본 연구는 아로니아 천연 발효종을 사용하여 sourdough starter를 만들고, sourdough starter 첨가량을 0%, 15%, 25%, 35%로 증가하며 모닝빵을 제조할 때 starter 첨가량에 따른 품질특성, 항산화력, 소비자 선호도를 비교하기 위해 수행하였다. 아로니아 sourdough starter 함량이 증가할수록 모닝빵의 pH는 감소하였고, 총산도와 수분함량은 증가하였다. 비용적과 굽기 손실율 또한 sourdough starter 첨가량에 따라 유의적으로 증가하여 35% 첨가군(AS3)에서 가장 큰 굽기 손실율을 나타내었으나(P<0.05), 높이는 25% 첨가군(AS2)이 가장 높고 35% 첨가군에서 급격히 감소하였다. 발효 팽창력의 경우 0-25% 첨가군(AS0, AS1, AS2) 모두 45분까지 유의적으로 증가하였으나(P<0.05), 35% 첨가군은 30분까지만 팽창력이 증가하다가 30분 이후에는 급격히 감소하는 것으로 나타났다. 모닝빵의 총 페놀 함량과 DPPH 라디칼 소거능은 아로니아 sourdough starter 첨가량이 증가함에 따라 유의적으로 향상되었으며 (P<0.05), 색도는 첨가량이 증가할수록 밝기(L*)와 황색도 (b*)는 감소하고, 적색도는(a*) 증가하였다(P<0.05). 모닝빵의 조직감 측정 결과 응집성(cohesiveness)은 25% 첨가군이 가장 높고, 경도(hardness), 검성(gumminess), 씹힘성 (chewiness)은 아로니아 sourdough starter 첨가량이 증가할수록 유의적으로 낮게 측정되었다(P<0.05). 소비자 선호도 조사에서는 35% 첨가군의 색에 대한 선호도가 가장 낮았고, 15%와 25% 첨가군이 조직감과 전반적인 기호도가 좋은 것으로 나타났다(P<0.05). 이상의 결과에서 아로니아 sourdough starter를 첨가한 모닝빵의 품질특성, 항산화 활성, 소비자 선호도를 모두 고려할 때에 sourdough starter 는 밀가루 대비 25%를 첨가하는 것이 가장 우수하다는 것을 알 수 있었다.
This study investigated the bread-making properties of rice bread supplemented with HPMC (hydroxypropyl methylcellulose) 1~3% and gluzyme (glucose oxidase), fungamyl (fungal α-amylase) and pentopan (xylanase+ hemicellulases) (0.0015~0.0090%). The viscoelastic properties of the dough with HPMC 1~3% were analyzed. When the rice flour was supplemented with HPMC 1~3%, the viscoelastic properties of the dough tended to increase as the amount of added HPMC was increased. The physicochemical characteristics of the rice bread with HPMC, gluzyme, fungamyl, and pentopan were analyzed. Supplementing the rice flour with HPMC, gluzyme, fungamyl, and pentopan had a significant effect on the volume (p<0.01) and specific volume (p<0.001) of the rice bread. Supplementing the rice flour with 3% HPMC and 0.0045% or 0.0090% pentopan had a significant effect on increasing the volume (p<0.01) and specific volume (p<0.001) of the rice bread. Supplementing the rice flour with 3% HPMC, 0.0023% gluzyme and 0.0015% fungamyl had a significant effect on increasing the volume (p<0.01) and specific volume (p<0.001) of the rice bread. These results suggest that supplementing the rice flour with HPMC, gluzyme, fungamyl and pentopan is effective for the production of rice bread.
This paper investigated the effects of the percentages of yeast and fermentation time as well as the top and bottom temperature of oven on the baking properties of rice bread. The specific volume of the dough decreased as the amount of added yeast and fermentation time increased. When 1.5% yeast was added at 60 min of fermentation time, the shape of the rice bread showed the largest volume, high appearance and a round shape. The top and bottom temperature of the oven on the baking characteristics of rice bread were affected by the baking time. When the top and bottom temperature of the oven at 200 and 140℃, and 200 and 170℃, the baking time was 20 min. When the top and bottom temperature of oven at 140 and 170℃, the baking time was 40 min. When the top and bottom temperature of the oven were 170 and 170℃, the shape of the rice bread indicated the largest volume, high appearance and a round shape. The results of this study revealed that the replacement of rice flour with 1.5% yeast, 60 min of fermentation time, and the top and bottom temperature of oven at 170-170℃ are effective for rice bread.
