煎炸油中极性化合物和3-MCPDE的形成及控制研究进展北大核心CSCD

食用油在长时间高温煎炸过程中,会发生氧化、聚合、水解等反应,产生不利于人体健康的安全危害因子如极性化合物(TPC)和3-氯丙醇酯(3-MCPDE)等。介绍了煎炸油中TPC与3-MCPDE的形成机制与危害,并重点介绍了煎炸过程中TPC和3-MCPDE形成的影响因素,及有效控制煎炸油中TPC与3-MCPDE形成的措施,旨在为揭示TPC和3-MCPDE形成机理、控制煎炸油中TPC和3-MCPDE的形成提供参考。     

纳米二氧化钛光催化技术抑菌机制及其在食品包装中的应用研究进展

纳米二氧化钛光催化(nano-titanium dioxide photocatalysis,TPC)技术作为一种新兴的非热技术已成为研究热点。TPC技术因具有高抗菌活性和化学稳定性、无毒、环保和成本低的优点,在食品非热加工领域具有广泛的应用前景。TPC技术在催化过程中产生单线态氧、超氧阴离子自由基、羟自由基等活性物质,可广泛用于食品的杀菌消毒。本文概述了TPC技术的作用原理以及对微生物的抑制机理,综述了其在食品包装方面的应用,探讨了提高其光催化效率的策略,评价并讨论了TPC技术的安全性,最后展望了TPC技术的研究和应用方向,为推动TPC技术在食品研究中的应用和推广提供理论依据和技术支持。     

茶叶多糖铁配合物的合成及一般性质研究

从茶叶中提取茶叶多糖，尔后与铁（Ⅲ）合成茶叶多糖铁配合物（TPC）。方法：热水浸泡法提取茶叶多糖；在碱性条件下，茶叶多糖水溶液与三氯化铁反应合成TPC；测定TPC的一般理化性质。结果：TPC是深棕红色无定型粉末．TPC易溶于水，且水溶液呈中性。TPC在pH值3～12范围内不沉淀，不水解。TPC的水溶液中不存在游离的铁（Ⅲ），表明铁（Ⅲ）与大枣多糖形成了稳定的配合物。TPC中的铁（Ⅲ）易被抗坏血酸还原成铁（Ⅱ）。结论：茶叶多糖铁有望开发成为理想的口服补铁剂。     

氧化甘三酯指标在煎炸油品质评价中的应用（网络首发、推荐阅读）

研究煎炸过程油脂各极性组分的变化规律,并从法定废弃点处极性物质组成及指标间相关性两个角度,评价各极性组分指标用于表征油脂煎炸废弃的可行性。煎炸过程,油脂劣变生成的总极性组分(TPC)随煎炸时间的延长而累积。在油脂法定废弃点处,当TPC为27%时,煎炸油脂含11.2%的氧化甘油三酯多聚物+氧化甘油三酯二聚物(oxTGO+oxTGD),与各国标准规定的TPC和ox TGO+oxTGD比例是接近的。当TPC为27%时,煎炸油脂的氧化甘油三酯单体(ox TGM)含量为3.5%,煎炸过程oxTGM含量变化呈上下波动而无明显规律。Pearson相关性分析表明,煎炸过程油脂oxTGM与TPC无显著相关(P>0.05),表明应用TPC评价煎炸油品质时,实际未能同时覆盖对oxTGM的有效控制。因此须用TPC和oxTGM两项指标方可评价油脂煎炸过程的劣变。考虑到oxTGM的潜在毒性最强,oxTGM值作为表征高温煎炸油脂氧化劣变的废弃指标有一定实际意义。     

TESTO快速检测法在煎炸油质量监控过程中的应用

生产加工与餐饮企业为降低成本需要合理重复使用煎炸油,为保证煎炸食品的安全性,有必要建立快速有效的检测方法,以便于企业对煎炸油品质进行监控。选用目前生产加工及餐饮企业广泛使用的12种煎炸油为监控对象,包括大豆油、棕榈油、高油酸菜籽油等7种单品油和5种不同组成的调和油,煎炸处理薯条、鸡块和鱼排3种常见快餐食品,试验每12 h取样检测煎炸油中的总极性组分含量(TPC),对比研究柱层析法及TESTO 270快速检测法的结果相关性。试验结果表明,使用快速检测仪检测样品TPC,当TPC20%时,其结果与柱层析法具有显著相关性(Pearson系数为0.744~0.984,P0.01),但当TPC20%时,相关性减弱(Pearson系数为0.553~0.929,P0.01),R~2值为0.149 2~0.863 2。当TPC介于20%至27%之间时,TESTO 270快速检测法的结果有3.6%假阳性,TPC大于27%时,假阴性结果比率为10%。本研究为TESTO 270快速检测法在煎炸油质量监控中的应用提供了参考。     

