Atrazine biodegradation in the lab and in the field: enzymatic activities and gene regulation

Govantes, Fernando; Porrúa, Odil; García-González, Vicente; Santero, Eduardo

doi:10.1111/j.1751-7915.2008.00073.x

Cited by 71 publications

(36 citation statements)

References 76 publications

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“…Complete mineralization is the most favorable way of biodegradation; however, the vast majority of the xenobiotics biodegradation pathways (including triazines) end in the formation of by-products. Formation of ametryn metabolites during the experiments presented in this work is partially in agreement with the reactions of atrazine biodegradation, where the formation 2-hydroxyatrazine has been observed in many species (Atrazine Pathway Map, 2017; KEGG Atrazine degradation -Reference pathway, 2017; Govantes et al, 2009;Solomon et al, 2013;Abigail et al, 2013), while deethylation of ethanamine substituents seems to be characteristic for fungal strains and mammals (Chirnside et al, 2011;Pereira et al, 2013, Sciali et al, 2014. Figure 6.…”

Section: Discussionsupporting

confidence: 86%

Ametryn removal by Metarhizium brunneum: Biodegradation pathway proposal and metabolic background revealed

2018

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Section: Discussionsupporting

confidence: 86%

Ametryn removal by Metarhizium brunneum: Biodegradation pathway proposal and metabolic background revealed

2018

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“…Although s-triazine transport by degrading strains has not been studied in detail, indirect evidence of an s-triazine transporter has been documented for several organisms (18,48,54), including Pseudomonas sp. strain ADP (15,22,38). Proximity to the cyanuric acid utilization atzDEF operation and coregulation by the general nitrogen control system and AtzR suggest that they may be involved in the transport of cyanuric acid.…”

Section: Lttrs Andmentioning

confidence: 99%

Transcriptional Organization and Regulatory Elements of a Pseudomonas sp. Strain ADP Operon Encoding a LysR-Type Regulator and a Putative Solute Transport System

et al. 2012

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cluster of the Pseudomonas sp. strain ADP atrazine-degradative plasmid pADP-1, which carries genes for an outer membrane protein and the components of a putative ABC-type solute transporter, is located downstream from atzR, which encodes the LysR-type transcriptional regulator of the cyanuric acid-degradative operon atzDEF. Here we describe the transcriptional organization of these genes. Our results show that all six genes are cotranscribed from the PatzR promoter to form the atzRSTUVW operon. A second, stronger promoter, PatzT, is found within atzS and directs transcription of the four distal genes. PatzT is N dependent, activated by NtrC in response to nitrogen limitation with the aid of IHF, and repressed by AtzR. A combination of in vivo mutational analysis and primer extension allowed us to locate the PatzT promoter and map the transcriptional start site. Similarly, we used deletion and point mutation analyses, along with in vivo expression studies and in vitro binding assays, to locate the NtrC, IHF, and AtzR binding sites and address their functionality. Our results suggest a regulatory model in which NtrC activates PatzT transcription via DNA looping, while AtzR acts as an antiactivator that diminishes expression by interfering with the activation process. P seudomonas sp. strain ADP (31) is the model organism for bacterial degradation of the s-triazine herbicide atrazine (2-chloro-4-ethylamino-6-isopropylamino-1,3,5-triazine). Pseudomonas sp. strain ADP uses atrazine as the sole nitrogen source via a six-step hydrolytic pathway, carried by the 108-kbp catabolic plasmid pADP-1 (35). The six genes involved in atrazine mineralization are localized in two distinct regions of the plasmid: atzA, atzB, and atzC, responsible for atrazine conversion to cyanuric acid (2,4,6-trihydroxy-1,3,5-triazine), are harbored at three distant positions within a large (Ͼ40-kbp) unstable region featuring multiple direct repeats and transposable elements. The genes involved in cyanuric acid cleavage and ammonium release are clustered in the stable portion of pADP-1 to form the atzDEF operon (reviewed in reference 51).Our previous work has shown that atrazine utilization by Pseudomonas sp. strain ADP is regulated by nitrogen availability in a manner resembling general nitrogen control (15), and the cyanuric acid utilization operon atzDEF is one of the targets for such regulation (16). Expression of atzDEF is induced by the substrate of the pathway, cyanuric acid, and repressed in the presence of a preferential nitrogen source. The product of atzR, the gene transcribed divergently from atzDEF, is a LysR-type transcriptional regulator (LTTR) required for both nitrogen-and cyanuric aciddependent control. Transcription of atzR is initiated from the Ndependent PatzR promoter, activated by the general nitrogen control protein NtrC, and repressed by AtzR (16). NtrC-dependent activation of atzR is unusual in that it does not require interaction with any upstream or downstream sequence elements (41). AtzR binds a single site overlapping...

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“…In bioremediation of groundwater study, atrazine is readily biodegraded under controlled conditions (Shapir et al, 2007). It was found that biodegrading capacity is inhibited in the presence of external nitrogen and carbon sources (Govantes et al, 2009). On the other study of Agrobacterium radiobactor strain J14a, the degradation rate of atrazine was enhanced in Sequential Batch Biofilm Reactor (SBBR) after the additional supply of carbon source (Protzman et al, 1999).…”

Section: Biological Methodsmentioning

confidence: 99%

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2017

RJLBPCS

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ABSTRACT:Increasing human population is putting enormous pressure on food supply and agriculture. To increase crop production, pesticides are used intensively. Atrazine (herbicide) which has proved economical in case of maize and sorghum for yield increase and price reduction for farmers. However, extensive use of atrazine in agriculture resulted in pollution and adverse effects on the environment.There is need to tackle atrazine contamination. This review explores the way for atrazine remediation.

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Atrazine biodegradation in the lab and in the field: enzymatic activities and gene regulation

Cited by 71 publications

References 76 publications

Ametryn removal by Metarhizium brunneum: Biodegradation pathway proposal and metabolic background revealed

Ametryn removal by Metarhizium brunneum: Biodegradation pathway proposal and metabolic background revealed

Transcriptional Organization and Regulatory Elements of a Pseudomonas sp. Strain ADP Operon Encoding a LysR-Type Regulator and a Putative Solute Transport System

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