缩短了39.26%、错误次数减少了31.88%,记忆潜伏期延长了47.34%、错误次数减少了35.29%,脾脏、胸腺指数显著增加,肝组织SOD活性及GSH-Px活性、皮肤中HYP含量均显著增加,MDA含量显著下降(P<0.05)。结论:茯茶TPS有显著抗衰老作用,其机制可能是通过清除自由基及其代谢产物MDA、提高SOD和GSH-Px活性双向调节延缓衰老。