We investigated the anti-inflammatory effects of shiitake mushroom and kelp (SMK) mixture extracts in lipopolysaccharide (LPS)-stimulated murine RAW 264.7 cells. Treatment of RAW 264.7 cells with LPS significantly increased NO (nitric oxide) production, pro-inflammatory cytokines (tumor necrosis factor (TNF)-α, interferon (IFN)-γ, interleukin (IL)-6, and IL-1β), and inflammation-related genes (COX-2 and inducible nitric oxide synthase (iNOS)). In cytotoxicity testing using RAW 264.7 cells, SMK mixture extracts in the range of 1-16 μg/mL did not inhibit cell proliferation. However, SMK mixture extracts significantly inhibited NO production in a dose-dependent manner (p<0.05). SMK treatment significantly decreased TNF-α, IL-6, IFN-γ, and IL-1β levels compared to the LPS group, and similarly, pro-inflammatory cytokine mRNA levels also decreased. SMK mixture extracts reduced the mRNA expression of COX-2 and iNOS in RAW 264.7 cells compared to LPS (p<0.05). The above results show that SMK mixture extracts suppressed the inflammatory response induced by LPS. In particular, the extracts were shown to regulate the inflammatory response by suppressing the expression of inflammatory cytokines and inflammation-related enzymes.
This study was conducted to investigate the reasons for the decreased importation of fresh Shiitake mushrooms into Korea after implementation of the Korea–China Free Trade Agreement (FTA). Monthly time-series data from January 2009 to December 2022 were analyzed using regression analysis and vector autoregression (VAR) models to determine the relationship between the amounts of fresh and spawn Shiitake mushrooms imported. The analysis revealed that a major reason for the decreased importation of fresh Shiitake mushrooms was an increase in mushroom spawn imports after Korea–China FTA implementation. The same results were obtained from the VAR model analysis. However, in terms of the dynamic changes in amount of fresh shiitake mushrooms imported, it was confirmed that the impact of the change in mushroom spawn imports could increase the amount of Shiitake mushrooms imported.
본 연구에서는 원목재배용 표고(Lentinula edodes) 국산 품종에 대한 장흥지역에서 적합한 표고품종 선발을 위해 국내산 총 5개(천백고, 수향고, 백화향, 풍년고, 산조303호) 품종과 일본산 2개(모리290, 모리유지로) 품종을 선택하여 적합품종 선발을 위해 재배시험을 실시하였다. 생산량 조사결과 산조303호가 40.9 kg으로 모리290 39.2 kg, 모리유지로 37.7 kg 보다 우수한 생산량을 보였다. 표고의 품질은 백화향이 갓이 반구형으로 형태가 우수하였으며, 화고형으로 발생하는 특징을 가진 것으로 확인되었다. 기존 재배중인 일본산 품종과 발생특성이 유사하며 생산량이 우수한 산조303호와 고품질의 표고를 생산하는데 유리한 백화향이 장흥지역에서 적합한 국산 표고품종으로 선발하였다.
국내산 표고의 식품성분 특성 및 항산화 활성을 알아보기 위해 시판되고 있는 표고 5종을 경남 진주, 전남 광양 및 순천 지역의 농산물 시장 또는 대형 마트에서 구입하여 분석하였다. 수분 함량은 79.17~82.90 g/100 g으로 시료 간의 차이가 적었으나, 조단백질 함량에서 유의적인 차이를 보였다. 무기질 총량은 시료 간의 유의적인 차이를 보였으며, 특히 칼륨(K)의 함량이 가장 많았다. 총 아미노산 및 필수아미노산의 함량은 표고 “A”에서 월등히 높았으나, 총 아미노산에서 필수아미노산 및 aspartic acid 와 glutamic acid의 함량 비율은 시료 간에 비슷한 수준이었다. β-Glucan 함량은 10.28~15.68 g/100 g으로 시료 간의 유의적인 차이를 보였다. 시판 표고의 색도와 전반적인 조직감에서는 시료 간의 두드러진 차이가 없었다. 총 페놀 함량은 19.92~30.77 mg/100 g, 플라보노이드 함량은 6.95~10.39 mg/100 g이었으며, 총 페놀 함량에 대한 플라 보노이드 함량의 비율은 31.53~38.21%였다. DPPH 라디 칼소거활성은 74.92~79.04%, ABTS 라디칼 소거활성은 80.47~84.97%로 시료 간의 큰 차이를 보이지 않았으나, 환원력은 195.23~317.85 μM로 시료 간의 유의차를 보였다. 본 연구 결과, 공시한 표고 5종의 식품성분이나 항산화 활성에서 두드러진 차이는 보이지 않았다.
