Sánchez-Moreno Concepción, Plaza Lucía, Elez-Martínez Pedro, De Ancos Begoña, Martín-Belloso Olga, Cano M Pilar
Department of Plant Foods Science and Technology, Instituto del Frío, CSIC, C/José Antonio Novais 10, Ciudad Universitaria, E-28040 Madrid, Spain.
J Agric Food Chem. 2005 Jun 1;53(11):4403-9. doi: 10.1021/jf048839b.
Bioactive compounds (vitamin C, carotenoids, and flavanones) and DPPH* radical scavenging capacity (RSC) were measured in orange juice (OJ) subjected to different technologies. High pressure (HP) (400 MPa/40 degrees C/1 min), pulsed electric fields (PEF) (35 kVcm(-1)/750 micros), low pasteurization (LPT) (70 degrees C/30 s), high pasteurization (HPT) (90 degrees C/1 min), HPT plus freezing (HPT+F) (-38 degrees C/15 min), and freezing (F) were studied. Among the treatments assayed, even though the losses in total vitamin C were < 9%, treatments with the higher temperatures tended to show the higher decrease in the content of both forms of vitamin C. HP treatment led to an increased (P < 0.05) carotenoid release (53.88%) and vitamin A value (38.74%). PEF treatment did not modify individual or total carotenoids content. Traditional thermal treatments did not exert any effect on total carotenoid content or vitamin A value. With regard to individual carotenoid extraction, HPT and HPT+F led to different releases of carotenoids. With respect to flavanones, HP treatment led to increased (P < 0.05) naringenin (20.16%) and hesperetin (39.88%) contents, whereas PEF treatment did not modify flavanone content. In general, pasteurization and freezing process led to a diminished (P < 0.05) naringenin content (16.04%), with no modification in hesperetin. HP and PEF treatments did not modify DPPH* RSC. In the case of traditional thermal technologies, HPT treatment showed a decrease (P < 0.05) in RSC (6.56%), whereas LPT, HPT+F, and F treatments did not modify RSC. Vitamin C modulated RSC, in terms of antioxidant concentration (EC50) and kinetics (AE = 1/EC50TEC50), in the treated and untreated OJ. In summary, HP and PEF technologies were more effective than HPT treatment in preserving bioactive compounds and RSC of freshly squeezed orange juice.
对采用不同技术处理的橙汁中的生物活性化合物(维生素C、类胡萝卜素和黄烷酮)以及二苯基苦味酰基自由基清除能力(RSC)进行了测定。研究了高压(HP)(400兆帕/40摄氏度/1分钟)、脉冲电场(PEF)(35千伏/厘米(-1)/750微秒)、低温巴氏杀菌(LPT)(70摄氏度/30秒)、高温巴氏杀菌(HPT)(90摄氏度/1分钟)、HPT加冷冻(HPT+F)(-38摄氏度/15分钟)以及冷冻(F)处理。在所测定的处理中,尽管总维生素C的损失<9%,但较高温度的处理往往使两种形式维生素C的含量下降幅度更大。HP处理导致类胡萝卜素释放量(53.88%)和维生素A值(38.74%)增加(P<0.05)。PEF处理未改变单个或总类胡萝卜素的含量。传统热处理对总类胡萝卜素含量或维生素A值没有任何影响。关于单个类胡萝卜素的提取,HPT和HPT+F导致类胡萝卜素的释放情况不同。关于黄烷酮,HP处理导致柚皮素(20.16%)和橙皮素(39.88%)含量增加(P<0.05),而PEF处理未改变黄烷酮含量。总体而言,巴氏杀菌和冷冻过程导致柚皮素含量降低(P<0.05)(16.04%),橙皮素含量未改变。HP和PEF处理未改变DPPH*RSC。在传统热技术中,HPT处理使RSC降低(P<0.05)(6.56%),而LPT、HPT+F和F处理未改变RSC。在处理过和未处理的橙汁中,维生素C在抗氧化剂浓度(EC50)和动力学(AE = 1/EC50TEC50)方面调节RSC。总之,在保存鲜榨橙汁的生物活性化合物和RSC方面,HP和PEF技术比HPT处理更有效。
