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A unique global metabolic trait of Pseudomonas bharatica CSV86<sup>T</sup>: metabolism of aromatics over simple carbon sources and co-metabolism with organic acids
Journal
Microbiology (United Kingdom)
ISSN
13500872
Date Issued
2022-08-04
Author(s)
Dhamale, Tushar
Saha, Braja Kishor
Papade, Sandesh E.
Singh, Srushti
Phale, Prashant S.
Abstract
Hierarchical utilization of substrate by microbes (utilization of simple carbon sources prior to complex ones) poses a major lim-itation to the efficient remediation of aromatic pollutants. Aromatic compounds, being complex and reduced in nature, appear to be a deferred choice as the carbon source in the presence of a plethora of simple organic compounds in the environment. The soil bacterium Pseudomonas bharatica CSV86T displays a unique carbon source utilization hierarchy. It preferentially utilizes aromatics over glucose and co-metabolizes them with succinate or pyruvate (Basu et al., 2006, Applied and Environmental Micro-biology, 72: 22226–2230). In the present study, the substrate utilization hierarchy for strain CSV86T was tested for additional simple carbon sources such as glycerol, acetate, and tri-carboxylic acid (TCA) cycle intermediates like α-ketoglutarate and fumarate. When grown on a mixture of aromatics (benzoate or naphthalene) plus glycerol, the strain displayed a diauxic growth profile with significantly high activity of aromatic utilization enzymes (catechol 1,2-or 2,3-dioxygenase, respectively) in the first-log phase. This suggests utilization of aromatics in the first-log phase followed by glycerol in the second-log phase. On a mixture of an aromatic plus organic acid (acetate, α-ketoglutarate or fumarate), the strain displayed a monoauxic growth profile, indicating co-metabolism. Interestingly, the presence of glycerol, acetate, α-ketoglutarate or fumarate does not repress metab-olism/utilization of the aromatic. Thus, the substrate utilization hierarchy of strain CSV86T is aromatics=organic acids>glucose/ glycerol, which is unique as compared to other Pseudomonas species, where degradation of aromatics is repressed by glycerol, glucose, acetate or organic acids, including TCA cycle intermediates. This novel substrate utilization hierarchy appears to be a global metabolic phenomenon in strain CSV86T, thus implying it to be an ideal host for metabolic engineering as well as for its potential application in bioremediation.
Volume
168
Publication link
Subjects