[HTML][HTML] Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida
Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …
divergent carbon substrates. These capabilities have important implications for the role of …
Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida
MA Kukurugya, CM Mendonca… - The Journal of …, 2019 - pubmed.ncbi.nlm.nih.gov
Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …
divergent carbon substrates. These capabilities have important implications for the role of …
Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida.
MA Kukurugya, CM Mendonca, M Solhtalab… - The Journal of …, 2019 - europepmc.org
Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …
divergent carbon substrates. These capabilities have important implications for the role of …
Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida
MA Kukurugya, CM Mendonca… - Journal of …, 2019 - scholars.northwestern.edu
Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …
divergent carbon substrates. These capabilities have important implications for the role of …
[HTML][HTML] Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida
MA Kukurugya, CM Mendonca… - The Journal of …, 2019 - ncbi.nlm.nih.gov
Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …
divergent carbon substrates. These capabilities have important implications for the role of …
Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida
MM Kykurugya, CM Mendonca, M Solhtalab… - Journal of Biological …, 2019 - ars.usda.gov
Different Pseudomonas species grow well in different nutritional environments and can
break down and utilize different carbon containing compounds to thrive. This ability has …
break down and utilize different carbon containing compounds to thrive. This ability has …
[HTML][HTML] Multi-omics analysis unravels a segregated metabolic flux network that tunes co-utilization of sugar and aromatic carbons in Pseudomonas putida
MA Kukurugya, CM Mendonca, M Solhtalab… - Journal of Biological …, 2019 - Elsevier
Pseudomonas species thrive in different nutritional environments and can catabolize
divergent carbon substrates. These capabilities have important implications for the role of …
divergent carbon substrates. These capabilities have important implications for the role of …