ISSN: 0256-1115 (print version) ISSN: 1975-7220 (electronic version)
Copyright © 2024 KICHE. All rights reserved

Articles & Issues

Language
English
Conflict of Interest
In relation to this article, we declare that there is no conflict of interest.
Publication history
Received September 12, 2012
Accepted October 15, 2012
articles This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright © KIChE. All rights reserved.

All issues

Prospects of reusable endogenous hydrolyzing enzymes in bioethanol production by simultaneous saccharification and fermentation

Department of Chemical Engineering, Kyungpook National University, Daegu 702-701, Korea
parkjk@knu.ac.kr
Korean Journal of Chemical Engineering, November 2012, 29(11), 1467-1482(16), 10.1007/s11814-012-0174-1
downloadDownload PDF

Abstract

This study was conducted to evaluate the presence, origination and classification of various hydrolyzing enzymes from malt and their specified hydrolyzing effects on various substrates for bioethanol production and to link these characteristics with the future prospects of bioethanol production. These enzymes are categorized as cell wall, starch, protein, lipid, polyphenol and thiol hydrolyzing enzymes based on their substrate specificity. Waste from beer fermentation broth (WBFB) has been evaluated as a rich source of malt derived hydrolyzing enzymes with significant self potential for bioethanol production. However, yeast cells cannot survive at the high temperature required for the saccharification activities of hydrolyzing enzymes during simultaneous saccharification and fermentation (SSF). This dilemma might be resolved by bioethanol production at elevated temperatures via cell-free fermentation systems in the presence of malt hydrolyzing enzymes. Moreover, emerging technologies such as genetic engineering in biomass and biotransformation in cell-free enzymatic systems will likely hasten bioethanol production in the near future. The present study adds new dimensions to eco-friendly bioethanol production from renewable and waste energy resources based on the specific hydrolyzing activities of malt enzymes.

