Biodegradation of polystyrene by bacteria from the soil in common environments

Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear alkanes. In this study, we investigated the biodegradation of PS by mesophilic bacterial cultures obtained from various soils in common envi...

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Published inJournal of hazardous materials Vol. 416; p. 126239
Main Authors Kim, Hyeong-Woo, Jo, Jin Hui, Kim, Ye-Bin, Le, Thien-Kim, Cho, Chul-Woong, Yun, Chul-Ho, Chi, Won Seok, Yeom, Soo-Jin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.08.2021
Subjects
Acinetobacter johnsonii
Biodegradation
biofilm
bioinformatics
carbon
contact angle
Fourier transform infrared spectroscopy
hydrophilicity
Hydroxylation
Microorganism
oxidation
Polystyrene
polystyrenes
Pseudomonas lini
soil
transcription (genetics)
wastes
Biodegradation
Microorganism
Hydroxylation
Polystyrene
Online AccessGet full text
ISSN0304-3894
1873-3336
1873-3336
DOI10.1016/j.jhazmat.2021.126239

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Abstract Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear alkanes. In this study, we investigated the biodegradation of PS by mesophilic bacterial cultures obtained from various soils in common environments. Two new strains, Pseudomonas lini JNU01 and Acinetobacter johnsonii JNU01, were specifically enriched in non-carbonaceous nutrient medium, with PS as the only source of carbon. Their growth after culturing in basal media increased more than 3-fold in the presence of PS. Fourier transform infrared spectroscopy analysis, used to confirm the formation of hydroxyl groups and potentially additional chemical bond groups, showed an increase in the amount of oxidized PS samples. Moreover, field emission scanning electron microcopy analysis confirmed PS biodegradation by biofilms of the screened microbes. Water contact angle measurement additionally offered insights into the increased hydrophilic characteristics of PS films. Bioinformatics and transcriptional analysis of A. johnsonii JNU01 revealed alkane-1-monooxygenase (AlkB) to be involved in PS biodegradation, which was confirmed by the hydroxylation of PS using recombinant AlkB. These results provide significant insights into the discovery of novel functions of Pseudomonas sp. and Acinetobacter sp., as well as their potential as PS decomposers. [Display omitted] •The soil bacteria from common environments biologically degrades polystyrene (PS).•The bacteria species to decompose the PS are Acinetobacter and Pseudomonas.•The PS powder deformed by bacteria shows oxygen-rich chemical moieties such as a hydroxyl group.•The PS film deformed by bacteria exhibits a defective surface characteristic with a relative further hydrophilicity.•Bioinformatics indicates the bacteria includes alkane-1-monooxygenase (AlkB) that can deform the PS.
AbstractList Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear alkanes. In this study, we investigated the biodegradation of PS by mesophilic bacterial cultures obtained from various soils in common environments. Two new strains, Pseudomonas lini JNU01 and Acinetobacter johnsonii JNU01, were specifically enriched in non-carbonaceous nutrient medium, with PS as the only source of carbon. Their growth after culturing in basal media increased more than 3-fold in the presence of PS. Fourier transform infrared spectroscopy analysis, used to confirm the formation of hydroxyl groups and potentially additional chemical bond groups, showed an increase in the amount of oxidized PS samples. Moreover, field emission scanning electron microcopy analysis confirmed PS biodegradation by biofilms of the screened microbes. Water contact angle measurement additionally offered insights into the increased hydrophilic characteristics of PS films. Bioinformatics and transcriptional analysis of A. johnsonii JNU01 revealed alkane-1-monooxygenase (AlkB) to be involved in PS biodegradation, which was confirmed by the hydroxylation of PS using recombinant AlkB. These results provide significant insights into the discovery of novel functions of Pseudomonas sp. and Acinetobacter sp., as well as their potential as PS decomposers.
Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear alkanes. In this study, we investigated the biodegradation of PS by mesophilic bacterial cultures obtained from various soils in common environments. Two new strains, Pseudomonas lini JNU01 and Acinetobacter johnsonii JNU01, were specifically enriched in non-carbonaceous nutrient medium, with PS as the only source of carbon. Their growth after culturing in basal media increased more than 3-fold in the presence of PS. Fourier transform infrared spectroscopy analysis, used to confirm the formation of hydroxyl groups and potentially additional chemical bond groups, showed an increase in the amount of oxidized PS samples. Moreover, field emission scanning electron microcopy analysis confirmed PS biodegradation by biofilms of the screened microbes. Water contact angle measurement additionally offered insights into the increased hydrophilic characteristics of PS films. Bioinformatics and transcriptional analysis of A. johnsonii JNU01 revealed alkane-1-monooxygenase (AlkB) to be involved in PS biodegradation, which was confirmed by the hydroxylation of PS using recombinant AlkB. These results provide significant insights into the discovery of novel functions of Pseudomonas sp. and Acinetobacter sp., as well as their potential as PS decomposers.Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear alkanes. In this study, we investigated the biodegradation of PS by mesophilic bacterial cultures obtained from various soils in common environments. Two new strains, Pseudomonas lini JNU01 and Acinetobacter johnsonii JNU01, were specifically enriched in non-carbonaceous nutrient medium, with PS as the only source of carbon. Their growth after culturing in basal media increased more than 3-fold in the presence of PS. Fourier transform infrared spectroscopy analysis, used to confirm the formation of hydroxyl groups and potentially additional chemical bond groups, showed an increase in the amount of oxidized PS samples. Moreover, field emission scanning electron microcopy analysis confirmed PS biodegradation by biofilms of the screened microbes. Water contact angle measurement additionally offered insights into the increased hydrophilic characteristics of PS films. Bioinformatics and transcriptional analysis of A. johnsonii JNU01 revealed alkane-1-monooxygenase (AlkB) to be involved in PS biodegradation, which was confirmed by the hydroxylation of PS using recombinant AlkB. These results provide significant insights into the discovery of novel functions of Pseudomonas sp. and Acinetobacter sp., as well as their potential as PS decomposers.
Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear alkanes. In this study, we investigated the biodegradation of PS by mesophilic bacterial cultures obtained from various soils in common environments. Two new strains, Pseudomonas lini JNU01 and Acinetobacter johnsonii JNU01, were specifically enriched in non-carbonaceous nutrient medium, with PS as the only source of carbon. Their growth after culturing in basal media increased more than 3-fold in the presence of PS. Fourier transform infrared spectroscopy analysis, used to confirm the formation of hydroxyl groups and potentially additional chemical bond groups, showed an increase in the amount of oxidized PS samples. Moreover, field emission scanning electron microcopy analysis confirmed PS biodegradation by biofilms of the screened microbes. Water contact angle measurement additionally offered insights into the increased hydrophilic characteristics of PS films. Bioinformatics and transcriptional analysis of A. johnsonii JNU01 revealed alkane-1-monooxygenase (AlkB) to be involved in PS biodegradation, which was confirmed by the hydroxylation of PS using recombinant AlkB. These results provide significant insights into the discovery of novel functions of Pseudomonas sp. and Acinetobacter sp., as well as their potential as PS decomposers. [Display omitted] •The soil bacteria from common environments biologically degrades polystyrene (PS).•The bacteria species to decompose the PS are Acinetobacter and Pseudomonas.•The PS powder deformed by bacteria shows oxygen-rich chemical moieties such as a hydroxyl group.•The PS film deformed by bacteria exhibits a defective surface characteristic with a relative further hydrophilicity.•Bioinformatics indicates the bacteria includes alkane-1-monooxygenase (AlkB) that can deform the PS.
ArticleNumber 126239
Author Le, Thien-Kim
Cho, Chul-Woong
Jo, Jin Hui
Kim, Hyeong-Woo
Yun, Chul-Ho
Chi, Won Seok
Kim, Ye-Bin
Yeom, Soo-Jin
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  organization: School of Biological Sciences and Biotechnology, Graduate School, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
– sequence: 2
  givenname: Jin Hui
  surname: Jo
  fullname: Jo, Jin Hui
  organization: Department of Polymer Engineering, Graduate School, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
– sequence: 3
  givenname: Ye-Bin
  surname: Kim
  fullname: Kim, Ye-Bin
  organization: School of Biological Sciences and Biotechnology, Graduate School, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
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  givenname: Thien-Kim
  orcidid: 0000-0001-5239-4943
  surname: Le
  fullname: Le, Thien-Kim
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  fullname: Cho, Chul-Woong
  organization: Department of Bioenergy Science and Technology, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
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  givenname: Chul-Ho
  orcidid: 0000-0003-2685-2968
  surname: Yun
  fullname: Yun, Chul-Ho
  email: chyun@jnu.ac.kr
  organization: School of Biological Sciences and Biotechnology, Graduate School, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
– sequence: 7
  givenname: Won Seok
  surname: Chi
  fullname: Chi, Won Seok
  email: wschi@jnu.ac.kr
  organization: Department of Polymer Engineering, Graduate School, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
– sequence: 8
  givenname: Soo-Jin
  orcidid: 0000-0001-7307-237X
  surname: Yeom
  fullname: Yeom, Soo-Jin
  email: soojin258@jnu.ac.kr
  organization: School of Biological Sciences and Biotechnology, Graduate School, Chonnam National University, Yongbong-ro 77, Gwangju 61186, South Korea
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Snippet Polystyrene (PS), a major plastic waste, is difficult to biodegrade due to its unique chemical structure that comprises phenyl moieties attached to long linear...
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SubjectTerms Acinetobacter johnsonii
Biodegradation
biofilm
bioinformatics
carbon
contact angle
Fourier transform infrared spectroscopy
hydrophilicity
Hydroxylation
Microorganism
oxidation
Polystyrene
polystyrenes
Pseudomonas lini
soil
transcription (genetics)
wastes
Title Biodegradation of polystyrene by bacteria from the soil in common environments
URI https://dx.doi.org/10.1016/j.jhazmat.2021.126239
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