摘要
为探究植物乳杆菌PC11(Lactobacillus plantarum PC11)发酵代谢物、葡聚糖和冬小麦蛋白组合糖液浸渍处理对蓝莓冻融品质的影响。该研究以冷冻和糖液浸渍(65 g/mL)冷冻为对照组,以PC11发酵菌代谢物(10 g/mL)、葡聚糖(1 g/mL)和冬小麦蛋白(0.1 g/mL)结合糖液浸渍预处理后冷冻为试验组,比较分析蓝莓的抗氧化能力、活性物质含量、质构特性、冷冻特性、汁液流失率、色差和细胞膜透性等指标。结果表明:单一糖液浸渍处理不如添加助冻剂结合糖液浸渍的效果理想,其中添加PC11发酵菌代谢物(10 g/mL)的处理组可以有效维持蓝莓冻融后的各项指标,此处理组胶着性、硬度、咀嚼性和弹性分别为0.89 N、1.22 N、0.56 N和0.65 mm,总花色苷和原花青素含量与其他组相比具有显著差异(P<0.05),含量分别为2.59和0.54 mg/g,总花色苷的保留率比糖液浸渍组提高了1.78倍。该研究提出的冷冻预处理办法为针对蓝莓原料不同加工方式的冷冻贮藏技术的发展提供了新思路。
Blueberry fruits have been highly susceptible to decay and deterioration after harvest.Only a very small proportion can be used for fresh consumption.The majority must be frozen for storage and subsequent processing at present.However,the commonly used direct freezing of blueberries after harvest can reduce the utilization rates for subsequent processing.Some pretreatments(addition of cryoprotectants and osmotic dehydration)before freezing have great potential to improve the quality of blueberries after thawing.The aim of this paper was to investigate the effect of Lactobacillus plantarum PC11 fermentative bacterial metabolites,dextran,and winter wheat protein combination sugar solution maceration treatments on the freeze-thaw quality of blueberries.According to previous experiments and pre-tests,the concentrations were determined and used in the test.Five groups were established with direct freezing and sugar solution impregnation(65 g/mL)as the control group.The experimental groups were PC11 fermentation bacterial metabolites(10 g/mL),dextran(1 g/mL),and winter wheat proteins(0.1 g/mL)in combination with sugar-liquid impregnation pre-treatment and then freezing.A comparative analysis was performed on the blueberry antioxidant capacity(free radical scavenging capacity,total antioxidant capacity),phytochemical content(total phenolics,ascorbic acid,total anthocyanins,and proanthocyanidins),textural and conformation(adhesion,hardness,chewiness,and elasticity),freezing parameters(subcooling point,freezing point,time to pass through the zone of the maximum ice crystal formation,time difference between subcooling and freezing point),juice loss rate,color difference,cosmetic qualities and cell membrane permeability.Three biogenic freezing acids were also used in the test.The results showed that the treatment with the acids was effective in protecting the quality of blueberries after freezing and thawing.The treatment group with the addition of PC11 fermentation bacterial metabolite(10 g/mL)was significantly different(P
作者
魏杏彩
刘帮迪
张敏
江利华
周新群
孙静
赵山山
郝光飞
WEI Xingcai;LIU Bangdi;ZHANG Min;JIANG Lihua;ZHOU Xinqun;SUN Jing;ZHAO Shanshan;HAO Guangfei(College of Life Science and Food Engineering,Hebei University of Engineering,Handan 056038,China;Academy of Agricultural Planning and Engineering,Ministry of Agriculture and Rural Affairs,Beijing 100125,China;Key Laboratory of Agro-products Primary Processing,Ministry of Agriculture and Rural Affairs,Beijing 100121,China)
出处
《农业工程学报》
EI
CAS
CSCD
北大核心
2024年第15期271-279,共9页
Transactions of the Chinese Society of Agricultural Engineering
基金
贵州省2024科技计划项目(黔科合支撑[2024]一般090)
农业农村部产地初加工重点实验室开放课题(KLAPPP2022-02)
农业农村部规划设计研究院科技创新团队建设项目(CXTD-2021-08)。
关键词
蓝莓
冻融
渗透脱水
生物源抗冷冻剂
发酵菌代谢
blueberries
freezing-thawing
osmotic dehydration
bio-source cryoprotectant
fermentation bacterial metabolites
