Jin:Publications: Difference between revisions
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==Peer-reviewed articles== | ==Peer-reviewed articles== | ||
===2012=== | |||
*Ha,S.J., Kim, H., Lin, Y., Jang, M.U., Galazka, J.M., Kim, T.J., Cate. J.H. & Jin, Y.S. Single amino acid substitutions of HXT2.4 from ''Scheffersomyces stipitis'' lead to improved cellobiose fermentation by engineered ''Saccharomyces cerevisiae''. Applied and Environmental Microbiology (accepted) | |||
*Ha, S.J., Galazka, J.M., Oh, E.J., Kordic, V., Kim, H., Jin, Y.S., & Cate, J.H. Energetic benefits and rapid cellobiose fermentation by Saccharomyces cerevisiae expressing cellobiose phosphorylase and mutant cellodextrin transporters. Metabolic Engineering (in press) | |||
*Wei, N. Quarterman, J., & Jin, Y.S. Marine macroalgae: an untapped resource for producing fuels and chemicals. Trends in Biotechnol. (in press) | |||
*Oh, E.J., Ha, S.J., Kim, S.R., Lee, W.H., Galazka, J.M., Cate, J.H. & Jin, Y.S. Enhanced xylitol production through simultaneous co-utilization of cellobiose and xylose by engineered ''Saccharomyces cerevisiae''. Metabolic Engineering (in press) | |||
*Lee, K.S., Kim, J.S., Heo, P., Yang, T.J., Sung, Y.J., Cheon, Y., Koo, H.M., Yu, B.J., Seo, J.H., Jin, Y.S., Park, J.C., Kweon, D.H. Characterization of ''Saccharomyces cerevisiae'' promoters for heterologous gene expression in ''Kluyveromyces marxianus''. Appl Microbiol Biotechnol (accepted) | |||
*Lee, W.H., Pathanibul, P., Quarterman, J., Jo, J.H., Han, N.S., Miller, M.J., Jin, Y.S.& Seo, J.H. Whole cell biosynthesis of a functional oligosaccharide, 2-fucosyllactose, using engineered ''Escherichia coli''. Microbial Cell Factories 11, 48 | |||
*Lee, W.H., Seo, S.O., Bae, Y.H., Nan, H., Jin, Y.S.& Seo, J.H. Isobutanol production in engineered ''Saccharomyces cerevisiae'' by overexpression of 2-ketoisovalerate decarboxylase and valine biosynthetic enzymes. Bioprocess and Biosystems Engineering 35, 1467-75 | |||
*Kim, S.R., Ha, S.J., Kong, I.O.& Jin, Y.S. High expression of ''XYL2'' coding for xylitol dehydrogenase is necessary for efficient xylose fermentation by engineered ''Saccharomyces cerevisiae'' Metab. Eng. 14, 336-343 | |||
*Guo, B., Zhang, Y., Ha, S. J., Jin, Y.S.& Morgenroth, E. Combined biomimetic and inorganic acids hydrolysis of hemicellulose in Miscanthus for bioethanol production. Bioresource Technol 110,278-87 [http://dx.doi.org/10.1016/j.biortech.2012.01.133 Link] | |||
*Kim, S.R., Ha, S.J., Wei, N., Oh, E.J.,& Jin, Y.S. Simultaneous co-fermenation of mixed sugars: a promising strategy for producing cellulosic ethnaol. Trend Biotechnol 30,274–282 [http://dx.doi.org/10.1016/j.tibtech.2012.01.005 Link] | |||
*Jin, Y.S.& Cate, J.H. Model-guided strain improvement: Simultaneous hydrolysis and co-fermentation of cellulosic sugars. Biotechnol. J. 7,361-73. [http://onlinelibrary.wiley.com/doi/10.1002/biot.201100489/full Link] | |||
*Cha, C., Kim, S.R., Jin, Y.S. & Kong, H.J. Tuning structural durability of yeast-encapsulating alginate gel beads with interpenetrating networks for sustained bioethanol production. Biotechnol. Bioeng. 109,63-73 [http://onlinelibrary.wiley.com/doi/10.1002/bit.23258/abstract Link] | |||
===2011=== | ===2011=== | ||
* | *Lu, C.H., Choi, J.H., Engelmann Moran, N., Jin, Y.S. & Erdman, J. Laboratory-scale production of 13C-labeled lycopene and phytoene by bioengineered ''Escherichia''. J Agric Food Chem 59,9996-10005. | ||
*Ha, S.J., Wei, Q., Kim, S.R., Galazka, J., Cate, J.H. | |||
