Application Potential of Food Protein Modification

Q Chemical Engineering Chemical Engineering Pub Date : 2012-03-23 DOI:10.5772/32114
H. Jongh, K. Broersen
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引用次数: 19

Abstract

Proteins are essential in foods, not only for their nutritional value, but also as modulator of structure and perception of a food product. The functional behavior of a protein is inherently susceptible to physico-chemical conditions as pH, ionic strength, temperature, or pressure, making them also an unpredictable, and at the same time, opportune component in food production. Proteins are generally also industrially costly, and with increasing world population and welfare the pressure on protein-availability for food purposes gives rise to some concerns. In view of a more sustainable use of protein-sources a number of routes have been followed in the past decades that provided big steps forward in protein availability: (i) more efficient production or protein refinery methods, (ii) use of alternative protein sources, and (iii) optimized usage of protein functionality. Especially in wheat production correlations between genetic expression and functional product behavior allowed breeders to optimize cultivars for geographic location (e.g. Payne et al., 1984). Alternatively, one has the ability to express specific proteins in non-original sources, for example human milk proteins in plants, such as rice (e.g. Lonnerdal, 2002). Directed alterations in the genome of food-producing organisms can lead to changes in the primary sequences of relevant proteins and thereby introduce potentially new functionality. If sufficient quantities of the novel protein are synthesized and become admixed with the basal levels of protein in the food, the functional properties of the food system (textureformation) may become improved. Alternatively, the modified protein can be isolated for use as food ingredient. More recently, a number of proteins from less-conventional origin have been identified as human food ingredients that one has started to exploit, e.g. algae, leafs, insects, and various seeds. Successful utilization of these new proteinaceous materials has thus far been rather limited, requiring breakthroughs in extractability, their digestibility, nutritive value, and overall functional and organoleptic properties. More downstream in the process is the modulation of protein functional behavior at an ingredient level. This can be physical-chemically, enzymatically, or via chemical engineering.
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食品蛋白改性的应用潜力
蛋白质在食物中是必不可少的,不仅因为它们的营养价值,而且作为食品结构和感知的调节剂。蛋白质的功能行为天生就容易受到pH值、离子强度、温度或压力等物理化学条件的影响,这使得它们在食品生产中也是不可预测的,同时也是合适的成分。蛋白质通常在工业上也是昂贵的,随着世界人口和福利的增加,用于食品目的的蛋白质供应的压力引起了一些关注。为了更可持续地利用蛋白质来源,在过去的几十年里,人们遵循了许多途径,在蛋白质可用性方面取得了重大进展:(i)更有效的生产或蛋白质精炼方法,(ii)使用替代蛋白质来源,以及(iii)优化蛋白质功能的使用。特别是在小麦生产中,遗传表达和功能性产品行为之间的相关性使育种者能够根据地理位置优化品种(例如Payne et al., 1984)。另外,一个人有能力在非原始来源中表达特定蛋白质,例如在水稻等植物中表达人乳蛋白(例如Lonnerdal, 2002)。粮食生产生物基因组的定向改变可导致相关蛋白质初级序列的改变,从而引入潜在的新功能。如果足够数量的新蛋白质被合成并与食物中基础水平的蛋白质混合,那么食物系统的功能特性(质地形成)可能会得到改善。或者,可以将修饰的蛋白质分离出来作为食品成分使用。最近,一些来自非常规来源的蛋白质被确定为人类食品成分,人们开始利用它们,例如藻类、树叶、昆虫和各种种子。迄今为止,这些新型蛋白质材料的成功利用相当有限,需要在可提取性、消化率、营养价值以及整体功能和感官特性方面取得突破。在这个过程的下游是在成分水平上对蛋白质功能行为的调节。这可以是物理化学,酶,或通过化学工程。
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来源期刊
Chemical Engineering
Chemical Engineering 工程技术-工程:化工
CiteScore
0.06
自引率
0.00%
发文量
0
审稿时长
6-12 weeks
期刊介绍: Chemical Engineering is published monthly by Access Intelligence, primarily for chemical engineers and related technical people in the chemical process industries (CPI), as well as at engineering, design and construction companies that serve the CPI. The CPI consist of: chemicals, including petrochemicals; drugs and cosmetics; explosives and ammunition; fats and oils; fertilizers and agricultural chemicals; foods and beverages; leather tanning and finishing; lime and cement; synthetic fibers; metallurgical and metal products; paints and coatings; petroleum refining and coal products; plastics; rubber; soap and detergents; stone, clay, glass and ceramics; wood, pulp, paper and board; other chemically processed products.
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