The baking properties of rice bread with polydextrose (3, 6, and 9%), enzymes (0.006, 0.009, and 0.018%) and egg (1.32 and 2.64%) were investigated. The specific gravity and color (L, a, b) of the dough, as well as the appearance, color (L, a, b) and texture of the rice bread were analyzed. The springiness, chewiness, gumminess (p<0.01) and hardness (p<0.001) of the rice bread tended to increase as the amount of added polydextrose increased. Replacement of rice flour with hemicellulase, glucose oxidase and fungal amylase are effective for producing rice bread. Replacement of rice flour with 0.009% glucose oxidase and 0.006% fungal amylase had a significant effect on increasing the volume and decreasing the hardness of the rice bread (p<0.001). Replacement of rice flour with 1.32% egg white also had a significant effect on increasing the volume and decreasing the hardness of the rice bread (p<0.001). These results suggest that replacement of rice flour with 0.009% glucose oxidase and 0.006% fungal amylase, and 1.32% egg white are effective for producing rice bread with good volume and hardness.
본 연구에서는 쌀 가공식품에 대한 쌀가루 종류, 유지 종류 및 첨가량의 효과를 제공하고, 쌀빵의 제빵 특성 및 제조방법을 확립하기 위해 습식 및 건식 쌀가루의 물리적 특성을 조사하였으며, 버터 및 식용유를 4.0~5.8% 첨가하였을 때 반죽 및 쌀빵의 특성, 텍스처 특성을 비교 분석하였다. 습식 및 건식 쌀가루의 물리적 특성에서 수분함량은 습식 쌀가루가 건식 쌀가루에 비해 높았고(p<0.001), 전분손상도는 건식 쌀가루가 습식 쌀가루에 비해 높았으며(p<0.001), 쌀가루의 평균 입자크기는 습식 쌀가루가 건식 쌀가루보다 크게 나타났다(p<0.001). 습식 및 건식 쌀가루의 amylogram과 RVA에 의한 pasting 특성에서 습식 쌀가루 A가 결과값들이 크게 조사되었고, 그 다음 건식 쌀가루 C와 B 순으로 나타났다(p<0.001). 습식 및 건식 쌀가루 현탁액의 DSC 측정 결과, 습식 쌀가루 A는 건식 쌀가루 B와 C에 비해 전분호화 개시온도와 전분호화 최고온도가 낮았고, 쌀가루의 호화엔탈피는 습식 쌀가루 A는 10.5 cal/g, 건식 쌀가루 B와 C는 10.1과 2.71cal/g으로 조사되었다(p<0.001). 습식 및 건식 쌀가루의 유지류 첨가 비율에 따른 쌀빵 반죽의 발효 전과 후 비중은 버터 첨가군이 식용유 첨가군보다 높았고, 색도 분석에서는 습식 쌀가루 A가 건식 쌀가루 B와 C에 비해 L값이 높게 나타났다(p<0.001). 쌀가루 종류에 따라 쌀빵의 부피와 비용적은 건식보다 습식 쌀가루가 크게 나타났으며, 버터 첨가군보다 식용유지 첨가군이 크게 나타났다(p<0.001). 쌀빵의 색도 분석에서는 L, a 및 b값이 유의적인 차이를 나타내었다(p<0.001). 쌀빵의 텍스처 특성에서 식용유 첨가군이 버터 첨가군보다 경도가 낮았으며(p<0.001), 습식 쌀가루 A와 건식 쌀가루 B로 만든 쌀빵은 식용유 첨가 수준이 증가할수록 경도가 낮아졌으며, 이러한 경향은 건식 쌀가루 C로 제조한 쌀빵의 경우에서는 보이지 않았다(p<0.001). 쌀빵의 모양은 습식 쌀가루보다 건식 쌀가루에서 빵 중간이 푹 커진 모양을 볼 수 있었으며, 그리고 식용유 첨가군보다 버터 첨가군에서 이러한 현상을 볼 수 있었다. 따라서 쌀빵 제조에 건식 쌀가루보다 습식 쌀가루가, 버터 첨가군보다 식용유 첨가군이, 식용유 첨가군에서는 4.0%보다 5.8% 첨가할 경우, 제빵 효과가 있는 것으로 조사되었다.
