Add to ORKGWith its ability to catabolize a wide variety of carbon sources and a growing engineering toolkit, Pseudomonas putida KT2440 is emerging as an important chassis organism for metabolic engineering. Despite advances in our understanding of the organism, many gaps remain in our knowledge of the genetic basis of its metabolic capabilities. The gaps are particularly noticeable in our understanding of both fatty acid and alcohol catabolism, where many paralogs putatively coding for similar enzymes coexist, making biochemical assignment via sequence homology difficult. To rapidly assign function to the enzymes responsible for these metabolisms, we leveraged random barcode transposon sequencing (RB-Tn-Seq). Global fitness analyses of transposon lib...
<p>By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publ...
By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publish...
Synthetic biology attempts to make inherently chaotic biological systems both predictable and useful...
With its ability to catabolize a wide variety of carbon sources and a growing engineering toolkit, P...
With its ability to catabolize a wide variety of carbon sources and a growing engineering toolkit, P...
P. putida lysine metabolism can produce multiple commodity chemicals, conferring great biotechnologi...
Despite intensive study for 50 years, the biochemical and genetic links between lysine metabolism an...
Despite intensive study for 50 years, the biochemical and genetic links between lysine metabolism an...
Medium-chain-length fatty alcohols have broad applications in the surfactant, lubricant, and cosmeti...
Diverse and elaborate pathways for nutrient utilization, as well as mechanisms to combat unfavourabl...
Diverse and elaborate pathways for nutrient utilization, as well as mechanisms to combat unfavourabl...
20 p.-5 fig.4 tab.Background Pseudomonas putida is the best studied pollutant degradative bacteri...
peer reviewedBACKGROUND: Pseudomonas putida is the best studied pollutant degradative bacteria and i...
By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publish...
Pollution from ethylene glycol, and plastics containing this monomer, represent a significant enviro...
<p>By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publ...
By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publish...
Synthetic biology attempts to make inherently chaotic biological systems both predictable and useful...
With its ability to catabolize a wide variety of carbon sources and a growing engineering toolkit, P...
With its ability to catabolize a wide variety of carbon sources and a growing engineering toolkit, P...
P. putida lysine metabolism can produce multiple commodity chemicals, conferring great biotechnologi...
Despite intensive study for 50 years, the biochemical and genetic links between lysine metabolism an...
Despite intensive study for 50 years, the biochemical and genetic links between lysine metabolism an...
Medium-chain-length fatty alcohols have broad applications in the surfactant, lubricant, and cosmeti...
Diverse and elaborate pathways for nutrient utilization, as well as mechanisms to combat unfavourabl...
Diverse and elaborate pathways for nutrient utilization, as well as mechanisms to combat unfavourabl...
20 p.-5 fig.4 tab.Background Pseudomonas putida is the best studied pollutant degradative bacteri...
peer reviewedBACKGROUND: Pseudomonas putida is the best studied pollutant degradative bacteria and i...
By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publish...
Pollution from ethylene glycol, and plastics containing this monomer, represent a significant enviro...
<p>By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publ...
By the time the complete genome sequence of the soil bacterium Pseudomonas putida KT2440 was publish...
Synthetic biology attempts to make inherently chaotic biological systems both predictable and useful...