2011, Lawrence Berkeley National Laboratory 박사후연구원
2010, Heinrich Heine Universität Düsseldorf 미생물학 박사 (율리히연구소)
2006, KAIST 생명화학공학과 석사
2004, 고려대학교 화공생명공학과 학사
약력/경력
06.2015 – Present: Editorial Board Member in Microbiology, Scientific Reports, Nature Publishing Group
09.2012 – 08.2016: Adjunct Professor, Green School (Graduate School of Energy and Environment), Korea University, Seoul, South Korea
11.2011 – 08.2016: Senior Research Scientist, Clean Energy Research Center, Korea Institute of Science and Technology (KIST), Seoul, South Korea
11.2010 – 10.2011: Biologist Postdoctoral Fellow, Lawrence Berkeley National Laboratory, Joint BioEnergy Institute, Emeryville, CA, USA 94608
관심분야
Microbial cell designs to produce valuable chemicals such as biofuels, biomaterials, and biochemicals etc. from renewable resources i.e. biomass and carbon dioxide using recent genetic engineering tools (CRISPR genetics, Metabolic engineering and Synthetic Biology).
연구키워드
Food Molecular Biotechnology, Metabolic engineering, Synthetic biology, Systems Biology, Industrial Biotechnology, Biotechnology and Bioengineering for Food Industry, Robotic Biotechnology
연구성과
Food Molecular Biotechnology (FMB) Lab. at Sungkyunkwan University (SKKU) is a multi-disciplinary laboratory to develop efficient microorganisms to produce valuable chemicals such as biofuels, biomaterials, and biochemicals etc from renewable resources i.e. biomass and carbon dioxide using recent genetic engineering tools (CRISPR genetics, Metabolic engineering and Synthetic Biology).
논문
#Ravikumar, S., #Woo, H.M., *Choi, J.I., Analysis of novel antioxidant sesquarterpenes (C35 terpenes) produced in recombinant Corynebacterium glutamicum (2018) Appl. Biochem. Biotechnol. In press
Yoon, J.K. and *Woo, H.M., CRISPR interference-mediated metabolic engineering of Corynebacterium glutamicum for homo-butyrate production (2018.08) Biotechnol. Bioeng. Accepted
#Lee, S.S., #Shin, H., Jo, S., Lee, S.M., Um, Y. and *Woo, H.M., Rapid identification of unknown carboxyl esterase activity in Corynebacterium glutamicum using RNA-guided CRISPR interference (2018.07) Enzyme Microb. Technol. 114:63-68
Choi, S.Y., Sim, S.J., Choi. J.-I., *Woo, H.M., Identification of small droplets of squalene in engineered Synechococcus elongatus PCC 7942 using TEM and selective fluorescent Nile red analysis (2018.06). Lett. Appl. Microbiol. Accepted
Kim, E.S.., Kim, K.Y., Kim, B.S., Woo, H.M., Lee, S.M., *Um, Y. Aerobic and anaerobic cellulose utilization by Paenibacillus sp. CAA11 and enhancement of its cellulolytic ability by expressing a heterologous endoglucanase (2018.02) J. Biotechnol. 268:21-27
Choi, Y.Y., Hong, M.E., Jin E.S., Woo, H.M., *Sim, S.J. Improvement in modular scalability of polymeric thin-film photobioreactor for autotrophic culturing of Haematococcus pluvialis using industrial flue gas (2018.02). Bioresour. Technol. 249:519-526
*Woo, H.M., Metabolic pathway rewiring in engineered cyanobacteria for solar-to-chemical and solar-to-fuel production from CO2. (2018.01) Bioengineered. (9(1) 2-5