To improve the productivity of shiitake mushroom (Lentinula edodes), seven different types of media for liquid spawn (denoted as “A” to “G”) were prepared with 0.3% soybean meal and varying sugar and glucose concentrations. During 14 days of incubation, the pH of the liquid culture gradually acidified with increasing incubation period. Additionally, there was a significant, but not prominent, difference in the degree of acidification depending on the sugar to glucose ratio. Liquid spawn culture “G,” which had the highest sugar content was the most acidic on the last day of incubation. Mycelium dry weight increased significantly with increasing incubation period, and there was no significant difference in mycelium dry weight irrespective of the sugar to glucose ratio even after 14 days of culture. The inoculation of liquid spawn in sawdust medium with an inoculation volume ≥ 45 mL and incubation period of 15 to 18 days were the optimal culture conditions. Productivity of fruit bodies in sawdust medium and mushrooms treated with liquid spawn was significantly higher compared to solid spawn treatment. The mushrooms treated with liquid spawn had better chewiness, and the free amino acid content, which is associated with savory taste, was higher in these mushrooms compared to those treated with solid spawn.
The incorporation of Shiitake culture into sawdust is a widely utilized technique that can assist in reducing the cost and time consumption associated with oak cultivation. In sawdust cultivation, browning of the surface mycelia is an important stage with respect to the utility and longevity of the sawdust media. Surface browning forms a protective coating on the substrate, which can inhibit the invasion of pathogens and suppress water evaporation. Several different light sources (red LED, white LED, blue LED, and fluorescent light) were used and the intensity of illumination was carefully controlled (1.5, 10.5, 20.5 μmol/m2s for LEDs and 10, 100, 300 lux for the fluorescent light) to induce browning. The light sources were regulated via a 1 h on/off cycle in a controlled room environment at a temperature of 20°C, 60% humidity, and 1200 ppm CO2 concentration for 60days.The browning effect varied depending on the source and the intensity of illumination. This effect was most effectively induced at 1.5 μmol/m2s for the red and blue LEDs. All light sources induced less browning at the highest intensity of illumination. This indicates that intensity values higher than 20.5 μmol/m2s in the case of the LEDs and 300 lux for the fluorescent light are not effective. After harvesting of the fruit bodies, we measured the weight, length, and width of the pileus and stipe in addition to their chromaticity and hardness. Treatment with 1.5 μmol/m2s blue LED produced the best harvest with the highest average chromaticity, weight (21.2 g), stipe length (30.8 mm), and hardness (377.9 g), with a fine length and width of the pileus.
In the 21st century, information and communication technology (ICT) worldwide presents a new vision for agriculture. Time and place, as well as the high-tech industry, to overcome barriers to the fusion of the so-called "smart agriculture," are changing the agricultural landscape. Core container production in precision agriculture for mushroom cultivation, optimal temperature, humidity, irradiation, self-regulation of factors such as carbon dioxide, and environment for mushroom cultivation were adopted. Lentinula edodes (shiitake) is an edible mushroom native to East Asia, cultivated and consumed in many Asian countries. It is considered to be medicinal in certain practices of traditional medicine. We used different controlled light sources (Blue-Red-White-combined LED, blue LED, red LED, and fluorescent light) with different LED radiation intensities (1.5, 10.5, and 20.5 μmol/㎡s for LEDs) to compare growth and development. Mushrooms were treated with light in a 12-hour-on/ 12-hour-off cycle, and maintained in a controlled room at 19~21°C, with 80~90% humidity, and an atmospheric CO2 concentration of 1,000 ppm for 30 days. Growth and development differed with the LED source color and LED radiation intensity. Growth and development were the highest at 10.5 μmol/㎡s of blue LED light. After harvesting the fruit bodies, we measured their weight and length, thickness of pileus and stipe, chromaticity, and hardness. The 10.5 μmol/㎡s blue-LED-irradiated group showed the best harvest results with an average individual weight of 39.82 g and length of 64.03 mm, pileus thickness of 30.85 mm and pileus length of 43.22 mm, and stipe thickness of 16.96 mm with fine chromaticity and hardness. These results showed that blue LED light at 10.5 μmol/㎡s exerted the best effect on the growth and development of L. edodes (shiitake) mushroom in the ICT-system container-type environment.
