Christopher Rensing
Christopher Rensing
Distinguished Professor Fujian Agriculture and Forestry University
Verified email at
Cited by
Cited by
Metallic copper as an antimicrobial surface
G Grass, C Rensing, M Solioz
Applied and environmental microbiology 77 (5), 1541-1547, 2011
Escherichia coli mechanisms of copper homeostasis in a changing environment
C Rensing, G Grass
FEMS microbiology reviews 27 (2-3), 197-213, 2003
Arsenic detoxification and evolution of trimethylarsine gas by a microbial arsenite S-adenosylmethionine methyltransferase
J Qin, BP Rosen, Y Zhang, G Wang, S Franke, C Rensing
Proceedings of the National Academy of Sciences 103 (7), 2075-2080, 2006
Metal homeostasis and resistance in bacteria
P Chandrangsu, C Rensing, JD Helmann
Nature Reviews Microbiology 15 (6), 338-350, 2017
CopA: An Escherichia coli Cu(I)-translocating P-type ATPase
C Rensing, B Fan, R Sharma, B Mitra, BP Rosen
Proceedings of the National Academy of Sciences 97 (2), 652-656, 2000
BacMet: antibacterial biocide and metal resistance genes database
C Pal, J Bengtsson-Palme, C Rensing, E Kristiansson, DGJ Larsson
Nucleic acids research 42 (D1), D737-D743, 2014
Molecular Analysis of the Copper-Transporting Efflux System CusCFBA of Escherichia coli
S Franke, G Grass, C Rensing, DH Nies
Journal of bacteriology 185 (13), 3804-3812, 2003
The zntA gene of Escherichia coli encodes a Zn(II)-translocating P-type ATPase
C Rensing, B Mitra, BP Rosen
Proceedings of the National Academy of Sciences 94 (26), 14326-14331, 1997
The Genome of Nectria haematococca: Contribution of Supernumerary Chromosomes to Gene Expansion
JJ Coleman, SD Rounsley, M Rodriguez-Carres, A Kuo, CC Wasmann, ...
PLoS genetics 5 (8), e1000618, 2009
Intracellular Copper Does Not Catalyze the Formation of Oxidative DNA Damage in Escherichia coli
L Macomber, C Rensing, JA Imlay
Journal of bacteriology 189 (5), 1616-1626, 2007
New approaches for bioaugmentation as a remediation technology
T Gentry, C Rensing, IAN Pepper
Critical reviews in environmental science and technology 34 (5), 447-494, 2004
CueO is a multi-copper oxidase that confers copper tolerance in Escherichia coli
G Grass, C Rensing
Biochemical and biophysical research communications 286 (5), 902-908, 2001
Crystal structure and electron transfer kinetics of CueO, a multicopper oxidase required for copper homeostasis in Escherichia coli
SA Roberts, A Weichsel, G Grass, K Thakali, JT Hazzard, G Tollin, ...
Proceedings of the National Academy of Sciences 99 (5), 2766-2771, 2002
Copper toxicity and the origin of bacterial resistance—new insights and applications
CL Dupont, G Grass, C Rensing
Metallomics 3 (11), 1109-1118, 2011
Families of soft-metal-ion-transporting ATPases
C Rensing, M Ghosh, BP Rosen
Journal of bacteriology 181 (19), 5891-5897, 1999
Genes involved in arsenic transformation and resistance associated with different levels of arsenic-contaminated soils
L Cai, G Liu, C Rensing, G Wang
BMC microbiology 9, 1-11, 2009
Metal resistance and its association with antibiotic resistance
C Pal, K Asiani, S Arya, C Rensing, DJ Stekel, DGJ Larsson, JL Hobman
Advances in microbial physiology 70, 261-313, 2017
Hyperthermophilic composting accelerates the removal of antibiotic resistance genes and mobile genetic elements in sewage sludge
H Liao, X Lu, C Rensing, VP Friman, S Geisen, Z Chen, Z Yu, Z Wei, ...
Environmental science & technology 52 (1), 266-276, 2018
Genes Involved in Copper Homeostasis inEscherichia coli
G Grass, C Rensing
Journal of bacteriology 183 (6), 2145-2147, 2001
Antimonite is accumulated by the glycerol facilitator GlpF in Escherichia coli
OI Sanders, C Rensing, M Kuroda, B Mitra, BP Rosen
Journal of bacteriology 179 (10), 3365-3367, 1997
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