#Park, J., #Shin, H., Lee, S.M., Um, Y., *Woo, H.M., RNA-guided single/double gene repressions in Corynebacterium glutamicum using an efficient CRISPR interference and its application to industrial strain (2018.01) Microb. Cell Fact. 17:4
Yoo, S.K., Joo, Y.C., Kang, D.H., Shin, S.K., Hyeon, J.E., Woo, H.M., Um, Y., Park, C., *Han, S.O., Enhancing fatty acid production of Saccharomyces cerevisiae as animal feed supplement, (2017.12). J. Agric. Food. Chem. 65(50) 11029-11035
Lee, H.J., Lee, J., Lee, S.M., Um, Y., Sim, S.J., Choi. J.-I., *Woo, H.M., Direct conversion of CO2 to -farnesene by metabolically engineered Synechococcus elongates PCC 7942, (2017.12). J. Agric. Food. Chem. 65(48),10424-10428 (Issue Cover)
Kim, E.M., Woo, H.M.., Tian Tian, T., Yilmaz, S., Pouya Javidpour, P., Keasling, J.D., *Lee, T.S. Autonomous control of metabolic state by a quorum sensing (QS)-mediated regulator for bisabolene production in engineered E. coli, (2017.11). Metab. Eng. 44:325-336
Min, K., Yum, T., Kim, J., Woo, H.M., Kim, Y., Sang, B.I., Yoo, Y.J., Kim, Y.H, *Um, Y., Perspective for lignin utilization: cleaving 4-O-5 and Cα-Cβ in dimeric model compounds catalyzed by promiscuous activity of tyrosinase (2017). Biotechnol. Biofuel. 10:212
Gong, G., Kim, S., Lee, S.M., Woo, H.M., Park, T.H., *Um, Y., Complete genome sequence of Bacillus sp. 275, producing extracellular cellulolytic, xylanolytic and ligninolytic enzymes. (2017.07) J. Biotechnol. 254, 59-62
Gong, G., Lee, S.M., Woo, H.M., Park, T.H., *Um, Y., Influences of media compositions on characteristics of isolated bacteria exhibiting lignocellulolytic activities from various environmental sites. (2017) Appl. Biochem. Biotechnol. 183(3) 931-942
Choi, S.Y., Wang, J.Y., Kwak, H.S., Lee, S.M., Um, Y., Kim, Y., Sim, S.J., Choi. J.-I., *Woo, H.M., Improvement of squalene production from CO2 in Synechococcus elongatus PCC 7942 by metabolic engineering and scalable production in a photobioreactor (2017.07). ACS Synth. Biol. 6(7):1289-1295
*Woo, H.M., Lee, H.J., Toward direct biodiesel production from CO2 using engineered cyanobacteria (2017.05). FEMS Microbiol. Lett. 364(9): fnx066.
Jo, S., Yoon, J., Lee, S.M., Um, Y., Han, S.O., *Woo, H.M., Modular pathway engineering of Corynebacterium glutamicum to improve xylose utilization and succinate (2017.09) J. Biotechnol. 258:69-78
*Woo, H.M., Solar-to-chemical and solar-to–fuel production from CO2 by metabolically engineered microorganisms. (2017.06) Curr. Opin. Biotechnol. 45:1-7()
Kim, T., Cho, S, Woo, H.M., Lee, S.M., Lee, J., *Um, Y., Seo, J.H., High production of 2,3-butanediol from glycerol without 1,3-propanediol formation by Raoultella ornithinolytica B6 (2017.04). Appl. Microbiol. Biotechnol. 101:2821-2830
Kim, W.J, Lee, S.M., Um, Y., Sim, S.J., *Woo, H.M., Development of SyneBrick vectors as a synthetic biology platform for gene expression in Synechococcus elongatus PCC 7942, (2017.03). Front. Plant Sci. 8:293
Lee, H.J., Choi, J., Lee, S.M., Um, Y., Sim, S.J., Kim, Y., *Woo, H.M., Photosynthetic CO2 conversion to fatty acid ethyl esters (FAEEs) using engineered cyanobacteria, (2017.01). J. Agric. Food. Chem. 65(6) 1087-1092