In this study, the morphology and antioxidant content of shiitake mushrooms (Lentinula edodes) cultivated in smart farms and general farms have been compared. With regard to morphology, mushrooms produced in the smart farm system exhibited a slightly thicker and wider pileus and thicker and longer stipe than those in the general farm system. The stipe in the mushrooms from moderate-sized farms was harder, because the low relative humidity of cultivation rooms could induce mushroom tissue to harden. With regard to the antioxidant content, the free radical scavenging activity was evaluated by the DPPH assay. Among the various treatments, hot water extracts of freeze-dried shiitake produced from smart farms exhibited the highest DPPH value of 37.8%. In contrast, the lowest activity of 12.2% was observed in a 70% fermented alcohol extract of shiitake that was dried by hot air. The polyphenol content was higher in hot water extracts than in 70% fermented alcohol extracts. Additionally, the polyphenol content was higher in the freeze-dried samples than in hot-air dried ones. The smart-farm system was preferred over the general cropping system for cultivating shiitake mushrooms, because the antioxidant activity and polyphenol content of mushrooms from the smart-farm system was better; the functionality of this system was more improved than that of the general cropping system, and it enables mushrooms to be cultivated more efficiently. The antioxidant content is represented as the mean±SD of three replicates. Different letters indicate significant differences among samples, i.e., p<0.05.
In this study, a method to produce a fine volatile powder extracted from shiitake mushrooms using spray freeze-drying (SFD) was investigated. The analysis of the water-soluble aromatic compounds was carried out by headspace solid phase micro-extraction (HS-SPME) coupled withgas chromatography-mass spectrometry (GC-MS). Scanning electron microscopy (SEM) and laser particle size analysis were applied to characterizethe physical structure and size distribution of the SFD-derivedparticles. Eleven key volatile compounds were identified in the extracts of shiitake mushroomspre- and post-SFD. Recoveries of aromatic volatiles ranging from 30.9 - 82.9% were observed in the overall flavor profile results from the powder obtained with SFD. SEM analysis demonstrated that the particles of the aromatic powderwere spherical in nature, having highly porous surfaces andmean diameters of 19.3 μm.
In this study, shiitake mushrooms (Lentinula edodes) cultivated in smart-farm and general farm were compared in morphology and physiology. In morphology, mushrooms produced in smart farm system showd a little bit thicker and wider pileus and thicker and longer stipe compared with those produced from general farm. The hardness of stipe was higher in the mushrooms from moderate farm, since low relative humidity in cultivation rooms can induce the mushroom tissue harder. In the aspect of physiology, the free radical scavenging activity was evaluated by DPPH assay. Among the various treatments, hot water extracts of freeze-dried shiitake produced from smart farm represented the highest DPPH value as 37.8%. In contrast, 70% ferment alcohol extract of shiitake which was dried by hot air showed the lowest activity value of 12.2%. The hot water extracts showed higher polyphenol contents than 70% ferment alcohol extracts. And the freeze-dried samples showed higher polyphenol contents than hot-air dried ones. When cultivating the shiitake by the smart was sold rather than cultivating with the general cropping system, using the system, the antioxidant activity and polyphenol content makes the mushroom in which the functionality improves more highly than me and general cropping system and it will be helpful.