References

Fincher GB, Annu. Rev. Plant Physiol. Plant Mol. Biol., 40, 305 (1989)
http://plantphys.info/plants_human/seedgerm.shtml.
Kongkaew A, Usansa U, Wanapu C, Afr. J. Biotechnol., 11(42), 9941 (2012)
Klose C, Mauch A, Wunderlich S, Thiele F, Zarnkow M, Jacob F, Arendt EK, J. Inst. Brew., 117(3), 411 (2012)
Santana JCC, Araujo SA, Librantz AFH, Tambourgi EB, Dry Technol., 30(3), 613 (2010)
Oyewole OI, Agboola FK, Int. J. Biotechnol. Molecul. Biol.Res., 2, 146 (2011)
Allosio-Ouarnier N, Saulnier L, Guillon F, Boivin P, 31st EBC Congress 2007, May 6-10, Venice, Italy.
Kim S, Dale BE, Biomass Bioenerg., 26(4), 361 (2004)
Osamu K, Carl HW, Biomass Handbook, Gordon and Breach Sci. Publishers Inc. (1989)
Ragauskas AJ, Williams CK, Davison BH, Britovsek G, Cairney J, Eckert CA, Frederick WJ, Hallett JP, Leak DJ, Liotta CL, Mielenz JR, Murphy R, Templer R, Tschaplinski T, AAPG Bull., 311, 484 (2006)
http://www.agra-net.com/portal2/filternews.jsp?pubid=ag072& filter=20001108171.
Klee AJ, Rogers CJ, AIChE J., 2, 759 (1978)
Wang Q, Ma H, Xu W, Gong L, Zhang W, Zou D, Biochem. Eng. J., 39(3), 604 (2008)
Ha JH, Shah N, Ul-Islam M, Park JK, Enzyme Microb. Technol., 49(3), 298 (2011)
Ha JH, Gang MK, Khan T, Park JK, Korean J. Chem. Eng., 29(9), 1224 (2012)
Tubb RS, T. I. Biotechnol., 4(4), 98 (1986)
Sticklen MB, Nat. Rev. Genet., 9, 433 (2008)
Kadar Z, De Vrijek T, van Noorden GE, Budde MAW, Szengyel Z, Reczey K, Claasen PAM, Appl. Biochem. Biotech., 113(16), 497 (2004)
Cullen PJ, Sprague GF, P. N. A. S., 97(25), 13619 (2000)
Kingsbury JM, Goldstein AL, McCusker JH, Eukaryot. Cell., 5(5), 816 (2006)
Krishna SH, Chowdary GV, J. Agric. Food Chem., 48, 1971 (2000)
Schell D, Walter P, simultaneous saccharification and fermentation of corn stover hydrolysate to ethanol, 13th Symposium on Biotechnology for Fuels and Chemicals 1991, May 6-10, 1991, Colorado Springs.
Spindler, Philippidis and Wyman, Key parameters in simultaneous saccharification and fermentation of biomass to ethanol, 13th Symposium on Biotechnology for Fuels and Chemicals 1991, May 6-10, 1991, Colorado Springs.
Bischof JC, Padanilam J, Holmes WH, Ezzell RM, Lee RC, Tomkins RG, Yarmush ML, Toner M, Biophys. J., 68, 2608 (1995)
Buchner E, Ber. Dt. Chem. Ges., 30, 117 (1897)
Zhang YHP, Biotechnol. Bioeng., 105(4), 663 (2010)
Jones BL, Marinac L, J. Agr. Food Chem., 50, 858 (2002)
Jones BL, J. Cereal. Sci., 42, 139 (2005)
Lee WJ, Pyler RE, J. Am. Soc. Brew. Chem., 42, 11 (1984)
Lee WJ, Pyler RE, J. Am. Soc. Brew. Chem., 43(1), 1 (1985)
MacGregor AW, Crc. Cr. Rev. Biotechnol., 5, 117 (1987)
MacGregor AW, J. Inst. Brew., 102, 97 (1996)
Nagodawithana T, Reed G, Enzymes in food processing, Academic Press (1993)
Goode DL, Wijngaard HH, Arendt EK, Tech. Q. M. B. A. A.Commun., 42, 184 (2005)
http://en.wikipedia.org/wiki/Malt.
Celus I, Brijs K, Delcour JA, J. Cereal. Sci., 44, 203 (2006)
Jamar C, du Jardin P, Fauconnier ML, Biotechnol. Agron. Soc.Environ., 15, 301 (2011)
Hayes PM, Castro A, Marquez-Cedillo L, Corey A, Henson C, Jones BL, Kling J, Mather D, Matus I, Rossi C, Sato K, Diversity in Barley, Elsevier Science Publishers, Amsterdam (2003)
Hatfield R, Nevins DJ, Carbohyd. Res., 148, 265 (1986)
Bamforth CW, J. Cereal. Sci., 50, 353 (2009)
Woodward JR, Fincher GB, Eur. J. Biochem., 121, 663 (1982)