Youn, S.H., Kim, K.-Y., Lee, K.M., Lee, S.-M., Woo, H.M., *Um, Y., Effective Isopropanol-Butanol (IB) fermentation by a newly isolated Clostridium sp. A1424 (2016.10). Biotechnol. Biofuels. 9:230 1-15
Kim, T., Cho, S., Lee, S.M., Woo, H.M., Lee, J., *Um, Y., and *Seo, J.H., High Production of 2,3-Butanediol (2,3-BD) by Raoultella ornithinolytica B6 via Optimizing Fermentation Conditions and Overexpressing 2,3-BD Synthesis Genes. (2016.10) PLOS ONE 11(10): e0165076
Kim, M., Kim, K.Y., Lee, K.M., Youn, S.H., Lee, S.M., Woo, H.M., Oh, M.K., *Um, Y., Butyric acid production from softwood hydrolysate by acetate-consuming Clostridium sp. S1 with high butyric acid yield and selectivity (2016.10) Bioresour. Technol. 218:1208-1214
Kwak, H.S., Kim, J., Woo, H.M., Jin, E.S., Min, B.K., Sim, S.J. Synergistic effect of multiple stress conditions for improving microalgal lipid production, (2016.09). Algal Res. 19: 215-224
#Choi, S.Y., #Lee, H.J., Choi, J., Kim, J., Sim, S.J., Um, Y., Kim, Y., Lee, T.S., Keasling, J., *Woo, H.M., Photosynthetic conversion of CO2 to farnesyl diphosphate-derived phytochemicals (amorpha-4,11-diene and squalene) by engineered cyanobacteria, (2016.09). Biotechnol. Biofuels. 9:202. 1-12
Chwa, J.W., Kim, W.J., Um, Y., Sim, S.J., *Woo, H.M., Engineering of a modular and synthetic phosphoketolase pathway for photosynthetic production of acetone from CO2 in Synechococcus elongatus PCC 7942 under light and aerobic condition (2016.08). Plant Biotechnol. J. 14:1768-1776
Ko, J.K., Um, Y., Woo, H.M., Kim, K.H., *Lee, S.M., Ethanol production from lignocellulosic hydrolysate using engineered Saccharomyces cerevisiae harboring xylose isomerase-based pathway (2016.06). Bioresour. Technol. 209:290-296.
Choo, S., Um, Y., Han, S.O. and *Woo, H.M., Engineering of Corynebacterium glutamicum to utilize methyl acetate, a potential feedstock derived by carbonylation of methanol with CO (2016.04). J. Biotechnol. 224:47-50.
Kim, S, Gong, G, Woo, H.M., Kim, Y., *Um, Y., Burkholderia jirisanensis sp. nov. isolated from forest soil. (2016.03) Int. J. Syst. Evol. Microbiol. 66:1260-1267.
Lee, J., Saddler, J., Um, Y., *Woo, H.M., Adaptive evolution and metabolic engineering of a cellobiose- and xylose- negative Corynebacterium glutamicum that co-utilizes cellobiose and xylose (2016.01). Microb. Cell Fact. 15:20.
Kim, E.-M., Um, Y., Bott, M., *Woo, H.M., Engineering of Corynebacterium glutamicum for growth and succinate production from levoglucosan as a pyrolytic sugar substrate. (2015.10) FEMS Microbiol. Lett. 360 (19) fnv161
Cho, S., Kim, T., Woo, H.M., Lee, J., Kim, Y., *Um, Y., Enhanced 2,3-butanediol production by optimizing fermentation conditions and engineering Klebsiella oxytoca M1 through overexpression of acetoin reductase., (2015.9). PloS One. 10(9) e0138109.
Cho, S., Kim, T., Woo, H.M., Lee, J., Kim, Y., *Um, Y., High production of 2,3-butanediol from biodiesel-derived glycerol by metabolically engineered Klebsiella oxytoca M1, (2015.09). Biotechnol Fuels. 8: 146.