陈年生普与熟普的黄烷醇类活性成分分析

采用Folin-Ciocalteu比色法和LC-DAD-ESI-MS法对陈年生普(以下简称APT)和熟普(以下简称YPT)中总多酚(The total phenolic,TPC)和黄烷醇类活性成分进行分析。研究结果表明,从APT和YPT中确定了8种黄烷醇类活性成分,它们分别是儿茶素(C)、表儿茶素(EC)、表儿茶素没食子酸酯(ECG)、表没食子儿茶素(EGC)、表没食子儿茶素没食子酸酯(EGCG)、没食子儿茶素(GC)、没食子儿茶素没食子酸酯(GCG)、儿茶素没食子酸酯(CG)。2种茶中GC含量差异不显著,APT中的TPC和其余7种黄烷醇类化合物含量均显著高于YPT中。不同产地普洱茶的TPC和8种黄烷醇类化合物含量差异不显著,不同年份差异显著。主成分分析法(PCA)和层次聚类分析(HCA)依据TPC和黄烷醇类化合物能将APT和YPT很好的聚类,成功区分出APT和YPT样品;除GC外的其余7种黄烷醇类化合物和TPC均是很好的化学标记。     

Smit TPC1000系列多相织机

在ITMA87上展出的Smit TPC1033和TPC1036(最大筘幅分别为3.3m和3.6m)是是TPC 1000系列多相织机的两种型号,适用于平纹组织织物的织造。纬纱由六个大容量卷装依次供给。可以单幅织造,也可以多幅同时织造。布边为纱罗组织结构。由于纬纱以卷装上退绕的速度缓慢、纬纱在引纬过程中张力低且恒定,使各种类型的标准纱线     

基于LF-NMR弛豫特性的煎炸油总极性化合物含量定量建模方法

将低场核磁共振（low field nuclear magnetic resonance,LF-NMR）分析技术应用于煎炸油脂总极性化合物（total polar compounds,TPC）含量的预测。采用柱层析方法测定油脂样品的TPC含量作为测定值,采集油脂样品的LF-NMR弛豫特性（峰起始时间T21、T22、T23相应的峰面积比例S21、S22、S23、单组分弛豫时间T2W）,分别利用向后筛选多元回归分析、主成分回归分析和偏最小二乘回归分析建立LF-NMR弛豫特性与TPC含量的回归方程,比较3 种模型的校正集和预测集的决定系数与均方根误差,最终确定最优模型为偏最小二乘回归模型。应用此模型预测预测集样品TPC含量,决定系数R2可达0.928,预测集均方根误差为0.568%,模型稳定。     

煎炸油中反式脂肪酸和极性化合物检测方法及防控措施研究进展

油脂在煎炸过程中会产生反式脂肪酸（TFA）和极性化合物（TPC）等危害因子,长期摄食会在体内蓄积,影响婴幼儿生长发育,引发心脏病、血栓、2型糖尿病、癌症等。对煎炸油中TFA和TPC的分析检测方法、危害及防控措施进行综述,旨在寻找快速有效的分析检测方法,并通过相应措施降低其含量。提出选择合适的煎炸温度,缩短煎炸时间,减少反复煎炸次数,选择饱和程度较高、氢化程度较低的煎炸油,选择合适的煎炸食品,添加适当种类和浓度的抗氧化剂等可降低煎炸油中TFA和TPC的含量。     

干燥温度与助剂类型对喷雾干燥桑葚粉理化特性的影响

本文研究了进口、出口温度、助剂类型及其质量分数对喷雾干燥桑葚粉理化特性的影响规律,优化了桑葚汁最适的喷雾干燥参数。结果表明,随着进口温度升高,回收率(R_p)、水分活度(a_w)、水溶性指数(WSI)、总酚含量(TPC)、清除自由基能力逐渐降低;随着出口温度升高,R_p逐渐增加,a_w、TPC、清除自由基能力逐渐降低,而WSI无显著变化。进料溶液中助剂类型和质量分数对桑葚粉理化指标影响显著(P<0.05)。随着菊糖质量分数增加,R_p逐渐降低,a_w逐渐增加、TPC先降低后增加,而WSI无显著变化。随着海藻糖质量分数增加,R_p逐渐降低,a_w、TPC、自由基清除能力逐渐增加,而WSI无显著变化。随着阿拉伯胶质量分数增加,a_w、TPC、自由基清除能力逐渐降低,R_p、WSI逐渐增加。桑葚汁喷雾干燥最适参数为:进口温度130℃、出口温度75℃,桑葚汁:麦芽糊精:乳清分离蛋白:海藻糖固形物质量分数比为65:8.5:1:25.5,此条件下,桑葚粉回收率(59.08%±2.86%),总酚含量(1209.47±40.37)mg GAE/100 g,自由基清除能力(0.62±0.06)mg/mL。     

