| 3 - 4 |
Feedstocks - New supplies and processing
Jeffries TW, Lee YY |
| 3 - 7 |
Introduction to the Proceedings of the Twentieth Symposium on Biotechnology for Fuels and Chemicals
Davison BH, Finkelstein M |
| 5 - 17 |
Natural and somatic embryo development in loblolly pine - Gene expression studies using differential display and DNA arrays
Cairney J, Xu NF, Pullman GS, Ciavatta VT, Johns B |
| 19 - 34 |
Alkaline and peracetic acid pretreatments of biomass for ethanol production
Teixeira LC, Linden JC, Schroeder HA |
| 35 - 45 |
Extrusion processing for ammonia fiber explosion (AFEX)
Dale BE, Weaver J, Byers FM |
| 47 - 54 |
Optimization of steam explosion to enhance hemicellulose recovery and enzymatic hydrolysis of cellulose in softwoods
Wu MM, Chang K, Gregg DJ, Boussaid A, Beatson RP, Saddler JN |
| 55 - 65 |
Two high-throughput techniques for determining wood properties as part of a molecular genetics analysis of hybrid poplar and loblolly pine
Tuskan G, West D, Bradshaw HD, Neale D, Sewell M, Wheeler N, Megraw B, Jech K, Wiselogel A, Evans R, Elam C, Davis M, Dinus R |
| 67 - 81 |
Modeling the enzymatic hydrolysis of dilute-acid pretreated douglas fir
Schell DJ, Ruth MF, Tucker MP |
| 83 - 89 |
Environmentally friendly lubricating oil candidate
Ozgulsun A, Karaosmanoglu F |
| 91 - 103 |
Comparison of different methods for the detoxification of lignocellulose hydrolyzates of spruce
Larsson S, Reimann A, Nilvebrant NO, Jonsson LJ |
| 105 - 115 |
Alfalfa fiber as a feedstock for ethanol and organic acids
Koegel RG, Sreenath HK, Straub RJ |
| 117 - 125 |
Steam explosion of straw in batch and continuous systems
Zimbardi F, Viggiano D, Nanna F, Demichele M, Cuna D, Cardinale G |
| 127 - 132 |
Oxidation of organosolv lignins in acetic acid - Influence of oxygen pressure
Goncalves AR, Schuchardt U |
| 133 - 142 |
Dilute acid hydrolysis of softwoods
Nguyen QA, Tucker MP, Keller FA, Beaty DA, Connors KM, Eddy FP |
| 145 - 145 |
Applied biological research
Cameron DC, Zhang M |
| 147 - 157 |
Evaluation of recombinant strains of Zymomonas mobilis for ethanol production from glucose xylose media
Joachimsthal E, Haggett KD, Rogers PL |
| 159 - 168 |
Site-directed mutagenesis study on the thermal stability of a chimeric PQQ glucose dehydrogenase and its structural interpretation
Witarto AB, Ohtera T, Sode K |
| 169 - 179 |
Isolation and analysis of tetraheme-bound-cytochrome from photosynthetic reaction centers of Rhodopseudomonas viridis
Nakamura C, Hasegawa M, Hara M, Miyake J |
| 181 - 189 |
Invertase production is related to the nitrogen source in Hansenula anomala
de Medeiros MB, de Carvalho PMB |
| 191 - 204 |
Fermentation performance characteristics of a prehydrolyzate-adapted xylose-fermenting recombinant Zymomonas in batch and continuous fermentations
Lawford HG, Rousseau JD, Mohagheghi A, McMillan JD |
| 205 - 210 |
Kinetics of xylitol fermentation by Candida guilliermondii crown on rice straw hemicellulosic hydrolysate
Roberto IC, de Mancilha IM, Sato S |
| 211 - 222 |
2-deoxyglucose as a selective agent for derepressed mutants of Pichia stipitis
Sreenath HK, Jeffries TW |
| 223 - 233 |
Optimization of biosurfactant lipopeptide production from Bacillus subtilis S499 by Plackett-Burman design
Jacques P, Hbid C, Destain J, Razafindralambo H, Paquot M, De Pauw E, Thonart P |
| 235 - 249 |
The effect of glucose on high-level xylose fermentations by recombinant Zymomonas in batch and fed-batch fermentations
Lawford HG, Rousseau JD |
| 251 - 266 |
Improving the catabolic functions of desiccation-tolerant soil bacteria
Weekers F, Jacques P, Springael D, Mergeay M, Diels L, Thonart P |
| 267 - 275 |
A high-copy-number plasmid capable of replication in thermophilic cyanobacteria
Miyake M, Nagai H, Shirai M, Kurane R, Asada Y |
| 277 - 291 |
A hybrid neural model of ethanol production by Zymomonas mobilis
Henriques AWD, da Costa AC, Alves TLM, Lima EL |