Information and communication technology(ICT) around the world in the 21st century presents a new vision of agriculture. Time, place, and the high-tech industry to overcome barriers to the fusion of the so-called “smart agriculture” is changing the landscape of agriculture. Precision Agriculture’s core container production for the mushroom cultivation temperature, humidity, irradiation, self-regulation, such as carbon dioxide, the optimal environment for mushroom cultivation was implemented. The Lentinula edodes (shiitake) is an edible mushroom native to East Asia, which is cultivated and consumed in many Asian countries. It is considered a medicinal mushroom in some forms of traditional medicine. The fungus was first described scientifically as Agaricus edodes by Miles Joseph Berkeley in 1877. It was placed in the genus Lentinula by David Pegler in 1976. We controlled different light source (Blue-Red-White combined LED, blue LED, red LED and fluorescent light) with different intensity of LED irradiation (1.5, 10.5, 20.5 μmol/m2s for LEDs) to compare growth and development. Lights were treated with 12 hour on/ 12hour off cycle maintained in a controlled room with 19 ~ 21oC temperature, 80~90% humidity, and 1,000 ppm CO2 atmosphere concentration for 30 days. Growth and development differed from the LED color source and intensity of LED irradiation. Growth and development was most effective in 10.5 μmol/m2s for blue LED. All LED light sources showed less growth and development in lowest intensity of irradiation, which indicates that higher than 1.5 μmol/m2s for LED is not effective. After harvesting fruit bodies, we measured their weight and length, thickness of pileus and stipe, chromaticity, and hardness. 10.5 μmol/m2s blue LED group was the best result of harvest with average individual weight (24.7g) and length (61.98mm), thickness (29.93mm) of pileus and length (33.60mm), thickness (16.86mm) of stipe with fine chromaticity, hardness. This results show us that 10.5 μmol/m2s blue LED was the best effect on growth and development of Lentinus edodes (shiitake) mushroom’s ICT system container type environment.
Shiitake culture in sawdust is a widely applied method, which can supplement the disadvantages of costly and time consuming oak log cultivation. In sawdust cultivation, browning of surface mycelia is an important stage for the productivity and longevity of sawdust media. Surface browning forms protection coat for the substrate, which can block the invasion of outer pathogens and suppress water evaporation in the substrate. We controlled different light source (red LED, white LED, blue LED, and fluorescent light) with different intensity of illumination (1.5, 10.5, 20.5 μmol/m2s for LEDs and 10, 100, 300 lux for fluorescent light) to induce browning. Lights were treated with 1 hour on/ 1 hour off cycle maintained in a controlled room with 20oC temperature, 60% humidity, and 1200 ppm CO2 atmosphere concentration for 67 days. Browning effect differed from the source and intensity of illumination. Browning was most effective in 1.5 μmol/m2s for blue LED. All light sources showed less browning in highest intensity of illumination, which indicates that higher than 20.5 μmol/m2s for LEDs or 300 lux for fluorescent light are not effective. After harvesting fruit bodies, we measured their weight, length and width of pileus and stipe, chromaticity, and hardness. Treatment with 1.5 μmol/m2s blue LED produced the best harvest with highest average individual weight (21.2g), stipe length (30.8 mm), and hardness (377.9 g) with fine length and width of pileus, and chromaticity. This results indicate that 1.5 μmol/m2s blue LED showed the best browning effect which resulted in the best harvest yeild.
This research aimed to improve the healthy properties of puffer fish broth, which has been utilized in Korean and Japanese food. Various healthy foods such as garlic, onion, mushroom, and cauliflower were added as ingredients to pufffer fish stock, and the antioxidative activity of each stock was measured by assaying the DPPH and ABTS radical scavenging activities, reducing power and amount of polyphenol. Shiitake was the most effective in increasing the antioxidative activity of puffer fish stock. The high antioxidative activity of shiitake mushroom seems to be correlated with the amount of polyphenol content in puffer fish broth. The antioxidant activities of puffer fish stock increased proportionally with increasing amount of added shiitake, which in turn was due to the increased amount of total polyphenol in the stock.