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NTIS 바로가기한국환경농학회지 = Korean journal of environmental agriculture, v.37 no.4, 2018년, pp.312 - 316
김종식 (경북해양바이오산업연구원) , 김대신 (세계유산.한라산연구원)
BACKGROUND: Yeast biotechnology finds applications in various industries. Hence, we sought to explore the yeasts associated with the flower of Aster spathulifolius Maxim. This study aimed to isolate yeasts from the flower of the plant and screen for biosurfactant-producing yeasts. METHODS AND RESULT...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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효모의 활용이 광범위하게 이뤄지는 분야는? | 효모는 육상 및 해양생태계뿐만 아니라 식물체, 동물체 등생명체에도 널리 분포한다. 바이오테크놀로지 분야에서 광범 위하게 활용되고 있는 효모는 농업을 비롯한 식품, 생의약, 생체촉매, 작물보호, 전통발효를 포함하여 인류에게 유용하게 활용되는 미생물이다(Deak 2009). 그 중에서도 yeast-like fungi의 일종인 흑효모 Aureobasidium pullulans는 mannitols (Price et al. | |
효모의 특징은? | 효모는 육상 및 해양생태계뿐만 아니라 식물체, 동물체 등생명체에도 널리 분포한다. 바이오테크놀로지 분야에서 광범 위하게 활용되고 있는 효모는 농업을 비롯한 식품, 생의약, 생체촉매, 작물보호, 전통발효를 포함하여 인류에게 유용하게 활용되는 미생물이다(Deak 2009). | |
해국의 생김새는? | )은 국화과(Compositae) 의 반목본성 초본으로, 크기는 높이 30-60cm이며, 제주도를 비롯한 전국 바닷가에 자생하며 일본에도 분포한다(Lee, 2003). 잎은 어긋나고 주걱모양으로 양면에 융털이 있으며, 꽃은 가지끝에 머리모양 꽃차례로 7월부터 11월까지 피며, 겨울에도 반상록으로 자란다(Lee, 1996). 해국의 어린잎은 식용하고 전초를 이뇨제, 보익제, 해수, 방광염 등의 약으로 쓰고, 뿌리줄기는 발한, 이뇨, 진통, 건위 등에 효능이 있다(Yun and Kim, 2010). |
Certik, M., Breierova, E., & Jursikova, P. (2005). Effect of cadmium on lipid composition of Aureobasidium pullulans grown with added extracellular polysaccharides. International Biodeterioration & Biodegradation, 55(3), 195-202.
Deak, T. (2009). Ecology and biodiversity of yeasts with potential value in biotechnology. Yeast biotechnology: diversity and applications (eds. Satyanarayana, T., and Kunze, G.), pp. 151-168, Springer Science + Business Media B. V., Dordrecht.
Kim, J. S., & Kim, D. S. (2015b). Yeasts in the flowers of wild fleabane [Erigeron annus (L.) Pers]. Korean Journal of Environmental Agriculture, 34(3), 254-259.
Kim, J. S., Lee, I. K., & Yun, B. S. (2015). A novel biosurfactant produced by Aureobasidium pullulans L3-GPY from a tiger lily wild flower, Lilium lancifolium Thunb. PLoS One, 10(4), e0122917.
Kim, J. S., Lee, I. K.., Kim, D. W., & Yun, B. S. (2016). Aureosurfactin and 3-deoxyaureosurfactin, novel biosurfactants produced by Aureobasidium pullulans L3-GPY. Journal of Antibiotics. 69(10), 759-761.
Kim, J. S., Lee, I. K., & Yun, B. S. (2018). Pullusurfactans A-E, new biosurfactants produced by Aureobasidium pullulans A11211-4-57 from a fleabane, Erigeron annus (L.) pers. Journal of Antibiotics, 71(11), 920-926.
Leathers, T. D., Rich, J. O., Anderson, A. M., & Manitchotpisit, P. (2013). Lipase production by diverse phylogenetic clades of Aureobasidium pullulans. Biotechnol Letters, 35(10), 1701-1706.
Lee, T. B. (2003). Coloured flora of Korea. Hyangmunsa, Seoul, Korea.
Lee, W. T. (1996). Coloured standard illustrations of Korean plants. Academy Publishing Co., Seoul, Korea.
Liu, S., & Steinbuchel, A. (1996). Investigation of poly ( ${\beta}$ -L-malic acid) production by strains of Aureobasidium pullulans. Applied Microbiology and Biotechnology, 46(3), 273-278.
Ma, Z. C., Chi, Z., Geng Q., Zhang, F., & Chi, Z. (2012). Disruption of the pullulan synthetase gene in siderophore-producing Aureobasidium pullulans enhances siderophore production and simplifies siderophore extraction. Process Biochemistry 47(12), 1807-1812.
Mari, M., Martini, C., Spadoni, A., Rouissi, W., & Bertolini, P. (2012). Biocontrol of apple postharvest decay by Aureobasidium pullulans. Postharvest Biology and Technology 73, 56-62.
Nagata, N., Nakahara, T., & Tabuchi, T. (1993). Fermentative production of poly ( ${\beta}$ -L-malic acid), a polyelectrolytic biopolyester, by Aureobasidium sp. Bioscience, Biotechnology, and Biochemistry, 57(4), 638-642.
Prasongsuk, S., Ployngam, S., Wacharashindhu, S., Lotrakul, P., & Punnapayak, H. (2013). Effects of sugar and amino acid supplementation on Aureobasidium pullulans NRRL58536 antifungal activity against four Aspergillus species. Applied Microbiology and Biotechnology, 97(17), 7821-7830.
Price, N. P., Manitchotpisit, P., Vermillion, K. E., Bowman, M. J., & Leathers, T. D. (2013). Structural characterization of novel extracellular liamocins (mannitol oils) produced by Aureobasidium pullulans strain NRRL 50380. Carbohydrate Research, 370, 24-32.
Rich, J. O., Manitchotpisit, P., Peterson, S. W., & Leathers, T. D. (2011). Laccase production by diverse phylogenetic clades of Aureobasidium pullulans. Rangsit Journal of Arts and Sciences, 1(1), 41-47.
Saitou, N., & Nei, M. (1987). The neighbor-joining method: a new method for reconstructing phylogenetic trees. Molecular Biology and Evolution, 4(4), 406-425.
Tamura, K., Peterson, D., Peterson, N., Stecher, G., Nei, M., & Kumar, S. (2011). MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Molecular Biology and Evolution, 28(10), 2731-2739.
Turk, M., Mejanelle, L, Sentjure, M., Grimalt, J. O., Gunde-Cimerman, N., & Plemenitas, A. (2004). Salt-induced changes in lipid composition and membrane fluidity of halophilic yeast-like melanized fungi. Extremophiles. 8(1), 53-61.
Yun, K. W., & Kim, M. Y. (2010). Korean medicinal plants. Korea. pp. 502-503, Shinkwang Publishing Co., Seoul.
Zan, Z., & Zou, X. (2013). Efficient production of polymalic acid from raw sweet potato hydrolysate with immobilized cells of Aureobasidium pullulans CCTCC M2012223 in aerobic fibrous bed bioreactor. Journal of Chemical Technology & Biotechnology, 88(10), 1822-1827.
Zou, X., Zhou, Y., & Yang, S. T. (2013). Production of polymalic acid and malic acid by Aureobasidium pullulans fermentation and acid hydrolysis. Biotechnology and Bioengineering, 110(8), 2105-2113.
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