| 293 - 309 |
Enzyme production, growth, and adaptation of T-reesei strains QM9414, L-27, RL-P37, and Rut C-30 to conditioned yellow poplar sawdust hydrolysate - Scientific note
Hayward TK, Hamilton J, Templeton D, Jennings E, Ruth M, Tholudur A, McMillan JD, Tucker M, Mohagheghi A |
| 311 - 316 |
L-asparaginase II of Saccharomyces cerevisiae
Oliveira EMM, Carvajal E, Bon EPS |
| 317 - 323 |
Construction and characterization of fermentative lactate dehydrogenase Escherichia coli mutant and its potential for bacterial hydrogen production
Sode K, Watanabe M, Makimoto H, Tomiyama M |
| 325 - 335 |
Subunit analyses of a novel thermostable glucose dehydrogenase showing different temperature properties according to its quaternary structure
Yamazaki T, Tsugawa W, Sode K |
| 337 - 345 |
Expression of luciferase gene under control of the puf promoter from Rhodobacter sphaeroides
Vasilyeva L, Miyake M, Nakamura C, Nakada E, Tsygankov A, Asada Y, Miyake J |
| 347 - 354 |
Aspects of xylitol formation in sugarcane bagasse hydrolysate by Candida guilliermondii in the presence of tetracycline
Martinez EA, Silva SS, Felipe MGA |
| 357 - 358 |
Bioprocessing research
Zacchi G, Tsai SP |
| 359 - 372 |
Ethanol production from corn starch in a fluidized-bed bioreactor
Krishnan MS, Nghiem NP, Davison BH |
| 373 - 388 |
Fermentation kinetics of ethanol production from glucose and xylose by recombinant Saccharomyces 1400(pLNH33)
Krishnan MS, Ho NWY, Tsao GT |
| 389 - 399 |
Accumulation of biopolymers in activated sludge biomass
Chua H, Hu PHF, Ma CK |
| 401 - 407 |
Optimization of L-lactic acid production from glucose by Rhizopus oryzae ATCC 52311
Zhou Y, Dominguez JM, Cao NJ, Du JX, Tsao GT |
| 409 - 419 |
Simultaneous saccharification and extractive fermentation of lignocellulosic materials into lactic acid in a two-zone fermenter-extractor system
Iyer PV, Lee YY |
| 421 - 434 |
Microbial dynamics in oil-impacted prairie soil
Duncan KE, Kolhatkar R, Subramaniam C, Narasimhan R, Jennings E, Hettenbach S, Brown A, McComas C, Potter W, Sublette K |
| 435 - 444 |
Bioconversion of secondary fiber fines to ethanol using counter-current enzymatic saccharification and co-fermentation
Jeffries TW, Schartman R |
| 445 - 454 |
Conversion of industrial food wastes by Alcaligenes latus into polyhydroxyalkanoates
Hu PH, Chua H, Huang AL, Ho KP |
| 455 - 472 |
Bioconversion of mixed solids waste to ethanol
Nguyen QA, Keller FA, Tucker MP, Lombard CK, Jenkins BM, Yomogida DE, Tiangco VM |
| 473 - 484 |
Separation optimization for the recovery of phenyl ethyl alcohol
Priddy SA, Hanley TR, Effler WT |
| 485 - 499 |
Electrodialysis of acetate fermentation broths
Chukwu UN, Cheryan M |
| 501 - 510 |
Partitioning invertase between a dilute water solution and generated droplets
Ko S, Loha V, Du LP, Prokop A, Tanner RD |
| 511 - 520 |
Bioconversion of fumarate to succinate using glycerol as a carbon source
Ryu HW, Kang KH, Yun JS |
| 521 - 533 |
Biosorption of actinides from dilute waste actinide solution by egg-shell membrane
Ishikawa S, Suyama K, Satoh I |
| 535 - 545 |
Ethanol production by a flocculant yeast strain in a CSTR type fermenter with cell recycling
Hojo O, Hokka CO, Maior AMS |
| 547 - 559 |
Ethanol production using concentrated oak wood hydrolysates and methods to detoxify
Lee WG, Lee JS, Shin CS, Park SC, Chang HN, Chang YK |
| 561 - 569 |
Performance of fibrous bed bioreactor for treating odorous gas - Scientific note
Chua H, Li XZ, Yu PHF, Tam CY, Huang YL, Yang ST |
| 571 - 575 |
A preliminary information about continuous fermentation using cell recycling for improving microbial xylitol production rates - Scientific note
Silva SS, Chanto AQ, Vitolo M, Felipe MGA, Mancilha IM |
| 579 - 579 |
Emerging opportunities for industrial chemicals
Bradford M, Mielenz J |
| 583 - 584 |
Bioprocess evaluation and confirmation
Katzen R, Nghiem NP |
| 585 - 593 |