Lee, K., Choi, O., Kim, K.Y., Woo, H.M., Kim, Y., Han, S.O., Sang, B.I., *Um, Y., Butyric acid production from red algae by a newly isolated Clostridium sp. S1 (2015.9). Biotechnol. Lett. 37:1837-1844
Oh, Y.H., Choi, J.W., Kim, E. Y., Song, B.K., Jeong, K.J., Park, K., Kim, I.-K., Woo, H.M., *Park, S.J., Lee, S.H., Construction of synthetic promoter-based expression cassettes for the production of cadaverine in recombinant Corynebacterium glutamicum (2015.8). Appl. Biochem. Biotechnol. 176:2065–2075
Lee, K., Min, K., Choi, O., Kim, K., Woo, H.M., Han, S.O., Kim, Y., *Um, Y., Electrochemical detoxification of phenolic compounds in lignocellulosic hydrolysate for Clostridium fermentation (2015.7). Bioresour. Technol. 187.228-234
Kim, E.-M. Eom, J.H., Kim, Y., Um, Y., *Woo, H.M., Microbial synthesis of myrcene by metabolically-engineered Escherichia coli. (2015.05) J. Agric. Food. Chem. 63(18) 4606-4612. (CAP-/)
Lee, K., Choi, O., Kim, T., Kim, K., Woo, H.M., Han, S.O., Sang, B.-I., *Um, Y., In situ detoxification of lignocellulosic hydrolysate using a surfactant for butyric acid production by tyrobutyricum ATCC 25755 (2015.4). Proc. Biochem. 50:630-635
Park, H.-S., Um, Y., Sim, S.J., Lee, S.Y., *Woo, H.M., Transcriptomic analysis of Corynebacterium glutamicum in the response to the toxicity of furfural present in lignocellulosic hydrolysates (2015.03). Proc. Biochem. 50:347-356
Min, K., Gong, G., Woo, H.M., Kim, Y., *Um, Y., A dye-decolorizing peroxidase from Bacillus subtilis exhibiting substrate-dependent optimum temperature for dyes and β-ether lignin dimer (2015.02). Sci. Rep. 5:8245
Gong, G., Um, Y., Park, T.H., *Woo, H.M., Compete genome sequence of Enterobacter cloacae GGT036, a furfural degrading bacterium (2015.01). J. Biotechnol.193:43-44.
Choi, S.Y., Gong, G., Park, H.-S., Um, Y., Sim, S.J., *Woo, H.M., Extreme furfural tolerance of a soil bacterium Enterobacter cloacae GGT036 (2015.01). J. Biotechnol. 193:11-13.
Choi, O., Kim, T., Woo, H.M., *Um, Y., Electricity-driven metabolic shift through direct electron uptake by electroactive heterotroph Clostridium (2014.11). Sci. Rep. 4:6961.
Kang, M.-K., Eom, J.H., Kim. Y., Um, Y., *Woo, H.M., Biosynthesis of pinene from glucose using metabolically-engineered Corynebacterium glutamicum, (2014.10). Biotechnol. Lett. 36:2069-2077
Lee, J., Sim, S.J., Bott, M., Um, Y., Oh, M.-K., *Woo, H.M., Succinate production from CO2-grown microalgal biomass as carbon source using engineered Corynebacterium glutamicum through consolidated bioprocessing. (2014.7) Sci. Rep. 4:5819
#Kang, M.-K., #Lee, J., Um, Y., Lee, T.S., Bott, M., Park, S.J., *Woo, H.M., Synthetic biology platform of CoryneBrick vectors for gene expression in C. glutamicum and its application to xylose utilization, (2014.7). Appl. Microbiol. Biotechnol. 98:5991-6002
*Woo, H.M. and Park, J.B., Recent progress in development of synthetic biology platforms and metabolic engineering of Corynebacterium glutamicum, (2014.6). J. Biotechnol. 180:43-51
#Lee, J., #Woo, H.M., Kong, G., Nam, S.J., Chung, B.C., Discovery of Urinary Biomarkers in Patients with Brest Cancer Based on Metabolomics, (2013.12). Mass Spec. Lett. 4(4):59-66.
