RISS 학술연구정보서비스

검색
다국어 입력

http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.

변환된 중국어를 복사하여 사용하시면 됩니다.

예시)
  • 中文 을 입력하시려면 zhongwen을 입력하시고 space를누르시면됩니다.
  • 北京 을 입력하시려면 beijing을 입력하시고 space를 누르시면 됩니다.
닫기
    인기검색어 순위 펼치기

    RISS 인기검색어

      SCIE SCOPUS KCI등재

      Bioaugmentation with GFP-Tagged Pseudomonas migulae AN-1 in Aniline-Contaminated Aquifer Microcosms: Cellular Responses, Survival and Effect on Indigenous Bacterial Community = Bioaugmentation with GFP-Tagged Pseudomonas migulae AN-1 in Aniline-Contaminated Aquifer Microcosms: Cellular Responses, Survival and Effect on Indigenous Bacterial Community

      한글로보기

      https://www.riss.kr/link?id=A101896848

      • 0

        상세조회
      • 0

        다운로드
      서지정보 열기
      • 내보내기
      • 내책장담기
      • 공유하기
      • 오류접수

      부가정보

      다국어 초록 (Multilingual Abstract)

      The recently isolated aniline-degrading bacterium Pseudomonas migulae AN-1 was tagged with green fluorescent protein (GFP) to investigate its bioaugmentation potential against anilinecontaminated groundwater through microcosm experiments. The survival and cellular response of GFP-tagged AN-1 introduced in a lab-scale aquifer corresponded directly with aniline consumption. During the process, the GFP-tagged AN-1 biomass increased from 7.52 × 105 cells/ml to 128 × 105 cells/ml and the degradation rate of aniline was 6.04 mg/l/h. GFP-tagged AN-1 was moderately hydrophobic (41.74%-47.69%) when treated with 20- 100 mg/l aniline and exhibited relatively strong hydrophobicity (55.25%-65.78%) when the concentration of aniline was ≥100 mg/l. The membrane permeability of AN-1 increased followed by a rise in aniline below 100 mg/l and was invariable with aniline above 100 mg/l. Pyrosequencing analysis showed that the relative abundance of Proteobacteria (accounted for 99.22% in the non-bioaugmentation samples) changed to 89.23% after bioaugmentation with GFP-tagged AN-1. Actinobacteria increased from 0.29% to 2.01%, whereas the abundance of Firmicutes barely changed. These combined findings demonstrate the feasibility of removing aniline in aquifers by introducing the strain AN-1 and provide valuable information on the changes in the diversity of dominant populations during bioaugmentation.
      번역하기

      The recently isolated aniline-degrading bacterium Pseudomonas migulae AN-1 was tagged with green fluorescent protein (GFP) to investigate its bioaugmentation potential against anilinecontaminated groundwater through microcosm experiments. The survival...

      The recently isolated aniline-degrading bacterium Pseudomonas migulae AN-1 was tagged with green fluorescent protein (GFP) to investigate its bioaugmentation potential against anilinecontaminated groundwater through microcosm experiments. The survival and cellular response of GFP-tagged AN-1 introduced in a lab-scale aquifer corresponded directly with aniline consumption. During the process, the GFP-tagged AN-1 biomass increased from 7.52 × 105 cells/ml to 128 × 105 cells/ml and the degradation rate of aniline was 6.04 mg/l/h. GFP-tagged AN-1 was moderately hydrophobic (41.74%-47.69%) when treated with 20- 100 mg/l aniline and exhibited relatively strong hydrophobicity (55.25%-65.78%) when the concentration of aniline was ≥100 mg/l. The membrane permeability of AN-1 increased followed by a rise in aniline below 100 mg/l and was invariable with aniline above 100 mg/l. Pyrosequencing analysis showed that the relative abundance of Proteobacteria (accounted for 99.22% in the non-bioaugmentation samples) changed to 89.23% after bioaugmentation with GFP-tagged AN-1. Actinobacteria increased from 0.29% to 2.01%, whereas the abundance of Firmicutes barely changed. These combined findings demonstrate the feasibility of removing aniline in aquifers by introducing the strain AN-1 and provide valuable information on the changes in the diversity of dominant populations during bioaugmentation.

