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- Nachgewiesen in: MEDLINE
- Sprachen: English
- Publication Type: Journal Article
- Language: English
- [J Basic Microbiol] 2021 Mar; Vol. 61 (3), pp. 230-240. <i>Date of Electronic Publication: </i>2021 Jan 25.
- MeSH Terms: Acinetobacter calcoaceticus / *drug effects ; Acinetobacter calcoaceticus / *genetics ; Anti-Bacterial Agents / *pharmacology ; Drug Resistance, Multiple, Bacterial / *genetics ; Metals, Heavy / *toxicity ; Sewage / *microbiology ; Acinetobacter calcoaceticus / isolation & purification ; Metals, Heavy / analysis ; Microbial Sensitivity Tests ; Sewage / chemistry ; Water Purification / methods
- References: Masindi V, Muedi KL. Environmental contamination by heavy metals. In: Saleh HM, Aglan RF, editors. Heavy metals. IntechOpen; 2018. p. 115-32. ; Jaishankar M, Tseten T, Anbalagan N, Mathew BB, Beeregowda KN. Toxicity mechanism and health effects of some heavy metals. Interdiscipl Toxicol. 2014;7:60-72. ; Tchounwou PB, Yedjou CG, Patlolla AK, Sutton DJ. Heavy metal toxicity and the environment. In: Luch A Editor. Molecular, clinical and environental toxicology. Basel: Springer; 2012. p. 133-64. ; Sajjad W, Zheng G, Zhang G, Ma X, Xu W, Ali B, et al. Diversity of prokaryotic communities indigenous to acid mine drainage and related rocks from Baiyin Open-Pit Copper Mine Stope, China. Geomicrobiol J. 2018;35:580-600. ; Zhang Y, Gu AZ, Cen T, Li X, He M, Li D, et al. Sub-inhibitory concentrations of heavy metals facilitate the horizontal transfer of plasmid-mediated antibiotic resistance genes in water environment. Environ Pollut. 2018;237:74-82. ; Martins AF, Rabinowitz P. The impact of antimicrobial resistance in the environment on public health. Future Microbiol. 2020;15(9):699-702. https://doi.org/10.2217/fmb-2019-0331. ; Singer AC, Shaw H, Rhodes V, Hart A. Review of antimicrobial resistance in the environment and its relevance to environmental regulators. Front Microbiol. 2016;1:1728. ; Zhao X, Shen JP, Zhang LM, Du S, Hu HW, He JZ. Arsenic and cadmium as predominant factors shaping the distribution patterns of antibiotic resistance genes in polluted paddy soils. J Hazard Mater. 2020;389:121838. ; Perron K, Caille O, Rossier C, van Delden C, Dumas JL, Kohler T. CzcR-CzcS, a two-component system involved in heavy metal and carbapenem resistance in Pseudomonas aeruginosa. J Biol Chem. 2004;279:8761-8. ; Cavaco LM, Hasman H, Stegger M, Andersen PS, Skov R, Fluit AC, et al. Cloning and occurrence of czrC, a gene conferring cadmium and zinc resistance in methicillin-resistant Staphylococcus aureus CC398 isolates. Antimicrob Agents Chem. 2010;54:3605-8. ; Pal C, Asiani K, Arya S, Rensing C, Stekel DJ, Larsson DGJ, et al. Metal resistance and its association with antibiotic resistance. Adv Microb Physiol. 2017;70:261-313. ; Harris SJ, Cormican M, Cummins E. Antimicrobial residues and antimicrobial-resistant bacteria: impact on the microbial environment and risk to human health-A review. Hum Ecol Risk Assess. 2012;18:767-809. ; Bengtsson-Palme J, Kristiansson E, Larsson DJ. Environmental factors influencing the development and spread of antibiotic resistance. FEMS Microbiol Rev. 2018;42:fux053. ; Khan SA, Rehman TAU, Nasir TA, Aftab S, Hafeez A. Assessment of waste water treatment plant efficiency through physico-chemical analysis: A case study of I-9 waste water treatment plant, Islamabad, Pakistan. Int J Econ Environ Geol. 2017;8:16-20. ; Carter MR, Gregorich EG. Soil sampling and methods of analysis. 2nd ed. Boca Raton, FL: CRC Press; 2007. ; Johnson AI. Methods of measuring soil moisture in the field: Geological Survey Water-Supply Paper 1619-U. US Department of the Interior. 1962. ; Din G, Hassan A, Rafiq M, Hasan F, Badshah M, Khan S, et al. Characterization of organic acid producing Aspergillus tubingensis FMS1 and its role in metals leaching from soil. Geomicrobiol J. 2020;37:336-44. ; Abo-Amer AE, El-Shanshoury AE, Alzahrani OM. Isolation and molecular characterization of heavy metal-resistant Alcaligenes faecalis from sewage wastewater and synthesis of silver nanoparticles. Geomicrobiol J. 2015;32:836-45. ; Muyzer G, de Waal EC, Uitterlinden AG. Profiling of complex microbial populations by denaturing gradient gel electrophoresis analysis of polymerase chain reaction-amplified genes coding for 16S rRNA. Appl Environ Microbiol. 1993;59:695-700. ; Kumar S, Stecher G, Li M, Knyaz C, Tamura KMEGA. X: molecular evolutionary genetics analysis across computing platforms. Mol Biol Evol. 2018;35:1547-9. ; Hudzicki J. Kirby-Bauer disk diffusion susceptibility test protocol. ASM Science. 2009. ; Clinical and Laboratory Standards Institute Performance standards for antimicrobial susceptibility testing: 29th informational supplement. 