米糠提取物超声辅助提取工艺及抗氧化活性

以乙醇为提取溶剂,采用响应面法对米糠提取物的超声辅助最佳提取工艺进行探讨。米糠提取物的总酚含量及抗氧化活性分别采用Folin-Ciocalteu 法和 Trolox 等价抗氧化能力(TEAC)方法测定。结果表明：总抗氧化活性随着总酚含量的增加而增大,但其活性高低并不完全取决于总酚物质。米糠提取物最佳提取工艺条件为乙醇体积分数90%(V/V),提取温度55℃,提取时间97min。在此条件下,米糠提取物的总酚含量为(2.76 ± 0.17)mg GAE/g米糠(n=3),总抗氧化活性为(2.99 ± 0.24)μmol TEAC/g 米糠(n=3)。     

Impact of different solvents on the recovery of bioactive compounds and antioxidant properties from lemon (<Emphasis Type="Italic">Citrus limon</Emphasis> L.) pomace waste

The effects of different solvents on the recovery of (i) extractable solids (ES), (ii) total phenolic compounds (TPC), (iii) total flavonoid content (TFC), (iv) vitamin C, and (v) antioxidant activity from lemon pomace waste were investigated. The results revealed that solvents significantly affected the recovery of ES, TPC, TFC, and antioxidant properties. Absolute methanol and 50% acetone resulted in the highest extraction yields of TPC, whereas absolute methanol resulted in the highest extraction of TFC, and water had the highest recovery of vitamin C. 50% ethanol, and 50% acetone had higher extraction yields for TPC, and TFC, as well as higher antioxidant activity compared with their absolute solvents and water. TPC and TFC were shown to be the major components contributing to the antioxidant activity of lemon pomace.     

Isolation and chemical characterisation of a polysaccharide from green tea (Camellia sinensis L.)

BACKGROUND: To contribute towards understanding the relationship of structure and bioactivity, a protein‐bound acidic polysaccharide named TPC3‐1 was isolated and purified from low‐grade green tea (Camellia sinensis L.). The homogeneity and weight average molecular weight of TPC3‐1 was determined by agarose gel electrophoresis and high‐performance gel permeation chromatography. The monosaccharide and amino acid composition of TPC3‐1 were analysed by gas chromatography and an amino acid analyser. The molecular structure of TPC3‐1 was characterised by Fourier transform infrared spectroscopy, ¹³C nuclear magnetic resonance spectroscopy and atomic force microscopy. RESULTS: Based on the data obtained, the average peak molecular weight of TPC3‐1 was about 120 kDa. TPC3‐1 was composed of L ‐arabinose, D ‐ribose, D ‐xylose, D ‐glucose and D ‐galactose with a molar ratio of 4.9:2.2:3.1:1.8:1.0. Fifteen amino acids were identified as components of the polymer. The TPC3‐1 molecule was found to have an anomeric carbon sign of both α and β configurations and high‐branched chains. The network structure of TPC3‐1 was observed. CONCLUSION: The tea polysaccharide TPC3‐1 was an acid protein‐bound polysaccharide with an image of network structure. The results presented here will facilitate further study of the relationship between the chemical structure and biological role of tea polysaccharide. Copyright © 2008 Society of Chemical Industry     

Effects of mashing on total phenolic contents and antioxidant activities of malts and worts

Effects of mashing on total phenolic contents (TPC), radical‐scavenging activity, reducing power and metal chelating activity of malts and corresponding worts were clarified in this study. Results showed that there were significant variations in TPC and antioxidant activity across malts and worts. An 8.8% of increase in TPC was observed during the early stage of mashing, accompanied by an increase in antioxidant activity. However, 2.6% of decrease in TPC and inconsistent changes in antioxidant activity were found during the mashing at higher temperature. Overall, mashing resulted in 6.0% and >10.0% of increases in TPC and antioxidant activity, respectively. Moreover, Pearson correlation analysis revealed that there were good correlations (ranging from 0.622 to 0.735, P < 0.01) between TPC and antioxidant activity of malts and worts. Additionally, mashing resulted in more positive correlations between TPC and antioxidant activity, emphasising the key role of malt phenolic compounds for wort antioxidant activity.     