The purpose of this study is to analyze the proximate components (water, crude ash, crude protein, crude fat, and carbohydrates) and nutritive components (vitamin A, C, E, minerals, amino acids, and fatty acids) of rice flour and develop several rice bread recipes using rice flour. The water, crude ash, crude protein, crude lipid, carbohydrate contents of rice flour were measured to be 8.53%, 0.10 g, 6.80 g, 0.14 g and 84.43 g, respectively. No vitamin A was detected in the rice flour, and vitamin C and E contents were found to be 8.30 and 0.3467 mg/100 g, respectively. Calcium, potassium, magnesium, iron, and sodium contents were measured as 6.23, 65.05, 9.78, 0.17 and 2.84 mg/100 g; the large amount of potassium helps to discharge the sodium. Rice flour has nine kinds of essential amino acids in it; essential amino acids form 45.15% of rice flour’s content. which is higher than 32.3%. Fatty acids were barely detected in the rice powder; saturated fatty acids were measured as 31.25 mg/100 g, and unsaturated fatty acids as 25.54 mg/100 g. Regarding essential fatty acids, linoleic acids were measured as 41.01 mg/100 g, and linolenic acids as 2.20 mg/100 g. The researcher used rice loaf bread as the base and developed rice bread recipes using rice flour to make a total of 11 items: 8 items with 75% rice flour (rice bagel, rice sweet red-bean bread, rice butter roll bread, rice mocha bread, rice buttertop bread, rice custard cream bread, and rice streusel), 2 items with 80% rice flour (stollen and rice hobbang), and 1 item with 85% rice flour (rice donut).
The objective of this study was to examine the effects of rice (R) and brown rice (BR) flour on the quality characteristics of morning bread. The quality characteristics of morning bread were determined by measuring the pH of the dough, dough raising power, moisture content, baking loss rate, specific volume, height, color value, texture analysis and sensory evaluations. The pH of the bread dough was highest on R1:BR2 and R0:BR3. The dough raising power and moisture content steadily and significantly decreased as the amount of added brown rice flour increased. The baking loss rate was highest on R3:BR0. The specific volume and height of morning bread were highest on R3:BR0 and R2:BR1. In color value, the L value decreased significantly as the amount of added brown rice flour increased, while a value and b value increased. The hardness, gumminess and chewiness of morning bread increased with an increase in brown rice flour. In consumer acceptability, R3:BR0, R2:BR1 and R1:BR2 showed the highest scores in all parameters. Characteristic intensity rating of roasted taste was lowest on R3:BR0. These results indicate that R2:BR1 showed similar quality characteristics as compared to morning bread without brown rice flour, with the optimal results appreciated with a 2:1 ratio of rice flour to brown rice flour.
Baking characteristics of gluten-free rice bread were investigated, when 20, 30, 40, 50 and 60℃ water was added during mixing. The temperature of the dough before fermentation was affected by the temperature of the water and the mixing time. When 60℃ water was added, the specific gravity of the dough was the highest before fermentation (p<0.01). The specific gravity of the dough after fermentation was 32~39% of the specific gravity of the dough before fermentation. When 50℃ water was added, the volume and the specific volume of rice bread were higher than those in addition of water at other temperatures (p<0.001). In case of adding water of 50℃, the shape of the rice bread showed the largest volume, high appearance and a round shape. After storage for 2 and 24 hours, the addition of water of 50℃ resulted in the lowest hardness and chewiness values of rice bread. The sensory descriptive analysis revealed that when 50℃ water was added, the air cell size, springiness and hardness values of gluten-free rice bread were lower than those in addition of water at other temperatures. There was a difference in the appearance and texture of gluten-free rice bread, when 20, 30, 40, 50 and 60℃ water was added during mixing.
The physical characteristics of gluten-free rice bread, commercial rice as well as wheat bread marketed in Korea were delineated, a sensory descriptive analysis performed, and a consumer acceptability study conducted. Both the specific gravity and color of gluten-free rice bread were higher than those of commercial rice and wheat bread. The sensory descriptive analysis revealed that the adhesiveness, fracturability, fermentation odor, and the powdery mouthfeel of gluten-free rice bread were higher than those of commercial rice and wheat bread. In contrast, the sweet odor, sweetness, egg taste, butter taste, and milk taste of gluten-free rice bread were lower than those of commercial rice and wheat bread. The consumer acceptability results revealed differences regarding odor, appearance, taste, texture, and overall acceptance between a blind test and an informed test of gluten-free rice bread, commercial rice, and wheat bread. The consumer acceptability findings were associated with those of the sensory descriptive analysis. In overall, the results indicated that the quality of gluten-free rice bread can be improved by controlling the decrease of adhesiveness, fracturability, and powdery mouthfeel.
