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미니총설 : 바이오플라스틱 생산 미생물 플랫폼 제작을 위한 대사공학 전략 개발
박시재 ( Si Jae Park ),요키미코데이비드 ( Yokimiko David ),메리그레이스베일런 ( Mary Grace Baylon ),홍순호 ( Soon Ho Hong ),오영훈 ( Young Hoon Oh ),양정은 ( Jung Eun Yang ),최소영 ( So Young Choi ),이승환 ( Seung Hwan Lee ),이상엽 ( Sang 한국공업화학회 2014 공업화학 Vol.25 No.2
환경오염, 기후변화, 고갈되어가는 화석원료에 대한 문제를 해결하기 위해 재생가능한 자원으로부터 케미칼 및 고분자 등의 산업자원을 생산하는 친환경 공정개발에 많은 연구가 진행되고 있다. 최근에 재생가능한 바이오매스로부터 다양한 케미칼 및 고분자 등을 생산하는 바이오리파이너리 공정이 많은 관심을 받고 있으며, 석유화학기반산업을 보완 혹은 대체할 가능성이 매우 높은 친환경공정으로 생각되고 있다. 본 총설에서는 바이오리파이너리 공정에 핵심적인 촉매로 사용되고 있는 재조합 미생물의 개발의 최근 동향을 바이오나일론, 바이오폴리에스터의 생산을 위하여 개발되고 있는 재조합 미생물의 대사공학전략을 중심으로 살펴보고자 한다. As the concerns about environmental problems, climate change and limited fossil resources increase, bio-based production of chemicals and polymers from renewable resources gains much attention as one of the promising solutions to deal with these problems. To solve these problems, much effort has been devoted to the development of sustainable process using renewable resources. Recently, many chemicals and polymers have been synthesized by biorefinery process and these bio-based chemicals and plastics have been suggested as strong candidates to substitute petroleum-based products. In this review, we discuss current advances on the development of metabolically engineered microorganisms for the efficient production of bio-based chemicals and polymers.
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Bio-solubilization of the untreated low rank coal by alkali-producing bacteria isolated from soil
메리 그레이스 베일런,요키미코 데이비드,Sudheer D. V. N. Pamidimarri,Kei-Anne Baritugo,채철기,김유진,김태원,김민식,나정걸,박시재 한국화학공학회 2017 Korean Journal of Chemical Engineering Vol.34 No.1
Coal is a hydrocarbon-rich fossil fuel considered as a possible replacement for petroleum as a feedstock for the production of fuel and valuable chemicals. In this study, bacteria capable of solubilizing untreated low rank coal were isolated from soil. A total of 19 microorganisms were isolated from soil enriched in MR medium with coal and were identified based on 16S rRNA sequencing. The identified soil isolates belonging to the genera Citricoccus, Comamonas, Cupriavidus, Sphingomonas, and Sphingopyxis were screened based on their growth in the chemically defined MR medium containing different concentrations of coal. Among the identified microbial strains, Cupriavidus necator S2A2, Sphingopyxis ginsengisoli S2B14 and Sphingomonas sp. S2B18 were further characterized for their ability to degrade low-rank coal. Cupriavidus necator S2A2, Sphingopyxis ginsengisoli S2B14 and Sphingomonas sp. S2B18 were found to solubilize untreated low-rank coal as indicated by the release of solubilized coal products detected at OD450 when they were grown in LB medium containing 1% coal. Sphingomonas sp. S2B18 showed the highest coal solubilization activity, based on the high absorbance of its culture supernatant (0.190). Although laccase-like activity was not detected in these strains when tested for RBBR dye degradation, increase in the pH of the culture medium up to 8.25- 8.34 was observed. This may be attributed to the excretion of alkaline substances in the culture medium. Since biosolubilization of coal by microorganisms is a good alternative for the chemical conversion of coal, microorganisms screened in this study can be potentially used as biological catalysts for the conversion of coal into valuable chemicals.
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