Relationship between total polar components and polycyclic aromatic hydrocarbons in fried edible oil

ABSTRACT

Deep-fried dough sticks (a Chinese traditional breakfast) were fried individually in peanut, sunflower, rapeseed, rice bran, soybean and palm oil without any time lag for 32 h (64 batches fried, each for 30 min) and fried oil samples were obtained every 2 h. The frying-induced changes in the levels of total polar compounds (TPC) and polycyclic aromatic hydrocarbons (PAHs) were investigated by edible oil polar compounds (EOPC) fast separation chromatographic system and gas chromatography-mass spectrometry (GC-MS), respectively. The correlations were analysed of TPC with benzo[a]pyrene (BaP), TPC and PAH4 (benzo[a]anthracene, chrysene, benzo[b]fluoranthene and benzo[a]pyrene) as well as TPC with PAH16 (USEPA 16 PAHs). The results revealed that the levels of TPC and PAHs in fried oil considerably increased with frying time, and the type of oil affected their formation, which could inform the choice of oil for frying. The total BaP equivalents (∑BaPeq) concentrations in fresh oil and in oil whose TPC exceeded 27% were 2.14–13.48 and 5.78–10.80 μg kg^–1, respectively, which means that the carcinogenic potency of frying oil was more pronounced than that of fresh oil. In addition, the TPC concentration was significantly correlated with the concentrations of the sum of the 16 PAHs, PAH4 and BaP, so that the levels of PAHs could be predicted according to the levels of TPC in fried oil. In European standards, the rejection point for TPC in frying oil should be recalculated when considered PAHs. In all, the concentration of PAHs is a vital factor for ensuring the safety of frying oil.     

Antioxidant activity of commercial ready-to-drink orange juice and nectar

Total antioxidant activity (TAA), total phenolic compounds (TPC), and physicochemical characteristics of ready-to-drink orange juice and nectar from the most consumed brands available in Brazil were evaluated. TPC ranged from 18.7 to 54.2 mg of gallic acid/100 mL, and TAA varied from 57.88 to 349.32 μmol TEAC/100 mL ready-to-drink orange juice and nectar. The ascorbic acid content was the only physicochemical parameter that showed strong variation among packages and brands. Correlation of TPC with TAA showed that the higher the level of TPC the higher the TAA. Correlation of ascorbic acid content with TAA is higher for ready-to-drink orange juice than nectar. The same was found for the correlation of ascorbic acid content with TPC. The results confirm the contribution of the TPC to TAA.     

Total phenolic content and antioxidant capacity of extracts obtained from six important fruit residues

The extracts from kinnow peel, kinnow seeds, litchi pericarp, litchi seeds, grape seeds, and banana peel were screened for total phenolic content (TPC), trolox equivalent antioxidant capacity (TEAC), 1,1 diphenyl-2-picryl hydrazyl (DPPH) radical scavenging activity, as well as reducing power. Kinnow peel extract exhibited the highest reducing power, TEAC, and DPPH free radical scavenging activity, whereas, the phenolic content of 37.4 mg GAE/g-dw was highest for grape seed extract. Banana peel extract with a low TPC showed the lowest reducing power, TEAC as well as DPPH free radical scavenging activity among the fruit residue extracts examined in the present study. Correlation analysis between the reducing power and DPPH radical scavenging ability; reducing power and ABTS radical scavenging activity; and ABTS and DPPH radical scavenging abilities showed a high degree of correlation (r² = 0.85-0.91). However, r² of 0.36, 0.66, and 0.49 between TPC and DPPH radical scavenging activity; TPC and reducing power; and TPC and ABTS radical scavenging ability, respectively, indicated that some non-phenolic compounds also contributed to the total antioxidant activity in fruit residue extracts examined in this study. To the best of our knowledge, this is the first paper presenting comprehensive data on TPC, reducing power, and antioxidant activity for the six fruit residues. This study demonstrated that kinnow peel, litchi pericarp, litchi seeds, and grape seeds, can serve as potential sources of antioxidants for use in food and pharmaceutical industry.     

Total phenolic content and antioxidant properties of eclipse black beans (Phaseolus vulgaris L.) as affected by processing methods

ABSTRACT:  The effects of soaking, boiling, and steaming processes on the phenolic components and antioxidant activity of black beans were investigated. All processed beans exhibited significantly ( P < 0.05) lower antioxidant activities than raw beans in total phenolic content (TPC), DPPH free radical scavenging activity (DPPH), and oxygen radical absorbing capacity (ORAC). Steaming processes resulted in a greater retention of TPC and ORAC values than the boiling processes. Pressure boiling shortened processing time compared to regular boiling, resulted in insignificant differences in TPC, but significantly increased in ORAC as compared to the regular boiling method. Pressure steaming resulted in significant decreases in TPC, DPPH, while significantly increased in ORAC compared to regular steaming. Greater TPC, DPPH, and ORAC values were detected in boiling water than in the soaking and steaming water. Mass balance analysis showed that boiling caused more dry solid loss than steaming. All of these results indicated that processing methods significantly changed contents and activities of antioxidant components of black beans. Steam processing exhibited several advantages in appearance and texture of the cooked product, shortening processing time, and in greater retention of TPC and antioxidant activities. Steam processing may be used to develop high-quality health-promoting black bean products.