Simultaneous carbon catabolite repression governs sugar and aromatic co-utilization in Pseudomonas putida M2
S Shrestha, D Awasthi, Y Chen, J Gin… - Applied and …, 2023 - Am Soc Microbiol
Pseudomonas putida have emerged as promising biocatalysts for the conversion of sugars
and aromatic compounds obtained from lignocellulosic biomass. Understanding the role of …
and aromatic compounds obtained from lignocellulosic biomass. Understanding the role of …
Eliminating a global regulator of carbon catabolite repression enhances the conversion of aromatic lignin monomers to muconate in Pseudomonas putida KT2440
Carbon catabolite repression refers to the preference of microbes to metabolize certain
growth substrates over others in response to a variety of regulatory mechanisms. Such …
growth substrates over others in response to a variety of regulatory mechanisms. Such …
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 …
The Crc/CrcZ‐CrcY global regulatory system helps the integration of gluconeogenic and glycolytic metabolism in Pseudomonas putida
In metabolically versatile bacteria, carbon catabolite repression (CCR) facilitates the
preferential assimilation of the most efficient carbon sources, improving growth rates and …
preferential assimilation of the most efficient carbon sources, improving growth rates and …
A cyclic metabolic network in Pseudomonas protegens Pf-5 prioritizes the Entner-Doudoroff pathway and exhibits substrate hierarchy during carbohydrate co …
RA Wilkes, CM Mendonca… - Applied and environmental …, 2019 - Am Soc Microbiol
The genetic characterization of Pseudomonas protegens Pf-5 was recently completed.
However, the inferred metabolic network structure has not yet been evaluated …
However, the inferred metabolic network structure has not yet been evaluated …
Revealing oxidative pentose metabolism in new Pseudomonas putida isolates
MR Park, R Gauttam, B Fong, Y Chen… - Environmental …, 2023 - Wiley Online Library
The Pseudomonas putida group in the Gammaproteobacteria has been intensively studied
for bioremediation and plant growth promotion. Members of this group have recently …
for bioremediation and plant growth promotion. Members of this group have recently …
Rewiring the functional complexity between Crc, Hfq and sRNAs to regulate carbon catabolite repression in Pseudomonas
K Bharwad, S Rajkumar - World Journal of Microbiology and …, 2019 - Springer
Pseudomonas species are the most versatile of all known bacteria for metabolic flexibility
and the extent of host range from plants to humans that remains unmatched. The evolution …
and the extent of host range from plants to humans that remains unmatched. The evolution …
Analysis of Pseudomonas putida growth on non‐trivial carbon sources using transcriptomics and genome‐scale modelling
I D'Arrigo, JGR Cardoso, M Rennig… - Environmental …, 2019 - Wiley Online Library
Pseudomonas putida is characterized by a versatile metabolism and stress tolerance traits
that allow the bacterium to cope with different environmental conditions. In this work, the …
that allow the bacterium to cope with different environmental conditions. In this work, the …
When metabolic prowess is too much of a good thing: how carbon catabolite repression and metabolic versatility impede production of esterified α, ω-diols in …
C Lu, C Batianis, EO Akwafo, RH Wijffels… - Biotechnology for …, 2021 - Springer
Background Medium-chain-length α, ω-diols (mcl-diols) are important building blocks in
polymer production. Recently, microbial mcl-diol production from alkanes was achieved in E …
polymer production. Recently, microbial mcl-diol production from alkanes was achieved in E …
Engineering bacterial sugar catabolism and tolerance toward lignocellulose conversion
Lignocellulosic biomass represents a renewable domestic feedstock that can support large-
scale biochemical production processes for fuels and specialty chemicals. However, cost …
scale biochemical production processes for fuels and specialty chemicals. However, cost …