Aastrup S, Bautista N, Janser E, Dorreich K, Choice of enzyme solution should determine choice of raw materials and process, World Brewing Conference 2004, July 24-28, 2004, San Diego, USA.
Chithra M, Muralikrishna G, Eur. Food Res. Technol., 227, 587 (2008)
Bamforth CW, Martin HL, Wainwright T, J. Inst. Brew., 85, 334 (1979)
Sørensen SB, Svendsen I, Breddam K, Carlsberg. Res. Commun., 54, 193 (1989)
Trudel J, Grenier J, Asselin A, Electrophoresis., 19, 1788 (1998)
Kumar RS, Singh SA, Rao AG, J. Agric. Food Chem., 53, 6883 (2005)
Acquistucci R, Turfani V, Aureli G, Eur. Food Res. Technol., 232, 583 (2011)
Burton RA, Zhang XQ, Hrmova M, Fincher GB, Plant Physiol., 119, 859 (1999)
Koehler SM, Ho THD, Plant Physiol., 94, 251 (1990)
Sopanen T, Mikola J, Plant Physiol., 55, 809 (1975)
Skriver K, Leah R, Mulleruri F, Olsen FL, Mundy J, Plant Mol. Biol., 18, 585 (1992)
Baxter ED, J. Ins. Brew., 88, 390 (1982)
Baxter ED, J. Ins. Brew., 90, 277 (1984)
Doderer A, Kokkelink I, Van der Veen S, Valk BE, Douma AC, Eur P. Brewery Convention Congress, Lisbon, Portugal (1991)
Aehle W, Enzymes in industry production and applications, Wiley-VCH, Weinhheim (2007)
Antrobus CJ, Large PJ, Bamforth CW, J. Ins. Brew., 103, 227 (1997)
Fincher GB, Barley: genetics, biochemistry, molecular biology and biotechnology, C. A. B. International, Wallingford (1992)
Lazaridou A, Chornick T, Biliaderis CG, Izydorczyk MS, J. Cereal Sci., 48, 304 (2008)
Swanston JS, Ellis RP, Barley science: Recent advances from molecular biology to agronomy of yield and quality, Food Product Press, New York (2002)
Jin YL, Speers RA, Paulson AT, Stewart RJ, Technol. Q. Master Brew. Assoc. Am., 41(3), 231 (2004)
McCartney L, Marcus SE, Knox P, J. Histochem. Cytochem., 53, 543 (2005)
Hrmova M, Fincher GB, Plant Mol. Biol., 47, 73 (2001)
Georg-Kraemer JE, Caierao E, Minella E, Barbosa-Neto JF, Cavalli SS, J. Inst. Brew., 110(4), 303 (2004)
Kuntz RJ, Bamforth CW, J. Ins. Brew., 113(2), 196 (2007)
Hrmova M, Banik M, Harvey AJ, Garrett TP, Varghese JN, Høj PB, Fincher GB, Int. J. Biol. Macromol., 21(1-2), 67 (1997)
Egi A, Speers RA, Schwarz PB, Tech. Q. Master Brew. Assoc.Am., 41(3), 248 (2004)
Humberstone FJ, Briggs DE, J. Inst. Brew., 106, 31 (2000)
Humberstone FJ, Briggs DE, J. Inst. Brew., 106, 21 (2000)
Payen A, Persoz JF, Ann. Chi. Phys., 53, 73 (1833)
Maercker M, J. Chem. Soc., 34, 969 (1878)
Ohlsson, Compt. Rend. Trav. Lab. Carlsberg., 16, 1 (1926)
Evans DE, Van-Weger B, Ma YF, Eghinton J, J. Am. Society of Brewing Chem., 61, 210 (2003)
Egwim EC, Oloyede OB, Biochem., 18(1), 15 (2006)
Svensson B, Mundy J, Gibson RM, Svendsen I, Carlsberg Res. Commun., 50, 15 (1985)
Hoseney RC, Principles of cereal science and technology, Am. Assoc. Cereal Chem. Inc., St. Paul, Minnesota (1994)
Svensson B, Plant Mol Biol., 25, 141 (1994)
Lalor E, Goode D, Enzymes in food technology, Wiley-Blackwell, Chichester (2010)
Bowles LK, In Baked goods freshness: Technology, evaluation and inhibition of staling, Hebeda EH, Zobel HF Eds., Marcel Dekker, New York (1996)
Osman D, Coverdale SM, Ferguson R, Watson K, Fox G, Hamilton SE, de Jersey J, Proc. 10th Australian Barley Technical Symp., 2001, Canberra, Australia.
Moneton P, Sarthou P, Goffic FL, Fed. Eur. Microbiol. Soc. Microbiol. Lett., 36, 95 (1986)
Briggs DE, Malts and malting, Blackie Academic & Professional, Thomson Science, London, UK, 579 (1998)