      더보기

      참고문헌 (Reference)

      1 Huang J, "Triphenyltin biosorption, dephenylation pathway and cellular responses during triphenyltin biodegradation by Bacillus thuringiensis and tea saponin" 249 : 167-173, 2014

      2 Ye J, "Triphenyltin biodegradation and intracellular material release by Brevibacillus brevis" 105 : 62-67, 2014

      3 Björkman J, "The cost of antibiotic resistance from a bacterial perspective" 3 : 237-245, 2000

      4 Jeong S, "Survival of introduced phosphate-solubilizing bacteria (PSB) and their impact on microbial community structure during the phytoextraction of Cd-contaminated soil" 263 : 441-449, 2013

      5 Ahn YB, "Survival of a GFP-labeled polychlorinated biphenyl degrading psychrotolerant Pseudomonas spp. in 4 and 22°C soil microcosms" 42 : 614-623, 2001

      6 Xiong M, "Survival of GFP-tagged Rhodococcus sp. D310-1 in chlorimuron-ethylcontaminated soil and its effects on the indigenous microbial community" 252 : 347-354, 2013

      7 Farrell A, "Substrate-dependent autoaggregation of Pseudomonas putida CP1 during the degradation of monochlorophenols and phenol" 28 : 316-324, 2002

      8 Rosenberg K, "Soil amoebae rapidly change bacterial community composition in the rhizosphere of Arabidopsis thaliana" 3 : 675-684, 2009

      9 Schloss PD, "Reducing the effects of PCR amplification and sequencing artifacts on 16S rRNA-based studies" 6 : e27310-, 2011

      10 Yong YC, "Recent advances in biodegradation in China: new microorganisms and pathways, biodegradation engineering, and bioenergy from pollutant biodegradation" 45 : 1937-1943, 2010

      1 Huang J, "Triphenyltin biosorption, dephenylation pathway and cellular responses during triphenyltin biodegradation by Bacillus thuringiensis and tea saponin" 249 : 167-173, 2014

      2 Ye J, "Triphenyltin biodegradation and intracellular material release by Brevibacillus brevis" 105 : 62-67, 2014

      3 Björkman J, "The cost of antibiotic resistance from a bacterial perspective" 3 : 237-245, 2000

      4 Jeong S, "Survival of introduced phosphate-solubilizing bacteria (PSB) and their impact on microbial community structure during the phytoextraction of Cd-contaminated soil" 263 : 441-449, 2013

      5 Ahn YB, "Survival of a GFP-labeled polychlorinated biphenyl degrading psychrotolerant Pseudomonas spp. in 4 and 22°C soil microcosms" 42 : 614-623, 2001

      6 Xiong M, "Survival of GFP-tagged Rhodococcus sp. D310-1 in chlorimuron-ethylcontaminated soil and its effects on the indigenous microbial community" 252 : 347-354, 2013

      7 Farrell A, "Substrate-dependent autoaggregation of Pseudomonas putida CP1 during the degradation of monochlorophenols and phenol" 28 : 316-324, 2002

      8 Rosenberg K, "Soil amoebae rapidly change bacterial community composition in the rhizosphere of Arabidopsis thaliana" 3 : 675-684, 2009

      9 Schloss PD, "Reducing the effects of PCR amplification and sequencing artifacts on 16S rRNA-based studies" 6 : e27310-, 2011

      10 Yong YC, "Recent advances in biodegradation in China: new microorganisms and pathways, biodegradation engineering, and bioenergy from pollutant biodegradation" 45 : 1937-1943, 2010

      11 Slater FR, "Progress towards understanding the fate of plasmids in bacterial communities" 66 : 3-13, 2008

      12 Travis AS, "Poisoned groundwater and contaminated soil:the tribulations and trial of the first major manufacturer of aniline dyes in Basel" 2 : 343-365, 1997

      13 Diaz Ricci JC, "Plasmid effects on Escherichia coli metabolism" 20 : 79-108, 2000

      14 Karigar C, "Phenol degradation by immobilized cells of Arthrobacter citreus" 17 : 47-55, 2006

      15 Liu YB, "Low-temperature biodegradation of aniline by freely suspended and magnetic modified Pseudomonas migulae AN-1" 99 : 5317-5326, 2015

      16 Sun K, "Isolation, plant colonization potential, and phenanthrene degradation performance of the endophytic bacterium Pseudomonas sp. Ph6-gfp" 4 : 5462-, 2014

      17 Bastiaens L, "Isolation of adherent polycyclic aromatic hydrocarbon (PAH)-degrading bacteria using PAH-sorbing carriers" 66 : 1834-1843, 2000

      18 Liu Y, "Influence of extracellular polymeric substances on Pseudomonas aeruginosa transport and deposition profiles in porous media" 41 : 198-205, 2007

      19 Sun W, "Identification of anaerobic aniline-degrading bacteria at a contaminated industrial site" 49 : 11079-11088, 2015

      20 Zikmanis P, "Hydrophobicity of bacteria Zymomonas mobilis under varied environmental conditions" 42 : 745-750, 2007

      21 Ma L, "Green fluorescent protein labeling of Listeria, Salmonella, and Escherichia coli O157:H7for safety-related studies" 6 : 1-7, 2011

      22 Van Overbeek LS, "Fate and activity of microorganisms introduced into soil" 61 : 121-135, 1997

      23 Aksu Z, "Effect of salinity on metal-complex dye biosorption by Rhizopus arrhizus" 91 : 1546-1555, 2010

      24 Shi G, "Effect of cadmium ion on biodegradation of decabromodiphenyl ether (BDE-209) by Pseudomonas aeruginosa" 263 : 711-717, 2013