Two-phase methanization of food wastes in pilot scale
Lee JP, Lee JS, Park SC |
| 595 - 607 |
A process economic approach to develop a dilute-acid cellulose hydrolysis process to produce ethanol from biomass
Nagle N, Ibsen K, Jennings E |
| 609 - 631 |
Biomass conversion to mixed alcohol fuels using the MixAlco process
Holtzapple MT, Davison RR, Ross MK, Aldrett-Lee S, Nagwani M, Lee CM, Lee C, Adelson S, Kaar W, Gaskin D, Shirage H, Chang NS, Chang VS, Loescher ME |
| 633 - 640 |
Economic analysis of selected lignocellulose-to-ethanol conversion technologies
So KS, Brown RC |
| 641 - 648 |
Financing biotechnology projects - Lender due diligence requirements and the role of independent technical consultants
Keller JB, Plath PB |
| 649 - 665 |
Simultaneous saccharification and cofermentation of dilute-acid pretreated yellow poplar hardwood to ethanol using xylose-fermenting Zymomonas mobilis
McMillan JD, Newman MM, Templeton DW, Mohagheghi A |
| 669 - 670 |
Enzymatic processes and enzyme production
Sanford K, Himmel M |
| 671 - 679 |
Bioconversion of acrylonitrile to acrylamide using a thermostable nitrile hydratase
Padmakumar R, Oriel P |
| 681 - 688 |
Lignin peroxidase production by Streptomyces viridosporus T7A -Nitrogen nutrition optimization using glucose as carbon source
Zerbini JE, Oliveira EMM, Bon EPS |
| 689 - 699 |
Expression of Trichoderma reesei exo-cellobiohydrolase I transgenic tobacco leaves and calli
Dai ZY, Hooker BS, Quesenberry RD, Gao JW |
| 701 - 712 |
Preserving the activity of cellulase in a batch foam fractionation process
Loha V, Prokop A, Du LP, Tanner RD |
| 713 - 722 |
Bleaching of kraft pulp with commercial xylanases
de Araujo JHB, de Moraes FF, Zanin GM |
| 723 - 733 |
Laccase from Trametes versicolor - Stability at temperature and alkaline conditions and ifs effect on biobleaching of hardwood kraft pulp
de Carvalho MEA, Monteiro MC, Sant'Anna GL |
| 735 - 744 |
Lignin peroxidase and protease production by Streptomyces viridosporus T7A in the presence of calcium carbonate -Nutritional and regulatory carbon sources
Macedo JMB, Gottschalk LMF, Bon EPS |
| 745 - 757 |
Characterization and utilization of Candida rugosa lipase immobilized on controlled pore silica
Soares CMF, De Castro HF, De Moraes FF, Zanin GM |
| 759 - 770 |
Enzymatic synthesis of medium-chain triglycerides in a solvent-free system
Langone MAP, Sant'Anna GL |
| 771 - 778 |
Lignin peroxidase production by Streptomyces viridosporus T7A -Use of corn oil as a carbon source
Gottschalk LMF, Macedo JMB, Bon EPS |
| 779 - 788 |
Screening of variables in xylanase recovery using BDBAC reversed micelles
Rodrigues EMG, Pessoa A, Milagres AMF |
| 789 - 806 |
Modeling cellobiose hydrolysis with integrated kinetic models
Calsavara LPV, De Moraes FF, Zanin GM |
| 807 - 815 |
Recovery of cellulase by HPMC-salt precipitation - Analysis by statistical experimental design
Avelino S, Azzoni AR, Rosa PTV, Miranda EA, Santana CC |
| 817 - 826 |
Fusel oil as precursor for aroma generation by biotransformation using lipase scientific note
De Castro HF, Moriya RY, Oliveira PC, Soares CMF |
| 827 - 834 |
Effect of growth substrates on production of new soluble glucose 3-dehydrogenase in Halomonas (Deleya) sp alpha-15
Kojima K, Tsugawa W, Hamahuji T, Watazu Y, Sode K |
| 835 - 844 |
Enzymatic alcoholysis of palm and palm kernel oils -Optimization by statistical methods
Oliveira D, Alves TLM |
| 845 - 855 |
Mathematical modeling of lipase and protease production by Penicillium restrictum in a batch fermenter
Freire DMG, Sant'Anna GL, Alves TLM |
| 857 - 865 |
Modification of the thermoresistance to spray-drying of a cold-adapted subtilisin by genetic engineering
Bare G, Diakiese A, Zgoulli S, Sabri A, Gerday C, Thonart P |
| 867 - 876 |
The nature of lignin from steam explosion enzymatic hydrolysis of softwood - Structural features and possible uses
Shevchenko SM, Beatson RP, Saddler JN |
