Phthalate Esters Metabolic Strain Gordonia sp. GZ-YC7, a Potential Soil Degrader for High Concentration Di-(2-ethylhexyl) Phthalate

Hu, Tong; Yang, Chen; Hou, Zhengyu; Liu, Tengfei; Mei, Xiaotong; Zheng, Lianbao; Zhong, Weihong

doi:10.3390/microorganisms10030641

Cited by 14 publications

(5 citation statements)

References 50 publications

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“…However, the plasticity of genomes and metabolic flexibility of representatives of the genus Gordonia make them interesting for both fundamental studies and practical applications. Gordonia strains are mainly known as degraders of alkanes [29][30][31], but among them there are also degraders of thiophenes [26,32], phthalates [33][34][35] and steroids [36][37][38].…”

Section: Introductionmentioning

confidence: 99%

Genomic, Phylogenetic and Physiological Characterization of the PAH-Degrading Strain Gordonia polyisoprenivorans 135

Frantsuzova,

Bogun,

Kopylova

et al. 2024

Biology

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The strain Gordonia polyisoprenivorans 135 is able to utilize a wide range of aromatic compounds. The aim of this work was to study the features of genetic organization and biotechnological potential of the strain G. polyisoprenivorans 135 as a degrader of aromatic compounds. The study of the genome of the strain 135 and the pangenome of the G. polyisoprenivorans species revealed that some genes, presumably involved in PAH catabolism, are atypical for Gordonia and belong to the pangenome of Actinobacteria. Analyzing the intergenic regions of strain 135 alongside the “panIGRome” of G. polyisoprenivorans showed that some intergenic regions in strain 135 also differ from those located between the same pairs of genes in related strains. The strain G. polyisoprenivorans 135 in our work utilized naphthalene (degradation degree 39.43%) and grew actively on salicylate. At present, this is the only known strain of G. polyisoprenivorans with experimentally confirmed ability to utilize these compounds.

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Section: Introductionmentioning

confidence: 99%

Genomic, Phylogenetic and Physiological Characterization of the PAH-Degrading Strain Gordonia polyisoprenivorans 135

Frantsuzova,

Bogun,

Kopylova

et al. 2024

Biology

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“…Gordonia strains are interesting for application in biotechnologies of environmental purification as degraders of pollutants of different chemical structures, such as alkanes [11][12][13][14], aromatic hydrocarbons [15,16] and their derivatives [17,18], thiophenes [19][20][21], and phthalates [22][23][24][25][26]. The type strains of several Gordonia species were isolated from soils contaminated with thiophenes (G. amicalis [27]), tar (G. alkanivorans [28]), from automobile tires (G. polyisoprenivorans [29], G. westfalica [30]), oil-producing wells (G. paraffinivorans [31]), and activated sludge [23].…”

Section: Introductionmentioning

confidence: 99%

Whole Genome Analysis and Assessment of the Metabolic Potential of Gordonia rubripertincta Strain 112, a Degrader of Aromatic and Aliphatic Compounds

Frantsuzova

Богун

Solomentsev

et al. 2023

Biology

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The application of Gordonia strains in biotechnologies of environmental purification as degraders of pollutants of different chemical structures is an interesting research topic. The strain Gordonia rubripertincta 112 (IEGM112) is capable of utilizing diesel fuel, alkanes, and aromatic compounds. The aim of this work was to study the potential of G. rubripertincta 112 as a degrader of aromatic and aliphatic compounds and analyze its complete genome in comparison with other known G. rubripertincta strains. The genome had a total length of 5.28 Mb and contained 4861 genes in total, of which 4799 were coding sequences (CDS). The genome contained 62 RNA genes in total, of which 50 were tRNAs, three were ncRNAs, and nine were rRNAs. The strain bears plasmid elements with a total length of 189,570 nucleotides (plasmid p1517). The strain can utilize 10.79 ± 1.17% of hexadecane and 16.14 ± 0.16% of decane over 3 days of cultivation. In the genome of the strain, we have found metabolic pathways of alkane (cytochrome P450 hydroxylases) and catechol (ortho- and meta-pathways) degradation. These results will help us to further approach the fundamental study of the processes occurring in the strain cells and to enrich our knowledge of the catabolic capabilities of G. rubripertincta.

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“…The strains Gordonia hongkongensis RL-LY01 [37] and Gordonia sp. GZ-YC7 [38] exhibit a strong potential for environmental bioremediation due to their ability to effectively degrade various phthalate esters or phthalic acid esters (PAEs). Hu et al (2022) reported that Gordonia sp.…”

Section: Introductionmentioning

confidence: 99%

“…GZ-YC7 [38] exhibit a strong potential for environmental bioremediation due to their ability to effectively degrade various phthalate esters or phthalic acid esters (PAEs). Hu et al (2022) reported that Gordonia sp. GZ-YC7 efficiently removed more than 45% of di-(2-ethylhexyl) phthalate with an initial concentration of 500 mg/kg within 5 days, even when soil microbial activity is typically inhibited at lower di-(2-ethylhexyl) phthalate (DEHP) concentrations.…”

Section: Introductionmentioning

confidence: 99%

Insights into the Potential Role of Gordonia alkanivorans Strains in Biotechnologies

Frantsuzova,

Bogun,

Shishkina

et al. 2023

Processes

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Members of many species of the genus Gordonia are known for their significant metabolic potential, including the ability to utilize compounds of different structures. The aim of the work was to study the ability of nine G. alkanivorans strains to degrade persistent organic pollutants and to analyze the genomic peculiarities of these strains. The genomes of nine Gordonia alkanivorans strains were sequenced and assembled. The utilization of these strains as alkane and benzoate degraders in environmental biotechnologies, coupled with their capacity to potentially produce diverse secondary metabolites, holds promising prospects for both environmental and pharmaceutical applications.

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Phthalate Esters Metabolic Strain Gordonia sp. GZ-YC7, a Potential Soil Degrader for High Concentration Di-(2-ethylhexyl) Phthalate

Cited by 14 publications

References 50 publications

Genomic, Phylogenetic and Physiological Characterization of the PAH-Degrading Strain Gordonia polyisoprenivorans 135

Genomic, Phylogenetic and Physiological Characterization of the PAH-Degrading Strain Gordonia polyisoprenivorans 135

Whole Genome Analysis and Assessment of the Metabolic Potential of Gordonia rubripertincta Strain 112, a Degrader of Aromatic and Aliphatic Compounds

Insights into the Potential Role of Gordonia alkanivorans Strains in Biotechnologies

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