Wentz MJ, Horsley RD, Schwarz PB, J. Am. Soc. Bre.Chem., 62(3), 103 (2004)
Briggs DE, in Barley: Genetics, biochemistry, molecular biology and biotechnology, Shewry PR Ed., C. A. B. International, Wallingford (1992)
Kreis M, Shewry PR, in Barley: Genetics, biochemistry, molecular biology and biotechnology, Shewry PR Ed., C. A. B. International, Wallingford (1992)
Evans DJ, Taylor JRN, J. Inst. Brew., 96, 399 (1990)
Briggs DE, Barley, Chapman and Hall, London (1978)
Morrison W, in Wheat chemistry and technology, Pomeranz Y Ed., American Association of Cereal Chemists, Inc. St. Paul, Minnesota (1988)
Briggs DD, Hough JS, Stevens R, Young TM, Malting and brewing science, Chapman and Hall, London (1981)
Lulai EC, Baker CW, Zimmerman DC, Plant Physiol., 68, 950 (1981)
Bamforth CW, Roza JR, Kanauchi M, J. Am. Soc. Brew.Chem., 67, 89 (2009)
Lin YH, Wimer LT, Huang AHC, Plant. Physiol., 73, 460 (1983)
Ward OP, in Comprehensive biotechnology, Blanch HW, Drew S, Wang DIC, Eds., Pergamon Press, Oxford (1985)
Huang AHC, Annu. Rev. Plant Phys., 43, 177 (1992)
Fernandez DE, Staehelin LA, Plant Physiol., 285, 487 (1987)
Gram NH, Carlsberg Res. Commun., 47, 143 (1982)
Valcharia DN, Brearly CA, Wilkinson MC, Gailliard T, Laidman DI, Planta., 172, 502 (1987)
Wilkinson MC, Laidman DL, Galliard T, Plant Sci. Lett., 35, 195 (1984)
de-Almeida RB, Garbe LA, Nagel R, Wackerbauer K, Tress R, J. Inst. Brew., 111(3), 265 (2005)
Schwarz PB, Pyler RE, J. Am. Soc. Brew. Chem., 42, 47 (1984)
Anness BJ, Reed RJR, J. I. Brew., 91, 313 (1985)
Gardner HW, Biochim. Biophys. Acta., 1084, 221 (1991)
Siedow JN, Annu. Rev. Plant Physiol. Plant Mo1. Biol., 42, 145 (1991)
Vick BA, in Lipid metabolism in plants, T. S. Moore, Jr., Eds., CRC Press, Boca Raton (1993)
Blee E, Prog. Lipid Res., 37, 33 (1998)
Kessler A, Halitschke R, Baldwin IT, Science., 305, 665 (2004)
Matsui K, Ujita C, Fujimoto S, Wilkinson J, Hiatt B, Knauf V, Kajiwara T, Feussner I, Febs Lett., 481, 183 (2000)
Feussner I, Wasternack C, Annu. Rev. Plant Biol., 53, 275 (2002)
Perez AG, Sanz C, Olias R, Olias JM, J. Agric. Food Chem., 47(1), 249 (1999)
Salas JJ, Sanchez J, J. Agric. Food Chem., 47(3), 809 (1999)
Koeduka T, Stumpe M, Matsui K, Kajiwara T, Feussner I, Lipid., 38, 1167 (2003)
Roos AD, Grassin C, Herweijer M, Kragh KM, Poulsen CH, Soe JB, Sorensen JF, Wilms J, in Enzymes in industry: Production and applications, W. Aehle, Eds., Wiley-VCH Verlang GmbH & Co., Weinheim (2004)
J. Sci. Food Agr., Rimsten L, Haraldsson AK, Andersson R, Alminger M, Sandberg AS, Aman P, 82, 904 (2002)
Cosgrove DJ, Inositol phosphates: Their chemistry, biochemistry and physiology, Elsevier Science Publishing Co., New York (1980)
Sandberg AS, Brune M, Carlsson NG, Hallberg L, Skoglund E, Rossander-Hulthen L, Amer. J. Clin. Nutr., 70, 240 (1999)
Campbell CH, Laherrere JH, Sci. Am., 78 (1998)
Kim JK, Um BH, Kim TH, Korean J. Chem. Eng., 29(2), 209 (2012)
Ballesteros I, Negro MJ, Oliva JM, Cabanas A, Manzanares P, Ballesteros M, Appl. Biochem. Biotechnol., 130, 496 (2006)
Lynd LR, Wang MQ, J. Ind. Ecol., 7, 17 (2003)
Jeong SM, Kim YJ, Lee DH, Korean J. Chem. Eng., 29(8), 1038 (2012)
Sarkar N, Ghosh SK, Bannerjee S, Aikat K, Renew. Energy., 37(1), 19 (2012)
Lee SU, Jung K, Park GW, Seo C, Hong YK, Hong WH, Chang HN, Korean J. Chem. Eng., 29(7), 831 (2012)
