Irmak Şahnur, Dıraman Harun
Deparment of Food Technologies, Research Institute for Olive Culture, 35100 Bornova İzmir, Turkey.
Department of Food Engineering, Faculty of Engineering, Afyon Kocatepe University, 03200 Afyonkarahisar, Turkey.
J Food Sci Technol. 2022 May;59(5):1792-1800. doi: 10.1007/s13197-021-05190-6. Epub 2021 Jul 19.
In this study, raw fruits of important olive cultivars mostly used in the Turkish table (and oil) olive sector, and , were investigated based on their biophenolic profiles by a HPLC-DAD method. Biophenolic compounds have great importance in olive processing (table and oil) technology and human nutrition physiology and are commonly found in natural products obtained from fruits and vegetables, including table olives and olive oil. Raw olive fruits samples, grown in Bornova and Kemapaşa which are the experimantal areas of Olive Research Institute (İzmir-Turkey), were harvested in different maturity stages during two corp years (2007-2008). The total phenolic content (TPC) and the simple biophenolic profile analysis of raw olive samples were carried out using UV/VIS spectroscopic and HPLC-DAD methods, respectively. It was showed that domestic olive cultivars, mostly used in table and oil technologies, exposed great differences in biophenolic profiles due to the cultivar and harvest time according to the results of this study. TPC data for all raw samples varied from1 89.8 mg GAE /100 g (Domat) to 421 mg GAE /100 g (Uslu). Hydroxytyrosol (HT) was the major phenolic compound for all raw olive samples and it varied from 58.70 mg/100 g (Uslu) to 27.53 mg/100 g (). The highest amount of tyrosol (TY) compound was found Uslu (21.23 mg/100 g) while had the lowest amount of this compound (6.13 mg/100 g). In this study, the raw fruits of the domestic five table cultivars were characterized and classified chemometric methods (Principal Component Analysis, PCA and Hierarchical Cluster Analysis, HCA) based on their simple phenolic compounds. Luteloin (LT) was effective on the characterization of Uslu cultivar while Gemlik was classified with the apigenin (APG). The Hydroxytyrosol (HT) was discriminative in classification of Memecik cultivar whereas the tyrosol (TY) played role in characterization of Ayvalik cultivar.
在本研究中,采用高效液相色谱 - 二极管阵列检测法(HPLC - DAD),基于其生物酚类成分,对土耳其餐桌(及橄榄油)橄榄产业中最常用的重要橄榄品种的生果进行了研究。生物酚类化合物在橄榄加工(餐桌用和制油)技术及人类营养生理学中具有重要意义,常见于从包括食用橄榄和橄榄油在内的水果和蔬菜中获取的天然产物中。在位于土耳其伊兹密尔的橄榄研究所的实验区域博尔诺瓦和凯马帕şa种植的生橄榄果样本,在两个种植年份(2007 - 2008年)的不同成熟阶段进行了采收。分别采用紫外/可见光谱法和高效液相色谱 - 二极管阵列检测法对生橄榄样本的总酚含量(TPC)和简单生物酚类成分进行了分析。根据本研究结果,在餐桌用和制油技术中最常用的国内橄榄品种,其生物酚类成分因品种和采收时间而存在很大差异。所有生样本的TPC数据从189.8毫克没食子酸当量/100克(多马特)到421毫克没食子酸当量/100克(乌斯鲁)不等。羟基酪醇(HT)是所有生橄榄样本中的主要酚类化合物,其含量从58.70毫克/100克(乌斯鲁)到27.53毫克/100克(此处原文缺失品种名)不等。酪醇(TY)化合物含量最高的是乌斯鲁(21.23毫克/100克),而(此处原文缺失品种名)该化合物含量最低(6.13毫克/100克)。在本研究中,基于国内五个餐桌用品种的生果中的简单酚类化合物,采用化学计量学方法(主成分分析,PCA和层次聚类分析,HCA)对其进行了表征和分类。木犀草素(LT)对乌斯鲁品种的表征有效,而杰姆利克品种与芹菜素(APG)归为一类。羟基酪醇(HT)在梅梅吉克品种的分类中具有判别性,而酪醇(TY)在阿伊瓦勒克品种的表征中发挥作用。