Woo, H.M., Murray, G.W., Batth, T.S., Prasad, N., Adams, P.D., Keasling, J., Petzold, C., Lee, T.S., Application of targeted proteomics and biological parts assembly in E. coli to optimize the biosynthesis of an anti-malarial drug precursor, amorpha-4,11-diene, (2013.11). Chem. Eng. Sci. 103:21-28.
Go, A.R., Ko, J.W., Lee, S.J., Kim, S.W., Han, S.O., Lee, J., Woo, H.M., Um, Y., Nam, J., and Park, C., Process Design and Evaluation of Value-added Chemicals Production from Biomass, (2012.10). Biotechnol. Bioproc. Eng. 17:1055-1061.
Woo, H.M., Noack, S., Seibold, G., Willbold, S., Eikmanns, B., and Bott, M., Link between phosphate starvation and glycogen metabolism in Corynebacterium glutamicum, revealed by metabolomics, (2010.10). Appl. Environ. Microbiol. 76(20):6910-6919.
Choi, H.S., Lee, S.Y., Kim, T.Y., Woo, H.M., in silico identification of gene amplification targets for improving lycopene production, (2010) Appl. Environ. Microbiol. 76: 3097-3105
Woo, H.M., Kim, K.M., Choi, M.H., Jung, B.H., Lee, J., Kong, G., Nam, S.J., Kim, S., Bai, S.W. and Chung, B.C., Mass spectrometry based metabolomic approaches in urinary biomarker study of women’s cancers, (2009.2) Clinica Chimica Acta 400: 63-69.
#Lee, S.H., #Woo, H.M., Jung, B.H., Lee, J., Kwon, O.S., Pyo, H.S., Choi, M.H. and Chung, B.C., A Metabolomic approach to evaluate the toxicological effects of nonylphenol with rat urine, (2007.8) Anal. Chem. 79:6102-6110.
Kim, J.S., Yun, H., Kim, H.U., Choi, H.S., Kim, T.Y., Woo, H.M., and Lee, S.Y., Resources for systems biology research, (2006.6) J. Microbiol. Biotechnol.16:832-848.
Lee, S.Y., Woo, H.M., Lee, D.-Y, Choi, H.S, Kim, T.Y. and Yoon H. Systems-Level Analysis of Genome-Scale Microbial Metabolisms under the Integrated Software Environment, (2005.10) Biotechnol. Bioproc. Eng. 10:425-431.
저서
Woo, H.M., Synthetic Biology for Corynebacterium glutamicum, an industrial host for white biotechnology Emerging Areas in Bioengineering (Ed., Ho Nam Chang), Wiley-VCH (2017.12) ISBN: 978-3-527-34088-0
Woo, H.M. and Lee, T.S., Chapter 6. Isoprene-derived Biofuels from Engineered Microbes Biofuels: From Microbes to Molecules, Caister Academic Press (2014.7) ISBN: 978-1-908230-45-4
우한민, 윤진경. 재조합 코리네박테리움 글루타미쿰을 이용한 부티레이트 생산. 대한민국 KR- 10-2018-0011955 (2018.01.31)
우한민, 박재현. 스쿠알렌 생성능을 가지는 형질전환된 코리네박테리움 글루타미쿰. 대한민국 KR-10-2018-0005193 (2018.01.15)
우한민, 이현정. 이산화탄소로부터의 아세톤 생산능을 갖는 형질전환된 시네코코커스 일롱게투스 균주 및 이를 이용한 아세톤 생산방법. 대한민국 KR-10-2017-0172856 (2017.12.15)
우한민, 이현정. 이산화탄소로부터의 파넨신 생성능을 갖는 형질전환된 시네코코커스 일롱케투스 균주. 대한민국 KR-10-2017-0137227 (2017.10.23)
