核桃粕中多肽的酶法制备工艺
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摘要
探索生物酶法水解核桃蛋白制备核桃多肽的工艺。以酶解蛋白的水解度和氮溶指数作为考察指标,单因素筛选核桃蛋白水解酶、反应底物的液料比、酶解时间等条件,优化酶水解核桃蛋白及制备核桃多肽的提取的工艺参数。选用胰蛋白酶作为核桃蛋白的水解酶,酶解条件为:pH 7.0,温度45℃,液料比10∶1 (mL/g),酶解时间240 min,添加量4 000 U/g。该条件下改性后的核桃蛋白氮溶指数为69.61%,水解度为39.31%,提取的多肽分子量小于1 450 Da的含量为36.33%。基于酶水解法,此次试验的提取工艺合理可行,为核桃多肽的提取提供了理论依据。
To explore the extraction process of enzymatic hydrolysis of walnut protein to obtain walnut polypeptide, taking hydrolysis degree and nitrogen solubility index of hydrolyzed protein as the investigation index, the extraction process parameters of walnut polypeptide were optimized by single factor screening of walnut protein hydrolase, liquid ratio of reaction substrate and enzymolysis time. Trypsin was selected as the hydrolysate. The hydrolysis conditions were pH 7.0,temperature 45 ℃, ratio of liquid to material 10∶1(mL/g), enzymatic hydrolysis time 240 min, and adding amount 4 000 U/g. The nitrogen solubility index of modified walnut protein was 69.61%, while the degree of hydrolysis was 39.31%, and the content of polypeptide molecular weight less than 1 450 Da was 36.33%. Based on the method of enzymatic hydrolysis, the extraction process of walnut polypeptide was reasonable and feasible, which provided the theoretical basis for extraction of walnut polypeptide.
To explore the extraction process of enzymatic hydrolysis of walnut protein to obtain walnut polypeptide, taking hydrolysis degree and nitrogen solubility index of hydrolyzed protein as the investigation index, the extraction process parameters of walnut polypeptide were optimized by single factor screening of walnut protein hydrolase, liquid ratio of reaction substrate and enzymolysis time. Trypsin was selected as the hydrolysate. The hydrolysis conditions were pH 7.0,temperature 45 ℃, ratio of liquid to material 10∶1(mL/g), enzymatic hydrolysis time 240 min, and adding amount 4 000 U/g. The nitrogen solubility index of modified walnut protein was 69.61%, while the degree of hydrolysis was 39.31%, and the content of polypeptide molecular weight less than 1 450 Da was 36.33%. Based on the method of enzymatic hydrolysis, the extraction process of walnut polypeptide was reasonable and feasible, which provided the theoretical basis for extraction of walnut polypeptide.
引文
[1]吴国良,刘群龙,郑先波.核桃种质资源研究进展[N].果树学报,2009(7).
[2]王中奎,王超,关法春.不同产地核桃坚果的综合性状评价[J].食品科学,2013(15):100.
[3]奚声珂.我国核桃属种质资源与核桃育种[J].林业科学,1987,23(3):342-349.
[4]李忠新,杨莉玲,阿布力孜巴斯提.新疆核桃产业化发展研究[J].新疆农业科学,2014,51(5):974-978.
[5]孙树杰,王兆华,宋康.核桃营养价值及功能活性研究进展[J].中国食物与营养,2013,19(5):72-73.
[6]王帅,戴涟漪,库雪晶.核桃营养组成与保健功能研究进展[J].中国酿造,2016,35(6):30-31.
[7]陈永浩,王克建,郝艳宾,等.酶解方式对核桃蛋白肽及其抗氧化活性的影响[J].食品与机械,2011,27(5):63.
[8]许慧娇.不同酶酶解核桃蛋白产物体外抗氧化和降血压性研究[D].呼和浩特:内蒙古农业大学,2010.
[9]李丽.核桃多肽防治糖尿病物质基础及作用机制研究[D].武汉:武汉工程大学,2016.
[10]武万兴.固态发酵核桃粕制备抗氧化活性肽的研究[D]昆明:昆明理工大学,2014.
[11]范方宇,阚欢,许善午.中性蛋白酶水解核桃蛋白工艺[J].食品研究与开发,2011,32(11):78.
[12]陆俊,赵安琪,成策.核桃营养成分与生理活性及开发利用[J].食品与机械,2014,30(6):239.
[13]马岩,孟宪军.核桃抗氧化多肽喷雾干燥的工艺优化[J].食品工业科技,2016(12):243.
[14]张兴灿.核桃蛋白多肽新型酶解制备工艺的研究[D].昆明:昆明理工大学,2012.
