Djulis (Chenopodium formosanum Koidz.) has attracted attention worldwide for its nutritional value and health benefit. To examine the potential application of djulis flour in oriental starch-based staple products, we supplemented wheat flour with djulis flour in different proportions to investigate the rheological properties of dough and determine the sensory and textural profile of salted noodles. For dough characteristics measured by farinography and extensography, increased amount of djulis flour decreased the departure time, stability, arrival time and extensibility of dough, but increased the maximum resistance to extension. The cooking loss and hardness of salted noodles increased with increased amount of djulis flour. However, the overall sensory acceptability did not differ between salted noodles with djulis flour and controls (p < 0.05). In conclusion, djulis flour could be proportional incorporated into wheat flour and have a positive influence on salted noodle sensory quality.
New Deconjugation Reaction of (E)-1-Indanylidene Methylarene Brought by Photolysis with Protic Acid. -Photolysis of title compounds (I) in the presence of HCl results in a high-yielding conversion to indans (II). When compound (Ia) is irradiated in the absence of acid, the (Z)-isomer is obtained as the lone product. -(HO*, T.-I.; LI, T.-C.; Tetrahedron Lett. 45 (2004) 29, 5665-5667; Dep. Chem., Natl. Taiwan Univ., Taipei 106, Taiwan; Eng.) -Mais 44-111
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