우한민, 윤진경. 타겟유전자 발현 조절을 위한 대장균/코리네박테리움 글루타미쿰의 셔틀벡터. 대한민국 ) KR-10-2017-0099545 (2017.08.07)
Woo, H.M., Choi, S.Y., Um, Y., Gong, G.T., Lee, S.M., Kim, Y. TRANSFORMED SYNECHOCOCCUS ELONGATUS STRAIN HAVING CAPABILITY OF PRODUCING SQUALENE FROM CARBON DIOXIDE AND METHOD FOR PRODUCING SQUALENE USING THE SAME US-15/357815 (2016.11.21)
Woo, H.M., Lee, H.J, Um, Y., Gong, G.T., Lee, S.M., Kim, Y. TRANSFORMED SYNECHOCOCCUS ELONGATUS HAVING CAPABILITY OF PRODUCING BIODIESEL FROM CARBON DIOXIDE AND METHOD FOR PRODUCING BIODIESEL USING THE SAME. US-15/299188 (2016.10.20)
Woo, H.M., Choi, S.Y., Um, Y., Gong, G.T., Lee, S.M., Kim, Y. 이산화탄소로부터의 스쿠알렌 생산능을 갖는 형질전환된 시네코코커스 일롱게투스 균주 및 이를 이용한 스쿠알렌 생산방법, KR-10-2016-0041774 (2016.04.05) 대한민국특허청 10-1789522-0000등록 (2017.10.18)
Woo, H.M., Shin, H.J., Um, Y., Gong, G.T., Lee, S.M. 다중 유전자 발현 조절능이 있는 크리스퍼 간섭을 이용한 코리네박테리움 글루타미쿰의 형질전환용 키트, KR-10-2016-0038662 (2016.03.30) (CAP-KIST) (KIST) 대한민국특허청 10- 1789522-0000 등록 (2018.02.26)
Woo, H.M., Lee, H.J., Um, Y., Gong, G.T., Lee, S.M., Kim, Y. 이산화탄소로부터의 아모파디엔 생산능을 갖는 형질전환된 시네코코커스 일롱게투스 균주 및 이를 이용한 아모파디엔 생산방법, KR-10-2016-0037931 (2016.03.29) 대한민국특허청 10-1789521-0000 등록 (2017.10.18)
Woo, H.M., Chwa, J.W., Um, Y., Gong, G.T. Transformed Synechococcus elongatus having capability of producing acetone from carbon dioxide US 15/057551 (2016.03.01) Patent No. US 9688976 B2 (2017.06.27)
Woo, H.M., Jeong, K.D., Choo, S., Um, Y., Gong, G.T., Lee, S.M., Kim, Y. 메틸아세테이트 분해능을 갖는 형질전환된 코리네박테리움 글루타미쿰 KR-10-2016-0004381 (2016.01.13)
Woo, H.M., Kim, E-M., Um, Y., Gong, G.T., Lee, S.M., Kim, Y. VECTORS AND STRAINS FOR PRODUCING MYRCENE AND METHOD OF PRODUCING MYRCENE USING THE SAME US-14/950425 (2015.11.25)
Woo, H.M., Lee, H.J, Um, Y., Gong, G.T., Lee, S.M., Kim, Y. 이산화탄소로부터 바이오디젤 생성능을 갖는 형질전환된 시네코코코스 일롱케투스 균주 및 이를 이용한 바이오디젤 생산방법 KR-10-2015-0147216 (2015.10.22) 대한민국특허청 10-1743018-0000 등록 (2017.05.29)
Woo, H.M., Chwa, J.-W., Um, Y., Kim, Y., Gong, G.T. Expression vector for cyanobacteria US-14/860373 (2015.09.21) Patent No. US 9719097 B2 (2017.08.01)
Woo, H.M., Kim, E-M., Um, Y., Gong, G.T., Lee, S.M., Kim, Y. 미어신 생산용 벡터 및 균주, 및 이를 이용한 미어신의 생산방법 KR-10-2015-0097250 (2015.07.08) 대한민국특허청 1017828910000 (2017.09.22)
Woo, H.M., Um, Y., Gong, G.T., Kim, Y., Suh, D.J. METHOD FOR ISOLATING HIGHLY FURFURAL RESISTANT STRAIN AND STRAIN ISOLATED BY THE METHOD US-14/679,622 (2015.4.6)
Woo, H.M., Um, Y., Kim, Y., Gong, G.T., Lee, J.-S. Shuttle vector for Corynebacterium or E. coli US-14/637355 (2015.3.3) Pub. No.: US 2016/0115491 A1 (2016.4.28) Patent No.: US 9,441,230 B2 (2016.09.13)