This study was to evaluate the characteristics of bread and the rheology of flour dough containing sugar alcohols, after addition of fructose. In the farinogram tests, the addition of sugar alcohol changed the stability and mixing tolerance index. The stability and mixing tolerance index of farinogram increased as the amount of sugar alcohols increased. Amylograms revealed that the increase in gelatinization temperature and maximum viscosity of wheat flour dough with sugar alcohols was more than that of controls. Extensogram of dough with sugar alcohols exhibited higher extensibility and resistance. After fermentation treatment, the dough volumes prepared with only sorbitol and xylitol were lesser than those prepared after addition of fructose. The volume of loaf and specific volume of bread containing sugar alcohols with fructose significantly increased. The breads containing sugar alcohols showed greater taste, flavor and texture scores, for breads prepared with either sorbitol with fructose or xylitol with fructose, compared to breads without fructose. Overall preference scores by sensory evaluation of bread containing sugar alcohols with fructose were higher than bread with only sugar alcohols. These results indicate that the addition of fructose improves the flavor of bread containing sugar alcohols.
The effects of mixing speed (3, 6 and 10 speed) and time (2, 5 and 10 min) on the dynamic viscoelasticity of dough and the baking properties of gluten-free rice bread were investigated. The specific gravity of the dough was not affected by the mixing speed and time before and after fermentation. The elasticity (G') and viscosity (G") of the dough increased and the tan δ (G"/G') decreased with higher mixing speeds and longer mixing times. The specific volume of the gluten-free rice bread was affected by the mixing time in response surface methodology (RSM). The hardness of the gluten-free rice bread showed a decreasing trend as the specific volume for the gluten-free rice bread increased. The appearance of the gluten-free rice bread was symmetrical at high mixing speeds and long mixing times. Overall results indicated that the quality of gluten-free rice bread could be improved by controlling the mixing speeds and mixing times for the dough.
The objective of this study was to investigate the extent of total sugar and sodium in 129 different kinds of bakery products, breads and cookies, sold at bakeshops in Seoul metropolitan area. The bakery products produced by bakeshops on a small scale were not applied by clauses of mandatory nutrition label for children's taste food. All types of free sugars -fructose, glucose, sucrose, lactose and maltose- were detected in breads, but only fructose and sucrose were detected in cookies. The average amount of sucrose per 100 g of breads was 6.24 g, of cookies was 30.03 g. Breads and cookies amounting to 100 g of sample contained total sugar of 11.19 g and 30.38 g, respectively. The average amounts of sodium in breads and cookies were 120.71 mg/100 g, 70.76 mg/100 g, respectively. When the contents of total sugar in breads and cookies per one serving size were compared to WHO guidelines, the percentages were 15.7% and 18.2% about recommended daily intake of total sugar of 50 g. When it come to sodium, the bakery products had range of 1.1~6.5% to 2000 mg of daily intake of sodium recommended by WHO.
This study was carried out to develop an optimum baking formula and baking process for a new bread raw material with added Cordyceps militaris powder, which has been known to prevent various adult diseases and cancers. The rheological properities of dough made from Cordyceps militaris powder-wheat flour with 0, 1, 2, and 3% Cordyceps militaris powder added-were investigated. A farinogram showed that the water absorption and weakness value of dough increased with added Cordyceps militaris powder, but development time and dough stability were decreased. An extensogram showed that resistance to extension was increased in bread with 1% Cordyceps militaris powder, but decreased in bread with 2% and, 3% powder. Extensibility decreased fermentation progressed. An amylogram showed that gelatinization point was increased but maximum viscosity was decreased with added Cordyceps militaris powder. With increased amounts of powder dough volume during fermentation was reduced. The change in pH values of dough after mixing, fermentation, and proofing decreased with increased amounts of added powder.
Most propionic acid is added to food (especially breads) as preservatives and its form is sodium or calcium salt. Most countries admitted propionic acid as food preservatives but a tolerance limit is somewhat different according to countries. Recoveries of the official method for propionates reported as 50.0~60.0%. Accordingly new rapid determination method for propionates was developed using formic acid added sodium chloride (5 g) and ether (formic acid : ether = 1 : 2) as the extraction solvent to improve the official method with the complex processes. Propionate was dissolved from the samples with formic acid omitting steam distillation and ion exchange procedure. Then propionate in formic acid was extracted with ether and sodium chloride again. A 1 μl aliquot of the filtrate of ether was analyzed by gas chromatograph. Recoveries from sample A and B fortified with propionic acid sodium salt were 85.0 % and 90.0 %, respectively.