본 실험에서는 외인성 효소 첨가제 및 혼합 세균 배양을 통한 고상발효(Solid-state fermentation, SSF)가 채종박(Rapeseed meal, RSM)의 체외건물소화율(In vitro dry matter digestibility, IVDMD) 및 단쇄지방산(Short chain fatty acid) 생성에 미치는 영향을 조사하기 위해 수행되었다. 외인성 효소 칵테일(첨가 및 미첨가) 및 RSM에 대한 SSF(발효 및 비발효)를 나타내는 2 x 2 요인 설계가 적용되었다. 3-step 돼지 소화율 모델을 적용하여 채종박의 건물 소화율을 분석하였으며, 72시간 대장발효 후 상층액을 수집하여 단쇄지방산 생성량을 분석한 후 칼로리 단위로 변환하여 가소화에너지 소화율을 분석하였다. 소장 (IVDMDh) 및 전장 (IVDMDt) 건물소화율에서는 고상발효된 채종박이 더 높게 나타났다 (각각 p < 0.01). 마찬가지로, 외인성 효소 첨가제 처리구에서 채종박의 소장 소화율(IVDMDh)이 증가하는 경향을 나타냈다(p = 0.06). Acetic acid 및 butyric acid의 생산은 대조구에 비해 고상발효 처리 시 유의하게 더 생산되었으며 (각각 p < 0.01), 이는 총 단쇄지방산의 생산 증가 경향을 나타냈다(p = 0.09). 에너지 소화율에서는 채종박의 고상발효 및 외인성 효소제 첨가가 유의적으로 높게 나타났다 ( p < 0.01). 그러므로 채종박의 고상발효 처리는 단백질 이용성을 비롯한 영양적 가치를 향상시키는데 효과적이라고 사료된다.
In this study, we investigated the effect of solid culture medium on the production of cordycepin in Cordyceps militaris. The regression equation was expressed as follows: Y1= 755.3-58.6625X1+4.79432E-14X2-46.6625X3-5.66269E-14X1X2- 0.025X1X3+1.62475E-14X2X3-160.6625X1 2+0.0125X2 2-206.9625X3 2, where, Y represents the value of cordycepin content (μg/g), X1 corresponds to the weight of M. alternatus in solid culture medium (g/bottle), X2 to the water content of the solid culture medium (%), and X3 to the culture period (day). The solid culture medium was optimized using the response surface methodology, and the optimal medium composition was as follows: the weight of M. alternatus in solid culture medium and water content were 16.2% and 100.7% (20.14 mL water/20 g solid culture medium), respectively, with a culture period of 39 days. Under these conditions, the cordycepin content of the fruiting bodies reached 150.0 μg/g (actual value). The supplementation of M. alternatus in solid culture for improved cordycepin content of C. militaris seems to be a promising alternative to wild and solid cultivation.
The senior dog population (ages 7+) is increasing worldwide because of a larger interest in the health of companion dogs. In this study, we aimed to develop dog foods via fermentation to address the nutritional needs of senior dogs. The dog food ingredients were fermented with candidates of starter culture and then the fermentation efficiency was compared using pH and ammonia nitrogen for selection of optimum strains. The fermentation was carried out with a moisture content of 60% and starter culture of 1.0×107 cfu/g at 3 7℃ for 24 h. And there were manufactured pre- and post-senior dog foods (treatments) including fermented rice, fermented pinto bean, and fermented soybean meal and it compared with non-fermented dog foods (controls) on fermentation characteristics, in vitro dry matter and crude protein digestibility, and palatability. As results of this study, fermentation efficiency was higher when rice or wheat was inoculated with Lactobacillus brevis (ΔpH; -2.74 ~ -2.94) and meat and bone meal with Lactobacillus reuteri (ΔNH3-N conc.; 4.29 g/L). The ammonia nitrogen level, total volatile fatty acid content, in vitro dry matter and crude protein digestibility of L. brevis-fermented dog food were significantly greater than those of non-fermented dog food (p<0.05). Further, in case of palatability tests, fermented foods tended to have higher palatability compared to non-fermented foods, and no negative effect was observed in fermented foods. These results suggest that fermented food is suitable for senior dogs and could help to maintain adult dog health.
The present study aimed to investigate the effect of fermentation on physical properties of texturized vegetable protein (TVP) by using Bacillus subtilis. TVP was prepared by texturizing the mixture of isolated soy protein (50%), wheat gluten (40%) and corn starch (10%) with the use of twin-screw extruder at two different moisture contents (40% and 50%), 100 g min-1 feed rate, 200 rpm screw speed and 130°C die temperature. Then, TVPs were subjected to solid-state fermentation using B. subtilis at 37°C for 60 h. The texture (springiness, cohesiveness, chewiness and hardness), integrity index and color (lightness, redness and yellowness) of TVPs were determined before and after fermentation for 0, 12, 24, 36, 48 and 60 h, respectively. The springiness and cohesiveness did not change significantly after fermentation in all samples. However, chewiness and hardness decreased with increased fermentation time with the lowest values observed at 60 h after fermentation of TVPs (both 40% and 50% MC). Integrity index of fermented TVPs was significantly reduced while fermentation time was increased. Integrity index started to decrease significantly at 36 h after fermentation in TVP extruded with 40% MC. In another TVP (50% MC), the integrity decreased at 24 h after fermentation but it maintained higher integrity index than TVP (40% MC) throughout the whole fermentation period. The significant total color change was observed with increased fermentation time. During fermentation, lightness and yellowness decreased but redness increased significantly. This study pointed out that TVP fermented by B. subtilis still has good texture, and thus has the potential to become an attractive food for consumers who usually avoid fermented foods due to rotten appearance with no texture.
The present study was conducted to develop persimmon peel, a by-product of dried persimmon manufacturing, as a feed additive via lactic acid bacteria fermentation. Pediococcus pentosaceus, Lactobacillus plantarum, and three strains of Leuconostoc mesenteroides were used as a starter culture in the solid state fermentation of persimmon peel, and antioxidant activity and total polyphenol content were assessed. Leuconostoc mesenteroides KCTC 3100 showed high antioxidant activity (p<0.05), whereas Pediococcus pentosaceus showed high total polyphenol content (p<0.05). These two strains were thus selected as starter culture strains. Glucose, sucrose and molasses were used as variables for optimization and a total 15 experimental runs were produced according to Box-Behnken design. Regarding significant effects of variables, molasses showed linear and square effects on antioxidant activity of persimmon peel fermentation (p<0.05). In conclusion, optimum concentrations of glucose, sucrose, and molasses were determined to be 4.2, 3.9 and 5.3 g/L, respectively, using a response surface model. Antioxidant activity was also improved 2.5 fold after optimization.