Add to ORKGObjectiveAdaptive laboratory evolution (ALE) is an effective approach to study the evolution behavior of bacterial cultures and to select for strains with desired metabolic features. In this study, we explored the possibility of evolving Thermotoga sp. strain RQ7 for cellulose-degrading abilities.ResultsWild type RQ7 strain was subject to a series of transfers over six and half years with cellulose filter paper as the main and eventually the sole carbon source. Each transfer was accompanied with the addition of 50 μg of Caldicellulosiruptor saccharolyticus DSM 8903 genomic DNA. A total of 331 transfers were completed. No cellulose degradation was observed with the RQ7 cultures. Thirty three (33) isolates from six time points were sampl...
Plant lignocellulose is the most abundant raw material on the planet and a promising substrate for b...
International audienceThe phylum Chloroflexi is phylogenetically diverse and is a deeply branching l...
Abstract Background Escherichia coli strains lacking the phosphoenolpyruvate: carbohydrate phosphotr...
ObjectiveAdaptive laboratory evolution (ALE) is an effective approach to study the evolution behavio...
ObjectiveAdaptive laboratory evolution (ALE) is an effective approach to study the evolution behavio...
Thermotoga spp. can effectively utilize a variety of carbohydrates to generate hydrogen gas, making ...
Mesophilic cellulolytic Clostridium papyrosolvens C7 potentially could be used by industry for ethan...
Mesophilic cellulolytic Clostridium papyrosolvens C7 potentially could be used by industry for ethan...
Thermotoga spp. may serve as model systems for understanding life sustainability under hyperthermoph...
Enzymatic hydrolysis of cellulose is a key process in the global carbon cycle and the industrial con...
The demand for thermophilic microbial host systems for the production of bio-products has increased ...
The complexity of plant cell walls creates many challenges for microbial decomposition. Clostridium ...
The ability of Thermotoga spp. to degrade cellulose is limited due to a lack of exoglucanases. To ad...
Abstract Background Therm...
Abstract Background Therm...
Plant lignocellulose is the most abundant raw material on the planet and a promising substrate for b...
International audienceThe phylum Chloroflexi is phylogenetically diverse and is a deeply branching l...
Abstract Background Escherichia coli strains lacking the phosphoenolpyruvate: carbohydrate phosphotr...
ObjectiveAdaptive laboratory evolution (ALE) is an effective approach to study the evolution behavio...
ObjectiveAdaptive laboratory evolution (ALE) is an effective approach to study the evolution behavio...
Thermotoga spp. can effectively utilize a variety of carbohydrates to generate hydrogen gas, making ...
Mesophilic cellulolytic Clostridium papyrosolvens C7 potentially could be used by industry for ethan...
Mesophilic cellulolytic Clostridium papyrosolvens C7 potentially could be used by industry for ethan...
Thermotoga spp. may serve as model systems for understanding life sustainability under hyperthermoph...
Enzymatic hydrolysis of cellulose is a key process in the global carbon cycle and the industrial con...
The demand for thermophilic microbial host systems for the production of bio-products has increased ...
The complexity of plant cell walls creates many challenges for microbial decomposition. Clostridium ...
The ability of Thermotoga spp. to degrade cellulose is limited due to a lack of exoglucanases. To ad...
Abstract Background Therm...
Abstract Background Therm...
Plant lignocellulose is the most abundant raw material on the planet and a promising substrate for b...
International audienceThe phylum Chloroflexi is phylogenetically diverse and is a deeply branching l...
Abstract Background Escherichia coli strains lacking the phosphoenolpyruvate: carbohydrate phosphotr...