CSIRO Agriculture and Food, 39 Kessels Road, Coopers Plains, Qld, Australia.
School of Biomolecular and Physical Sciences, Griffith University, Nathan, Qld, Australia.
Food Res Int. 2017 Nov;101:228-238. doi: 10.1016/j.foodres.2017.09.003. Epub 2017 Sep 6.
Most studies have focused on myoglobin regarding meat colour development, with little focus on the contribution of muscle structure and light scattering. Our aim was to investigate the pH-dependent changes in muscle structure, on the light scattering properties of the meat. Beef longissimus thoracis muscles were segregated into light, medium or dark colour groups (n=18). 'Dark' muscles had a high ultimate pH (pH), lower lightness (L*), redness (a*), higher myoglobin concentration and deoxymyoglobin content compared to other muscles. Reflectance confocal laser scanning microscopy (rCLSM) revealed 'dark' muscles had decreased global brightness (indicator of light scattering) and increased fibre width. In a secondary experiment, decreasing the homogenisation buffer pH from 6.10 to 5.40 induced a 17% shrinkage in high pH muscle fibres, which increased light scattering by ~25%. In conclusion, rCLSM demonstrated that muscle structure contributes to the magnitude of light scattering by a pH dependent mechanism.
大多数研究都集中在肌红蛋白对肉色发展的影响上,而对肌肉结构和光散射的贡献关注较少。我们的目的是研究肌肉结构在 pH 值依赖性变化时对肉的光散射特性的影响。牛背最长肌被分为浅色、中等色或深色组(n=18)。与其他肌肉相比,“深色”肌肉的最终 pH 值(pH)较高、亮度(L*)较低、红色(a*)较高、肌红蛋白浓度和脱氧肌红蛋白含量也较高。反射共焦激光扫描显微镜(rCLSM)显示,“深色”肌肉的整体亮度(光散射指标)降低,纤维宽度增加。在二次实验中,将匀浆缓冲液的 pH 值从 6.10 降低到 5.40 会导致高 pH 值肌肉纤维收缩 17%,这会使光散射增加约 25%。总之,rCLSM 表明,肌肉结构通过 pH 依赖机制对光散射的幅度有贡献。