*Ha, S.J., Kim, S.R., Choi J.H., Park, M.S. & Jin Y.S. Xylitol does not inhibit xylose fermentation by engineered ''Saccharomyces cerevisiae'' expressing ''xylA'' as severely as it inhibits xylose isomerase reaction ''in vitro''. Appl Microbiol Biotechnol (in press) | *Kim, J.S., Heo P., Yang. T.J., Lee, K.S., Jin Y.S., Kim, S. K., Shin, D. & Kweon, D.H. Bacterial persisters tolerate antibiotics by not producing hydroxyl radicals. Biochem. Biophys. Res. Commun. 413,105-10. | ||
*Ha, S.J., Galazka J.M., Rin Kim S., Choi J.H., Yang X., Seo J.H., Louise Glass N., Cate J.H., & Jin Y.S.Engineered ''Saccharomyces cerevisiae'' capable of simultaneous cellobiose and xylose fermentation. Proc Natl Acad Sci U S A. 108, 504-509 (2011) [http://www.pnas.org/content/108/2/504.abstract Link], [http://openwetware.org/images/8/80/Ha_PNAS.pdf PDF], [http://openwetware.org/images/d/d3/Ha_PNAS_SI.pdf Supporting Information], [http://www.pnas.org/content/108/2/435.full In This Issue-PNAS], [http://www.physorg.com/news/2010-12-scientists-major-obstacles-cellulosic-biofuel.html Related News] | |||
*Milne, C.B., Eddy, J.A., Raju, R., Ardekani,S., Kim, P.J., Senger, R. S., Jin, Y.S., Blaschek, H.P. & Price, N.D. Metabolic network reconstruction and genome-scale model of butanol-producing strain ''Clostridium beijerinckii'' NCIMB 8052 BMC Systems Biology 5:130. [http://www.biomedcentral.com/1752-0509/5/130 Link] | |||
*Ha, S.J., Wei, Q., Kim, S.R., Galazka, J., Cate, J.H. & Jin, Y.S. Co-fermentation of cellobiose and galactose by an engineered ''Saccharomyces cerevisiae''. Appl. Environ. Microbiol. 77, 5822-5826. [http://aem.asm.org/cgi/content/abstract/77/16/5822 Link], [http://www.dailycal.org/2011/08/30/team-doubles-efficiency-of-converting-seaweed-into-biofuel/ Related News] | |||
*Ha, S.J., Kim, S.R., Choi J.H., Park, M.S. & Jin Y.S. Xylitol does not inhibit xylose fermentation by engineered ''Saccharomyces cerevisiae'' expressing ''xylA'' as severely as it inhibits xylose isomerase reaction ''in vitro''. Appl Microbiol Biotechnol (in press) [http://www.springerlink.com/content/q8724640851x5u25/ Link] | |||
*Ha, S.J., Galazka J.M., Rin Kim S., Choi J.H., Yang X., Seo J.H., Louise Glass N., Cate J.H., & Jin Y.S.Engineered ''Saccharomyces cerevisiae'' capable of simultaneous cellobiose and xylose fermentation. Proc Natl Acad Sci U S A. 108, 504-509 (2011) [http://www.pnas.org/content/108/2/504.abstract Link], [http://openwetware.org/images/8/80/Ha_PNAS.pdf PDF],[http://openwetware.org/images/d/d3/Ha_PNAS_SI.pdf Supporting Information], [http://www.pnas.org/content/108/2/435.full In This Issue-PNAS], [http://www.physorg.com/news/2010-12-scientists-major-obstacles-cellulosic-biofuel.html Related News] | |||
*Lee, K.S., Hong, M.E., Jung, S.C., Ha, S.J., Yu, B.J., Koo, H.M., Park, S.M., Seo, J.H., Kweon, D.H., Park, J.C. & Jin, Y.S. Improved galactose fermentation of ''Saccharomyces cerevisiae'' through inverse metabolic engineering. Biotechnol Bioeng. 108, 621-632. [http://dx.doi.org/10.1002/bit.22988 Link] | *Lee, K.S., Hong, M.E., Jung, S.C., Ha, S.J., Yu, B.J., Koo, H.M., Park, S.M., Seo, J.H., Kweon, D.H., Park, J.C. & Jin, Y.S. Improved galactose fermentation of ''Saccharomyces cerevisiae'' through inverse metabolic engineering. Biotechnol Bioeng. 108, 621-632. [http://dx.doi.org/10.1002/bit.22988 Link] | ||