      25 Gao G, "Effect of biocontrol agent Pseudomonas fluorescens 2P24 on soil fungal community in cucumber rhizosphere using TRFLP and DGGE" 7 : e31806-, 2012

      26 Cunliffe M, "Effect of Sphingobium yanoikuyae B1 inoculation on bacterial community dynamics and polycyclic aromatic hydrocarbon degradation in aged and freshly PAH-contaminated soils" 144 : 228-237, 2006

      27 Wen Y, "Chemical–biological hybrid reactive zones and their impact on biodiversity of remediation of the nitrobenzene and aniline contaminated groundwater" 280 : 233-240, 2015

      28 Rozkov A, "Characterization of the metabolic burden on Escherichia coli DH1 cells imposed by the presence of a plasmid containing a gene therapy sequence" 88 : 909-915, 2004

      29 Kahng HY, "Characterization of strain HY99, a novel microorganism capable of aerobic and anaerobic degradation of aniline" 190 : 215-221, 2000

      30 Ghosh A, "Central composite design optimization and artificial neural network modeling of copper removal by chemically modified orange peel" 51 : 7791-7799, 2013

      31 Mattos-Guaraldi AL, "Cell surface hydrophobicity of sucrose fermenting and nonfermenting Corynebacterium diphtheriae strains evaluated by different methods" 38 : 37-42, 1999

      32 Gao J, "Biosorption and biodegradation of triphenyltin by Stenotrophomonas maltophilia and their influence on cellular metabolism" 276 : 112-119, 2014

      33 Wang L, "Biodegradation of pentyl amine and aniline from petrochemical wastewater" 83 : 191-197, 2007

      34 Zhang J, "Biodegradation of p-nitrophenol by Rhodococcus sp. CN6with high cell surface hydrophobicity" 163 : 723-728, 2009

      35 Wang P, "Biodegradation of mixed phenolic compounds under high salt conditions and salinity fluctuations by Arthrobacter sp. W1" 159 : 623-633, 2009

      36 Jin Q, "Biodegradation of aniline in an alkaline environment by a novel strain of the halophilic bacterium, Dietzia natronolimnaea JQ-AN" 117 : 148-154, 2012

      37 Mohan SV, "Bioaugmentation of microbial communities in laboratory and pilot scale sequencing batch biofilm reactors using the TOL plasmid" 100 : 1746-1753, 2009

      38 Tyagi M, "Bioaugmentation and biostimulation strategies to improve the effectiveness of bioremediation processes" 22 : 231-241, 2011

      39 Liu S, "Advanced treatment of refractory organic pollutants in petrochemical industrial wastewater by bioactive enhanced ponds and wetland system" 23 : 689-698, 2014

      40 Wu GQ, "Adsorptive removal of aniline from aqueous solution by oxygen plasma irradiated bamboo based activated carbon" 185 : 201-210, 2012

      41 Rosenberg M, "Adherence of bacteria to hydrocarbons: a simple method for measuring cell-surface hydrophobicity" 9 : 29-33, 1980

      42 Liang B, "Accelerated reduction of chlorinated nitroaromatic antibiotic chloramphenicol by biocathode" 47 : 5353-5361, 2013

      43 Seoane J, "A new extant respirometric assay to estimate intrinsic growth parameters applied to study plasmid metabolic burden" 105 : 141-149, 2010

      44 Karthikeyan S, "A new approach for the degradation of high concentration of aromatic amine by heterocatalytic Fenton oxidation: kinetic and spectroscopic studies" 173 : 153-163, 2012

      더보기

      동일학술지(권/호) 다른 논문

      동일학술지 더보기

      더보기

      분석정보

      View

      상세정보조회

      0

      Usage

      원문다운로드

      0

      대출신청

      0

      복사신청

      0

      EDDS신청

      0

      동일 주제 내 활용도 TOP

      더보기

      주제

      연도별 연구동향

      연도별 활용동향

      연관논문

      연구자 네트워크맵

      공동연구자 (7)

      유사연구자 (20) 활용도상위20명

      인용정보 인용지수 설명보기

      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2010-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2008-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-04-04 학술지명변경 한글명 : -> Journal of Microbiology and Biotechnology KCI등재
      2006-03-30 학술지등록 한글명 :
      외국어명 : Journal of Microbiology and Biotechnology
      KCI등재
      2006-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2004-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2001-07-01 평가 등재학술지 선정 (등재후보2차) KCI등재
      1999-01-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
      더보기

      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 1.59 0.33 1.17
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.91 0.78 0.472 0.08
      더보기

      이 자료와 함께 이용한 RISS 자료

      나만을 위한 추천자료

      해외이동버튼