[15]中华人民共和国卫生部.食品中粗蛋白含量的测定:GB/T 5009.5-2010[S].北京:中国标准出版社,2010.
[16]ADLER-NISSEN J.Methods in food protein hydrolysis[M].New York:Elsevier Applied Science Publishers,1986:110-169.
[17]沈敏江,王文辉,刘丽.核桃蛋白有限酶解增溶改性的工艺研究[J].中国粮油学报,2015,30(8):94.
[18]田娅玲.核桃抗氧化肽的制备及其分离纯化[D].贵阳:贵州大学,2016.
[19]贾靖霖,刘晓丽,唐璐璐.多酶协同水解核桃蛋白的研究[J].食品科技,2014,39(4):61.
[20]张兴灿.核桃蛋白多肽新型酶解制备工艺的研究[D].昆明:昆明理工大学,2012.
[21]李建杰,荣瑞芬.碱性蛋白酶对核桃蛋白水解条件的优化研究[J].中国食品学报,2011,4(11):131.
[22]沈敏江.核桃蛋白粉的制备及其溶解性研究[D].北京:中国农业科学院,2014.
[23]蒋莉.核桃渣制备核桃蛋白和多肽的研究[D].咸阳:西北农林科技大学,2007.
[24]林燕,陈计峦,胡小军.酶解核桃蛋白制备抗氧化肽的研究[J].食品工业科技,2011(4):204-207.
[2]王中奎,王超,关法春.不同产地核桃坚果的综合性状评价[J].食品科学,2013(15):100.
[3]奚声珂.我国核桃属种质资源与核桃育种[J].林业科学,1987,23(3):342-349.
[4]李忠新,杨莉玲,阿布力孜巴斯提.新疆核桃产业化发展研究[J].新疆农业科学,2014,51(5):974-978.
[5]孙树杰,王兆华,宋康.核桃营养价值及功能活性研究进展[J].中国食物与营养,2013,19(5):72-73.
[6]王帅,戴涟漪,库雪晶.核桃营养组成与保健功能研究进展[J].中国酿造,2016,35(6):30-31.
[7]陈永浩,王克建,郝艳宾,等.酶解方式对核桃蛋白肽及其抗氧化活性的影响[J].食品与机械,2011,27(5):63.
[8]许慧娇.不同酶酶解核桃蛋白产物体外抗氧化和降血压性研究[D].呼和浩特:内蒙古农业大学,2010.
[9]李丽.核桃多肽防治糖尿病物质基础及作用机制研究[D].武汉:武汉工程大学,2016.
[10]武万兴.固态发酵核桃粕制备抗氧化活性肽的研究[D]昆明:昆明理工大学,2014.
[11]范方宇,阚欢,许善午.中性蛋白酶水解核桃蛋白工艺[J].食品研究与开发,2011,32(11):78.
[12]陆俊,赵安琪,成策.核桃营养成分与生理活性及开发利用[J].食品与机械,2014,30(6):239.
[13]马岩,孟宪军.核桃抗氧化多肽喷雾干燥的工艺优化[J].食品工业科技,2016(12):243.
[14]张兴灿.核桃蛋白多肽新型酶解制备工艺的研究[D].昆明:昆明理工大学,2012.
[15]中华人民共和国卫生部.食品中粗蛋白含量的测定:GB/T 5009.5-2010[S].北京:中国标准出版社,2010.
[16]ADLER-NISSEN J.Methods in food protein hydrolysis[M].New York:Elsevier Applied Science Publishers,1986:110-169.
[17]沈敏江,王文辉,刘丽.核桃蛋白有限酶解增溶改性的工艺研究[J].中国粮油学报,2015,30(8):94.
[18]田娅玲.核桃抗氧化肽的制备及其分离纯化[D].贵阳:贵州大学,2016.
[19]贾靖霖,刘晓丽,唐璐璐.多酶协同水解核桃蛋白的研究[J].食品科技,2014,39(4):61.
[20]张兴灿.核桃蛋白多肽新型酶解制备工艺的研究[D].昆明:昆明理工大学,2012.
[21]李建杰,荣瑞芬.碱性蛋白酶对核桃蛋白水解条件的优化研究[J].中国食品学报,2011,4(11):131.
[22]沈敏江.核桃蛋白粉的制备及其溶解性研究[D].北京:中国农业科学院,2014.
[23]蒋莉.核桃渣制备核桃蛋白和多肽的研究[D].咸阳:西北农林科技大学,2007.
[24]林燕,陈计峦,胡小军.酶解核桃蛋白制备抗氧化肽的研究[J].食品工业科技,2011(4):204-207.
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