Woo, H.M., Kim, E.-M., Um, Y., Kim, Y., Gong, G.T. 레보글루코산 분해능을 갖는 형질전환된 코리네박테리움 글루타미쿰 KR-10-2015-0022701 (2015.2.13) (BioOil) 대한민국특허청10-1779848등록 (2017.09.13)
Woo, H.M., Chwa, J.-W., Um, Y., Kim, Y., Gong, G.T. 시아노박테리아 발현 벡터 KR-10-2014-0177540 (2014.12.10) 대한민국특허청10-1735632등록 (2017.05.08)
Woo, H.M., Um, Y., Gong, G.T., Kim, Y., Suh, D.J. 푸르프랄에 고내성을 갖는 균주의 분리방법 및 이에 의해 분리된 균주 KR-10-2014-0169425 (2014.12.01) 대한민국특허청10-1702931등록 (2017.01.31)
Woo, H.M., Um, Y., Kim, Y., Gong, G.T., Lee, J.-S. 코리네박테리움 및 이콜라이 셔틀 벡터 KR-10-2014-0146255 (2014.10.27) 대한민국특허청10-1662807등록 (2016.09.28)
Woo, H.M., Lee, J.-S., Um, Y., Gong, G.T., Kim, Y., Min, B.K., Ha, J.M., Sim, S.J. Strain for producing succinate from carbon dioxide and method for succinate production using the strain US 14/494,930 (2014.9.24) Pub. No.: US 2016/0002677 A1 (2016.01.07)
Woo, H.M., Park, H.S., Um, Y., Gong, G.T., Suh, D.J., Kim, Y. Furfural-Resistant Gene and Furfural-Resistant Strain Comprising Same, US 14/338,770 (2014.07.23) Pub. No.: US 2015/0275187 A1 (2015.10.01)
Woo, H.M., Lee, J.-S., Um, Y., Gong, G.T., Kim, Y., Min, B.K., Ha, J.M., Sim, S.J. 이산화탄소 유래 숙신산 생산 방법 KR10-2014-0082576 출원 (2014.07.02) 대한민국특허청10-1608078 등록 (2016.3.25)
Woo, H.M., Park, H.S., Um, Y., Gong, G.T., Suh, D.J., Kim, Y. 푸르푸랄 내성 유전자 및 이를 포함하는 푸르푸랄 내성 균주, KR10-2014-0036970 출원 (2014.03.28), 대한민국특허청10-1591843 등록 (2016.1.29)
Lee, S.Y., Woo, H.M., Choi, H.S., Method for Improving a Useful Biomaterial Producing Organisms Using Flux Scanning Based on Enforced Objective Flux, Korean Patent: appl. 10-2005-0086119 (9.15.2005) and PCT/KR2005/003074, Publication Nr.: WO/2007/032568 (2007.03.22)
수상
Miewon Best Young Scientist, The Korean Society of Industrial and Engineering Chemistry, Dae-gu, May 2 (2018)
Unsung Hero Award (Best Research Performance award), Korea Institute of Science and Technology, Seoul, December 17 (2014)
Young Investigator Poster Award, Synthetic Biology and Metabolic Engineering Award, Metabolic Engineering IX, Biarritz, France, June 6 (2012)
Travel Award, The fifth International Conference of the Metabolomics Society, Edmonton, Canada, September (2009)
Best Poster Award, Korean Society of Toxicology, Seoul, November (2006)
CJ Bio Award, CJ Group- KiChE, Seoul, December (2004)
3M Honorable award, the certificate of achievement - Innovation at 3M, 3M Korea, Seoul, November (2003)
Korean Institute of Chemical Engineers Scholarships, Korea University-KiChE, Seoul, March & September (2003)
Best Honors Scholarships, Korea University, Seoul, September (2002)