2019. ; Izrael-Živković L, Rikalović M, Gojgić-Cvijović G, Kazazić S, Vrvić M, Brčeski I, et al. Cadmium specific proteomic responses of a highly resistant Pseudomonas aeruginosa san ai. RSC Adv. 2018;8:10549-60. ; Chovanova K, Sladekova D, Kmet V, Proksova M, Harichova J, Puskarova A, et al. Identification and characterization of eight cadmium resistant bacterial isolates from a cadmium-contaminated sewage sludge. Biologia. 2004;59:817-27. ; Ali H, Khan E, Ilahi I. Environmental chemistry and ecotoxicology of hazardous heavy metals: environmental persistence, toxicity, and bioaccumulation. J Chem. 2019;2019:6730305. ; Azarbad H, Niklińska M, Laskowski R, van Straalen NM, van Gestel CAM, Zhou J, et al. Microbial community composition and functions are resilient to metal pollution along two forest soil gradients. FEMS Microbiol Ecol. 2015;91:1-11. ; Bourceret A, Cébron A, Tisserant E, Poupin P, Bauda P, Beguiristain T, et al. The bacterial and fungal diversity of an aged PAH-and heavy metal-contaminated soil is affected by plant cover and edaphic parameters. Microbial Ecol. 2016;71:711-24. ; Chen J, Li J, Zhang H, Shi W, Liu Y. Bacterial heavy-metal and antibiotic resistance genes in a copper Tailing Dam Area in Northern China. Front Microbiol. 2019;10:1916. ; Furlan JP, de Almeida OG, de Martinis EC, Stehling EG. Characterization of an environmental multidrug-resistant Acinetobacter seifertii and comparative genomic analysis reveals co-occurrence of antimicrobial resistance and metal tolerance determinants. Front Microbiol. 2019;10:2151. ; Chen Y, Jiang Y, Huang H, Mou L, Ru J, Zhao J, et al. Long-term and high-concentration heavy-metal contamination strongly influences the microbiome and functional genes in Yellow River sediments. Sci Total Environ. 2018;637:1400-12. ; Sajjad W, Zheng G, Ma X, Rafiq M, Irfan M, Xu W, et al. Culture-dependent hunt and characterization of iron-oxidizing bacteria in Baiyin Copper Mine, China, and their application in metals extraction. J Basic Microbiol. 2019;59:323-36. ; Villegas MV, Hartstein AI. Acinetobacter outbreaks, 1977-2000. Infect Control Hosp Epidemiol. 2003;24:284-95. ; Garhwal D, Vaghela G, Panwala T, Revdiwala S, Shah A, Mulla S. Lead tolerance capacity of clinical bacterial isolates and change in their antibiotic susceptibility pattern after exposure to a heavy metal. Int J Med Public Health. 2014;4:253-6. ; Gillings MR, Gaze WH, Pruden A, Smalla K, Tiedje JM, Zhu YG. Using the class 1 integron-integrase gene as a proxy for anthropogenic pollution. ISME J. 2015;9:1269-79. ; Nguyen CC, Hugie CN, Kile ML, Navab-Daneshmand T. Association between heavy metals and antibiotic-resistant human pathogens in environmental reservoirs: a review. Front Environ Sci Eng. 2019;13:46. ; Pal C, Bengtsson-Palme J, Kristiansson E, Larsson DJ. Co-occurrence of resistance genes to antibiotics, biocides and metals reveals novel insights into their co-selection potential. BMC Genomics. 2015;16:964. ; Kaur UJ, Preet S, Rishi P. Augmented antibiotic resistance associated with cadmium induced alterations in Salmonella enterica serovar Typhi. Sci Rep. 2018;8:12818. ; Scherer J, Nies DH. CzcP is a novel efflux system contributing to transition metal resistance in Cupriavidus metallidurans CH34. Mol Microbiol. 2009;73:601-21. ; Ferianc P, Farewell A. The cadmium-stress stimulon of Escherichia coli K-12. Microbiology. 1998;144:1045-50. ; Knapp CW, Callan AC, Aitken B, Shearn R, Koenders A, Hinwood A. Relationship between antibiotic resistance genes and metals in residential soil samples from Western Australia. Environ Sci Pollut Res. 2017;24:2484-94. ; Ceylan O, Ugur A. Bio-monitoring of heavy metal resistance in Pseudomonas and Pseudomonas related genus. J Biol Environ Sci. 2012;6:233-42. ; Yamina B, Tahar B, Lila M, Hocine H, Laure FM. Study on cadmium resistant-bacteria isolated from hospital wastewaters. Adv Biosci Biotechnol. 2014;5:718-25. ; Sajjad W, Rafiq M, Din G, Hasan F, Iqbal A, Zada S, et al. Resurrection of inactive microbes and resistome present in the natural frozen world: reality or myth? Sci Total Environ. 2020;735:139275. ; Novo A, Andre S, Viana P, Nunes OC, Manaia CM. Antibiotic resistance, antimicrobial residues and bacterial community composition in urban wastewater. Water Res. 2013;47:1875-87.
- Grant Information: Higher Education Commission, Pakistan
- Contributed Indexing: Keywords: Acinetobacter calcoaceticus; antibiotic coresistance; cadmium; heavy metals; sewage
- Substance Nomenclature: 0 (Anti-Bacterial Agents) ; 0 (Metals, Heavy) ; 0 (Sewage)
- Entry Date(s): Date Created: 20210125 Date Completed: 20211103 Latest Revision: 20211103
- Update Code: 20240513
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