Cardona CA, Sanchez OJ, Bioresour. Technol., 98(12), 2415 (2007)
http://www.agra-net.com/portal2/filternews.jsp?pubid=ag072&filter=20001108171.
Taherzadeh MJ, Karimi K, Bioresources., 2(3), 472 (2007)
Licht FO, World ethanol markets: The outlook to 2015, Tunbridge Wells, Agra Europe Special Report, UK (2006)
Prasad S, Anoop S, Joshi HC, Res. Conserv. Recycl., 50, 1 (2007)
Demirbas A, Energy Sources Part A-Recovery Util. Environ. Eff., 30(6), 565 (2008)
Sivasamy A, Sergey Z, Paolo F, Stanislav M, Franziska M, Martin K, Alexander V, Daniela T, BIO-FUELS: Technology status and future trends, technology assessment and decision support tools, ICS-UNIDO, Trieste (2008)
Naik SN, Goud VV, Rout PK, Dalai AK, Renew. Sust.Energ. Rev., 14, 578 (2010)
Nghiem NP, Ramirez EC, McAloon AJ, Yee W, Johnston DB, Hicks KB, Bioresour. Technol., 102(12), 6696 (2011)
Gupta M, Abu-Ghannam N, Gallagher E, Compr. Rev. Food Sci. Food Safety., 9, 318 (2010)
Shuler ML, Kargi F, Bioprocess engineering: Basic concepts, Prentice Hall, New Jersey (2001)
Zacchi G, “Pretreatment of bimass for ethanol production,” international conference on lignocellulosic ethanol 2010, Oct. 13-15,2010, Copenhagen, Denmark.
Alzate CAC, Toro OJS, Energy., 31(13), 2447 (2006)
Bjerre AB, Olesen AB, Fernqvist T, Ploger A, Schmidt AS, Biotechnol. Bioeng., 49(5), 568 (1996)
Won KY, Kim YS, Oh KK, Korean J. Chem. Eng., 29(10), 1341 (2012)
Lee J, J. Biotechnol., 56, 1 (1997)
Adapa P, Tabil L, Schoenau G, Biosys. Eng., 104, 335 (2009)
Karimi K, Emtiazi G, Taherzadeh MJ, Enzyme Microb. Technol., 40(1), 138 (2006)
Khejornsart P, Wanapat M, J. Anim. Vet. Adv., 9(24), 3070 (2010)
Rezayati-Charani P, Mohammadi-Rovshandeh J, Bioresour. Technol., 96(15), 1658 (2005)
Senthilkumar S, Viswanathan TV, Mercy AD, Gangadevi P, Ally K, Shyama K, Tamilnadu J. Vet. Anim. Sci., 6(1), 49 (2010)
Park JK, Hyun SH, Ahn WS, Korean Chem. Eng. Res., 44(1), 52 (2006)
Xiros and P. Christakopoulos, Biotechnol. Biofuels., 2:4 DOI:10.1186/1754-6834-2-4 (2009)
Mann L, Tolbert V, Cushman J, Agric. Ecosyst. Environ., 89, 149 (2002)
Padgitt M, Newton D, Penn R, Sandretto C, Statistical Bulletin No. 969. US Department of Agriculture (2000)
Smith JA, Historical materials from university of nebraska-lincoln extension, Paper 721 (1986)
Kim TH, Lee YY, Appl. Biochem. Biotechnol., 137-140, 81 (2007)
Teymouri F, Laureano-Perez L, Alizadeh H, Dale BE, Bioresour. Technol., 96(18), 2014 (2005)
Mosier N, Wyman C, Dale B, Elander R, Lee YY, Holtzapple M, Ladisch M, Bioresour. Technol., 96(6), 673 (2005)
Sun Y, Cheng JY, Bioresour. Technol., 83(1), 1 (2002)
McMillan JD, in Enzymatic conversion of biomass for fuels production, Himmel ME, Baker JO, Overend RP, Eds., Am.Chem. S., Washington (1994)
Sanchez OJ, Cardona CA, Bioresour. Technol., 99(13), 5270 (2008)
Hendriks ATWM, Zeeman G, Bioresour. Technol., 100(1), 10 (2009)
Zuo Z, Tian S, Chen Z, Li J, Yang X, Appl. Biochem. Biotechnol., DOI:10.1007/s12010-012-9751-3 (2010)
Saha BC, Cotta MA, New Biotechnol., 27, 10 (2010)
Duarte JC, Pereira J, Paixao SM, Baeta-Hall L, Ribeiro B, Saagua MC, “Ethanol production from enzymatically pretreated wheat straw,” Proceedings of the 2nd International Conference of IAMAW 2010, June 17-19, 2010, Izmir, Turkey.
Singh A, Bishnoi NR, Appl. Microbiol. Biotechnol., 93(4), 1785 (2012)