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* Lee, K.S., Chang, E.H., Shin, J.Y., Kweon, D.H., Park, K.M. & Jin, Y.S. Production of casein phosphopeptides using Streptococcus faecalis var. liquefaciens cell immobilization. Korean J Biotechnol Bioeng 23, 59-64 (2008). | * Lee, K.S., Chang, E.H., Shin, J.Y., Kweon, D.H., Park, K.M. & Jin, Y.S. Production of casein phosphopeptides using Streptococcus faecalis var. liquefaciens cell immobilization. Korean J Biotechnol Bioeng 23, 59-64 (2008). | ||
* Jung, C.H., Yang, Y.S., Kim, J.S., Shin, J.I., Jin, Y.S., Shin, J.Y., Lee, J.H., Chung, K.M., Hwang, J.S., Oh, J.M., Shin, Y.K. & Kweon, D.H. A search for synthetic peptides that inhibit soluble N-ethylmaleimide sensitive-factor attachment receptor-mediated membrane fusion. FEBS J 275, 3051-3063 (2008). | * Jung, C.H., Yang, Y.S., Kim, J.S., Shin, J.I., Jin, Y.S., Shin, J.Y., Lee, J.H., Chung, K.M., Hwang, J.S., Oh, J.M., Shin, Y.K. & Kweon, D.H. A search for synthetic peptides that inhibit soluble N-ethylmaleimide sensitive-factor attachment receptor-mediated membrane fusion. FEBS J 275, 3051-3063 (2008). | ||
===2007=== | ===2006-2007=== | ||
* Jung, S.C., Chung, C.Y., Kim, J.S., Kweon, D.H., Park, K.M. & Jin, Y.S. Policosanol production from rice bran oil byproducts. Food Eng Prog 11, 293-297 (2007). | * Jung, S.C., Chung, C.Y., Kim, J.S., Kweon, D.H., Park, K.M. & Jin, Y.S. Policosanol production from rice bran oil byproducts. Food Eng Prog 11, 293-297 (2007). | ||
* Jin, Y.S. & Stephanopoulos, G. Multi-dimensional gene target search for improving lycopene biosynthesis in Escherichia coli. Metab Eng 9, 337-347 (2007). | * Jin, Y.S. & Stephanopoulos, G. Multi-dimensional gene target search for improving lycopene biosynthesis in Escherichia coli. Metab Eng 9, 337-347 (2007). | ||
* Jeffries, T.W., Grigoriev, I.V., Grimwood, J., Laplaza, J.M., Aerts, A., Salamov, A., Schmutz, J., Lindquist, E., Dehal, P., Shapiro, H., Jin, Y.S., Passoth, V. & Richardson, P.M. Genome sequence of the lignocellulose-bioconverting and xylose-fermenting yeast Pichia stipitis. Nat Biotechnol 25, 319-326 (2007). | * Jeffries, T.W., Grigoriev, I.V., Grimwood, J., Laplaza, J.M., Aerts, A., Salamov, A., Schmutz, J., Lindquist, E., Dehal, P., Shapiro, H., Jin, Y.S., Passoth, V. & Richardson, P.M. Genome sequence of the lignocellulose-bioconverting and xylose-fermenting yeast Pichia stipitis. Nat Biotechnol 25, 319-326 (2007). | ||
* Laplaza, J.M., Torres, B.R., Jin, Y.S. & Jeffries, T.W. Sh ble and Cre adapted for functional genomics and metabolic engineering of Pichia stipitis. Enz Microb Tech 38, 741-747 (2006). | * Laplaza, J.M., Torres, B.R., Jin, Y.S. & Jeffries, T.W. Sh ble and Cre adapted for functional genomics and metabolic engineering of Pichia stipitis. Enz Microb Tech 38, 741-747 (2006). | ||
* Jin, Y.S., Cruz, J. & Jeffries, T.W. Xylitol production by a Pichia stipitis D-xylulokinase mutant. Appl Microbiol Biotechnol 68, 42-45 (2005). | * Jin, Y.S., Cruz, J. & Jeffries, T.W. Xylitol production by a Pichia stipitis D-xylulokinase mutant. Appl Microbiol Biotechnol 68, 42-45 (2005). | ||
* Jin, Y.S., Alper, H., Yang, Y.T. & Stephanopoulos, G. Improvement of xylose uptake and ethanol production in recombinant Saccharomyces cerevisiae through an inverse metabolic engineering approach. Appl Environ Microbiol 71, 8249-8256 (2005). | * Jin, Y.S., Alper, H., Yang, Y.T. & Stephanopoulos, G. Improvement of xylose uptake and ethanol production in recombinant Saccharomyces cerevisiae through an inverse metabolic engineering approach. Appl Environ Microbiol 71, 8249-8256 (2005). |
Revision as of 21:01, 13 December 2012
Peer-reviewed articles2012
2011
2010
2009
2008
2006-2007
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