Effects of Water and Gelatinized Starch on the Viscoelasticity of Pizza Dough and the Texture of Pizza Crust

IF 1.2 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
A. Matsumoto, Kanae Nakai, K. Kawai
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Abstract

The soft texture of the pizza crust rim is generated by baking at a high temperature for a short period in a stone oven. In the case of baking in an electric oven, the pizza dough is baked at a much lower temperature and for a longer period, resulting in a harder texture. To improve the texture of electric oven-baked pizza crust, the effects of water and gelatinized starch on the viscoelasticity of pizza dough and the texture of pizza crust were investigated. Rheological properties (storage modulus, loss modulus, and yield stress) of pizza dough decreased with an increase in water content. When wheat flour in the dough was partially replaced with pre-gelatinized wheat starch, the rheological properties of the dough were maintained even at a high-water content. These results indicate that water-enriched dough can be prepared with gelatinized starch and baked using an electric oven. There was no significant difference in apparent density between the conventional and modified pizza crusts. Water content of the crumb part of the modified crust was significantly higher than that of the conventional crust. Texture analysis revealed that the modified pizza crust showed significantly lower stress at high strain than the conventional crust. In addition, sensory evaluation showed that the modified pizza crust exhibited greater firmness and stickiness than the conventional crust, which was attributed to the increased water content with gelatinized starch of the dough.
水和糊化淀粉对披萨面团粘弹性及披萨饼皮质地的影响
披萨饼皮边缘的柔软质地是在石炉中短暂高温烘烤而成的。在电烤箱烘焙的情况下,披萨面团在更低的温度和更长的时间下烘烤,导致质地更硬。为了改善电烤炉烤披萨饼皮的质地,研究了水和糊化淀粉对披萨面团粘弹性和披萨饼皮质地的影响。比萨饼面团的流变特性(储存模量、损耗模量和屈服应力)随含水量的增加而降低。当面团中的小麦粉部分替换为预糊化的小麦淀粉时,即使在高含水量的情况下,面团的流变特性也保持不变。这些结果表明,可以用糊化淀粉制备富水面团,并使用电烤箱烘烤。改良披萨皮与常规披萨皮的表观密度无显著差异。改性壳屑部分含水量显著高于常规壳屑部分含水量。织构分析表明,改进后的比萨饼皮在高应变下的应力明显低于传统比萨饼皮。感官评价结果表明,改进后的披萨饼皮硬度和粘性均高于常规披萨饼皮,这主要是由于面团中糊化淀粉的含水量增加所致。
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来源期刊
Journal of applied glycoscience
Journal of applied glycoscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
自引率
9.10%
发文量
13
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