腌制
分离
化学
纹理(宇宙学)
发酵
食品科学
肌原纤维
变性(裂变材料)
冷凝
基质(化学分析)
蒸发
溶菌酶
化学工程
色谱法
生物化学
物理
工程类
人工智能
核化学
图像(数学)
热力学
计算机科学
作者
K. Katsaras,Klaus‐Dieter Budras
出处
期刊:Meat Science
[Elsevier BV]
日期:1992-01-01
卷期号:31 (2): 121-134
被引量:30
标识
DOI:10.1016/0309-1740(92)90032-y
摘要
A protein matrix is necessary for the desired texture of fermented sausages suitable for slicing. The formation of this network is predominantly induced by myosin and actin proteins. A change in the structure of native muscle proteins results from different technological processes such as chopping, salting, and fermentation. During chopping with simultaneous release of meat proteins, the salt brings about a change in the original structure of proteins by swelling and partial solution of myofibrils. The dissolved proteins are transformed into a thin fluid colloidal transition state, the so-called ‘sol-state’ with unstable coagulation bonds. During sausage ripening, as a result of denaturation by lactic-acid and due to gradual loss of water (drying), the unstable bonds are replaced by condensation bonds, and thus the sol-state is converted into the ‘gel-state’. Both gel formation (condensation structure) and water evaporation (syneresis) result in the development of a matrix in fermented sausage and, consequently, in the texture of the sliceable product.
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