Buaban B, Inoue H, Yano S, Tanapongpipat S, Ruanglek V, Champreda V, Pichyangkura R, Rengpipat S, Eurwilaichitr L, J. Biosci. Bioeng., 110(1), 18 (2010)
Karki B, Rijal B, Pryor SW, Biol. Eng. Transactions., 4(3), 157 (2011)
Aden A, Ruth M, Ibsen K, Jechura J, Neeves K, Sheehan J, Wallace B, National renewable energy laboratory, Golden, Colorado (2002)
Lissens G, Klinke H, Verstraete W, Ahring B, Thomsen AB, Environ. Technol., 25(6), 647 (2004)
Shi J, Ebrik M, Yang B, Wyman CE, University of California Energy Institute, Berkeley (2009). Available at http://www.ucei. berkeley.edu/PDF/EDT_015.pdf.
Buchanan G, in Increasing feedstock production for biofuel: Economic drivers, environmental implications, and the role of research, Diane Publishing Co., Darby (2008)
Li SJ, Zhang XN, Andresen JM, Fuel, 92(1), 84 (2012)
Su W, Ma H, Gao M, Zhang W, Wang Q, 4th International Conference on Bioinformatics and Biomedical Engineering (iCBBE) 2010, June 18-20, 2010, Chengdu, China.
Kajari K, Siddhartha D, Shyamal KS, J. Biochem. Eng., 1, 31 (1998)
Sree NK, Sridhar M, Rao LV, Pandey A, Process Biochem., 34(2), 115 (1999)
de Castro AM, Carvalho DF, Freire DMG, Castilho LDR, Enzyme Res., DOI:10.4061/2010/576872 (2010)
Shah S, Sharma S, Gupta MN, J. Biochem. Biophys., 40, 392 (2003)
Han BZ, Kiers JL, Nout RMJ, J. Biosci. Bioeng., 88(2), 205 (1999)
Greathouse GA, J. Am. Chem. Soc., 79(16), 4503 (1957)
Komura S, Kurahashi K, J. Biochem., 88(1), 285 (1980)
Fujikawa K, Suzuki T, Kurahashi K, Biochim. Biophys. Acta., 161(1), 2322 (1968)
Boyer ME, Stapleton JA, Kuchenreuther JM, Wang CW, Swartz JR, Biotechnol. Bioeng., 99(1), 59 (2008)
Wang Y, Zhang YHP, B. M. C. Biotechnol., 9, 58 (2009)
Chang A, Scheer M, Grote A, Schomburg I, Schomburg D, Nucleic Acids Res., 37, 588 (2009)
Kim TW, Chokhawala HA, Hess M, Dana CM, Baer Z, Sczyrba A, Rubin EM, Blanch HW, Clark DS, Angew.Chem. Int. Ed., 50, 11215 (2011)
Lloyd D, Morell S, Carlsen HN, Degn H, James PE, Towlands CC, Yeast., 9, 825 (1993)
Umesh-kumar S, Nagarajan L, Rehana F, Nand K, Antonie.van. Leeuwenhoek., 58, 57 (1990)
Groot WJ, Sikkenk CM, Waldram RH, van der Lans RGJM, Luyben KCAM, Bioprocess Eng., 8, 39 (1992)
Calhoun KA, Swartz JR, Biotechnol. Bioeng., 90(5), 606 (2005)
Jewet MC, Calhoun KA, Voloshin A, Wuu JJ, Swartz JR, Mol. Syst. Biol., 4, 57 (2008)
Calhoun KA, Swartz JR, J. Biotechnology., 123, 193 (2006)
Yeoman CJ, Han Y, Dodd D, Schroeder CM, Mackie RI, Cann IKO, Adv. Appl. Microbiol., 70, 1 (2010)
Gorsek A, Zajesk K, Chem. Eng. Transactions., 20, 181 (2010)
http://en.wikipedia.org/wiki/Cell-free_system.
Welch P, Scopes RK, J. Biotechnol., 2, 257 (1985)
http://www.globalrfa.org/pr_021111.php.
http://www.worldbank.org/foodcrisis/food_price_watch_report_feb2011.html.
Chapple C, Ladish M, Meilan R, Nature Biotechnol., 25, 746 (2007)
Chen F, Dixon RA, Nature Biotechnol., 25, 759 (2007)
Shapouri H, James D, Michael W, The Energy Balance of Corn Ethanol: An Update, United States Department of Agriculture, 55 (2002)
Swan TM, Watson K, Can. J. Microbiol., 43, 70 (1997)
You KM, Rosenfield CL, Knipple DC, Appl. Environ.Microbiol., 69, 1499 (2003)

The Korean Institute of Chemical Engineers. F5, 119, Anam-ro, Seongbuk-gu, 233 Spring Street Seoul 02856, South Korea.
TEL. No. +82-2-458-3078FAX No. +82-507-804-0669E-mail : kiche@kiche.or.kr

Copyright (C) KICHE.all rights reserved.

- Korean Journal of Chemical Engineering 상단으로