Cikkek nyilvánosan hozzáférhető megbízással - Adam GussTovábbi információ
Sehol sem hozzáférhető: 2
Advances in Consolidated Bioprocessing Using Clostridium thermocellum and Thermoanaerobacter saccharolyticum
LR Lynd, AM Guss, ME Himmel, D Beri, C Herring, EK Holwerda, ...
Industrial biotechnology: microorganisms 1, 365-394, 2017
Megbízások: US Department of Energy
Clostridium thermocellum: Engineered for the production of bioethanol
SD Brown, KB Sander, CW Wu, AM Guss
Direct Microbial Conversion of Biomass to Advanced Biofuels, 321-333, 2015
Megbízások: US Department of Energy
Valahol hozzáférhető: 67
Mixed plastics waste valorization through tandem chemical oxidation and biological funneling
KP Sullivan, AZ Werner, KJ Ramirez, LD Ellis, JR Bussard, BA Black, ...
Science 378 (6616), 207-211, 2022
Megbízások: US Department of Energy
Phylogenetic and metabolic diversity of bacteria associated with cystic fibrosis
AM Guss, G Roeselers, ILG Newton, CR Young, V Klepac-Ceraj, S Lory, ...
The ISME journal 5 (1), 20-29, 2011
Megbízások: US National Institutes of Health, Howard Hughes Medical Institute
Consolidated bioprocessing of cellulose to isobutanol using Clostridium thermocellum
PP Lin, L Mi, AH Morioka, KM Yoshino, S Konishi, SC Xu, BA Papanek, ...
Metabolic engineering 31, 44-52, 2015
Megbízások: US Department of Energy
Metabolic engineering of Pseudomonas putida for increased polyhydroxyalkanoate production from lignin
D Salvachúa, T Rydzak, R Auwae, A De Capite, BA Black, JT Bouvier, ...
Microbial biotechnology 13 (1), 290-298, 2020
Megbízások: US Department of Energy
Innovative chemicals and materials from bacterial aromatic catabolic pathways
CW Johnson, D Salvachúa, NA Rorrer, BA Black, DR Vardon, PCS John, ...
Joule 3 (6), 1523-1537, 2019
Megbízások: US Department of Energy
Simultaneous achievement of high ethanol yield and titer in Clostridium thermocellum
L Tian, B Papanek, DG Olson, T Rydzak, EK Holwerda, T Zheng, J Zhou, ...
Biotechnology for biofuels 9, 1-11, 2016
Megbízások: US Department of Energy
New methods for tightly regulated gene expression and highly efficient chromosomal integration of cloned genes for Methanosarcina species
AM Guss, M Rother, JK Zhang, G Kulkkarni, WW Metcalf
Archaea 2 (3), 193-203, 2008
Megbízások: German Research Foundation
Toward low-cost biological and hybrid biological/catalytic conversion of cellulosic biomass to fuels
LR Lynd, GT Beckham, AM Guss, LN Jayakody, EM Karp, C Maranas, ...
Energy & Environmental Science 15 (3), 938-990, 2022
Megbízások: US Department of Energy
Elimination of hydrogenase active site assembly blocks H2 production and increases ethanol yield in Clostridium thermocellum
R Biswas, T Zheng, DG Olson, LR Lynd, AM Guss
Biotechnology for biofuels 8, 1-8, 2015
Megbízások: US Department of Energy
Development of a high efficiency integration system and promoter library for rapid modification of Pseudomonas putida KT2440
JR Elmore, A Furches, GN Wolff, K Gorday, AM Guss
Metabolic engineering communications 5, 1-8, 2017
Megbízások: US Department of Energy
Tandem chemical deconstruction and biological upcycling of poly (ethylene terephthalate) to β-ketoadipic acid by Pseudomonas putida KT2440
AZ Werner, R Clare, TD Mand, I Pardo, KJ Ramirez, SJ Haugen, F Bratti, ...
Metabolic Engineering 67, 250-261, 2021
Megbízások: US Department of Energy
Engineering glucose metabolism for enhanced muconic acid production in Pseudomonas putida KT2440
GJ Bentley, N Narayanan, RK Jha, D Salvachúa, JR Elmore, GL Peabody, ...
Metabolic engineering 59, 64-75, 2020
Megbízások: US Department of Energy
Elimination of metabolic pathways to all traditional fermentation products increases ethanol yields in Clostridium thermocellum
B Papanek, R Biswas, T Rydzak, AM Guss
Metabolic engineering 32, 49-54, 2015
Megbízások: US Department of Energy
Thermochemical wastewater valorization via enhanced microbial toxicity tolerance
LN Jayakody, CW Johnson, JM Whitham, RJ Giannone, BA Black, ...
Energy & Environmental Science 11 (6), 1625-1638, 2018
Megbízások: US Department of Energy
Approaches to genetic tool development for rapid domestication of non-model microorganisms
LA Riley, AM Guss
Biotechnology for Biofuels 14 (1), 30, 2021
Megbízások: US Department of Energy
Engineered Pseudomonas putida simultaneously catabolizes five major components of corn stover lignocellulose: Glucose, xylose, arabinose, p-coumaric acid, and acetic acid
JR Elmore, GN Dexter, D Salvachúa, M O'Brien, DM Klingeman, K Gorday, ...
Metabolic Engineering 62, 62-71, 2020
Megbízások: US Department of Energy
Production of itaconic acid from alkali pretreated lignin by dynamic two stage bioconversion
JR Elmore, GN Dexter, D Salvachúa, J Martinez-Baird, EA Hatmaker, ...
Nature communications 12 (1), 2261, 2021
Megbízások: US Department of Energy
Engineering electron metabolism to increase ethanol production in Clostridium thermocellum
J Lo, DG Olson, SJL Murphy, L Tian, S Hon, A Lanahan, AM Guss, ...
Metabolic engineering 39, 71-79, 2017
Megbízások: US Department of Energy
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