2019
DOI: 10.1038/s41396-019-0430-z
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Defining lower limits of biodegradation: atrazine degradation regulated by mass transfer and maintenance demand inArthrobacter aurescensTC1

Abstract: Exploring adaptive strategies by which microorganisms function and survive in low-energy natural environments remains a grand goal of microbiology, and may help address a prime challenge of the 21st century: degradation of man-made chemicals at low concentrations (“micropollutants”). Here we explore physiological adaptation and maintenance energy requirements of a herbicide (atrazine)-degrading microorganism (Arthrobacter aurescens TC1) while concomitantly observing mass transfer limitations directly by compou… Show more

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Cited by 57 publications
(67 citation statements)
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“…Model Reactions involved in atrazine degradation pathway and its further conversion into the cellular building blocks were added manually ( Fig. 1) based on the detailed reports of the relevant pathways in the specific strain 24,59 . P. aurescens TC1 degrades atrazine by hydrolytic dechlorination.…”
Section: Resultsmentioning
confidence: 99%
“…Model Reactions involved in atrazine degradation pathway and its further conversion into the cellular building blocks were added manually ( Fig. 1) based on the detailed reports of the relevant pathways in the specific strain 24,59 . P. aurescens TC1 degrades atrazine by hydrolytic dechlorination.…”
Section: Resultsmentioning
confidence: 99%
“…Simulation results to demonstrate the benefit of two subpopulations in the environment Hypothetical scenario 1: Constant low substrate availability -Heterogenous adaptation allows survival of active 'growing' cells at a minimum substrate concentration. Growing cells have a relatively high metabolic activity, and hence, their energy requirement for maintaining particular subcellular processes such as sustaining the proton motive force, osmoregulation, protein turnover, repair and so on known as maintenance energy is much higher than in 'non-growing' cells (Van Bodegom, 2007;Kempes et al, 2017;Kundu et al, 2019). The maintenance energy of 'non-growing' cells is dependent on their physiological adaptation (Morita, 1997;Lever et al, 2015).…”
Section: Effect Of Parameter Uncertainty and Global Sensitivity Analysismentioning
confidence: 99%
“…Actinobacteria are involved in phosphate uptake and the degradation of cellulose, hemicellulose and chitin (Yilmaz et al, 2016). Within this phylum, Arthrobacter species are known to degrade PAH (Sawulski et al, 2014), polyethelyene (Balasubramanian et al, 2010), and metabolize pesticide (Kundu et al, 2019). The growth of two out of three Actinobacteria, including one Arthrobacter species, was altered by UV filters.…”
Section: Toxicity Of Uv Filtersmentioning
confidence: 99%