@incollection{, 9F76D835409658674E280F41696BDFB2 , author={{MagalSaphier} and {BarSabag} and {GalShraga} and {Semion Entus} and {VictorChirovov} and {StanislavPopov}}, journal={{Global Journal of Medical Research}}, journal={{GJMR}}2249-46180975-588810.34257/GJMR, address={Cambridge, United States}, publisher={Global Journals Organisation}2211321 } @incollection{b0, , title={{Prevalence of Monovalent Copper Over Divalent in Killing Escherichia coli and Staphylococcus aureus}} , author={{ MagalSaphier } and { EldadSilberstein } and { YoramShotland } and { StanislavPopov } and { Oshrasaphier }} 10.1007/s00284-017-1398-4 , journal={{Current Microbiology}} , year={2017} } @incollection{b1, , title={{Factors Enhancing the Antibacterial Efect of Monovalent Copper Ions}} , author={{ StanislavPopov } and { OshraSaphier } and { MaryPopov } and { MarinaShenker }} 10.1007/s00284-019-01794-6 , journal={{Current Microbiology}} , year={December 2019. 2019} , note={Semion Entus, Yoram Shotland and Magal Saphier} } @book{b2, , title={{PCT WO2018104937 TOPICAL ANTIMICROBIAL FORMULATIONS CONTAINING MONOVALENT COPPER IONS AND SYSTEMS FOR GENERATING MONOVALENT COPPER IONS}} , year={2019} } @incollection{b3, , title={{Monovalent Copper and Silver Ions Block DNA Polymerase Chain Reaction}} , author={{ OshraSaphier } and { LeaMoshkovich } and { StanislavPopov } and { YoramsHotland } and { EldadSilberstein } and { MagalSaphier }} 10.21203/rs.3.rs-543661/v1 , journal={{MOLECULAR BIOLOGY REPORTS}} 2021 , note={Under révision} } @incollection{b4, , title={{Metallic copper as an antimicrobial surface}} , author={{ GGrass } and { CRensing } and { MSolioz }} , journal={{Appl Environ Microbiol}} 77 5 , year={2011} } @incollection{b5, , title={{Putting copper into action: copper-impregnated products with potent biocidal activities}} , author={{ GBorkow } and { Gabbayj }} 10.1096/fj.04-2029fje , journal={{FASEB J}} 18 , year={2004} } @incollection{b6, , title={{an ancient remedy returning to fight microbial, fungal and viral infections}} , author={{ GBorkow } and { JGabbay } and { Copper }} , journal={{CurrChem Biol}} 3 3 , year={102174/187231309789054887, 2009} } @incollection{b7, , title={{Use of copper cast alloys to control Escherichia coliO157 crosscontamination during food processing}} , author={{ JONoyce } and { HMichels }} 1128/ AEM.02532-05 , journal={{Appl. Environ. Microbiol}} 72 , year={2006} } @incollection{b8, , title={{Role of copper in reducing hospital environment contamination}} , author={{ ALCasey } and { DAdams } and { TJKarpanen } and { PALambert } and { BDCookson } and { PNightingale } and { LMiruszenko } and { RShillam } and { PChristian } and { ElliottTs }} 10.1016/j.jhin.2009.08.018 , journal={{J. Hosp. Infect}} 74 , year={2010} } @book{b9, , author={{ PMCoates }} , title={{Encyclopedia of Dietary Supplements, Marcel Dekker}} , year={2005} } @incollection{b10, , title={{Mechanisms of contact-mediated killing of yeast cells on dry metallic copper surfaces}} , author={{ DQuaranta } and { TKrans } and { CESanto }} 10.1128/AEM.01704-10 , journal={{Appl Environ Microbiol}} 77 2 , year={2011} } @incollection{b11, , title={{Antimicrobial metallic copper surfaces kill Staphylococcus haemolyticus via membrane damage}} , author={{ CESanto } and { DQuaranta } and { GGrass }} 10.1002/mbo3.2.2012U , journal={{Microbiology open}} 1 1 } @book{b12, , title={{Escherichia coli mechanisms of copper homeostasis in a changing environment}} , author={{ CRensing } and { G ; FemsGrass } and { Microbiolrev }} 12829268 , year={2003} } @incollection{b13, , title={{Molecular basis of active copper resistance mechanisms in Gram-negative bacteria}} , author={{ KBondarczuk } and { ZPiotrowska-Seget }} 10.1007/s10565-013-9262-1.2013 , journal={{Cell Biology and Toxicology}} } @incollection{b14, , title={{Concentrations of copper thought to be toxic to Escherichia coli can induce the viable but nonculturable condition}} , author={{ BGrey } and { TRSteck }} 10.1128/AEM.67.11 , journal={{Applied and Environmental Microbiology}} , year={2001. 2001} } @book{b15, , title={{Copper toxicity: evidence for the conversion of cupric to cuprous copper in vivo under anaerobic conditions}} , author={{ PHBeswick } and { GHHall } and { AJHook } and { KLittle } and { DC HMcbrien } and { KA }} , year={1976} , address={Lott} } @incollection{b16, , title={{Anaerobic killing of oral streptococci by reduced, transition metal cations}} , author={{ JCDunning } and { YMa } and { REMarquis }} 9435058 , booktitle={{Mechanisms of Mutagenesis}} , year={1998. 2012} 733 } @incollection{b17, , title={{Impact of copper on the induction and repair of oxidative DNA damage}} , author={{ TanjaSchwerdtle } and { GunnarIngrithamann } and { IngoJahnke } and { ConstanzeWalter } and { JasonLRichter } and { Parsons } and { LGrigory } and { AndreaDianov } and { Hartwig }} , journal={{Molecular Nutrition and Food Research}} 51 2 , year={2007} } @book{b18, , title={{Intracellular Copper Does Not Catalyze the Formation of Oxidative DNA Damage in Escherichia coli}} , author={{ LeeMacomber } and { ChristopherRensing } and { JamesAImlay }} 10.1128/JB.01357-06 , year={2007} , publisher={American Society for Microbiology Journals} } @book{b19, , title={{The iron-sulfur clusters of dehydratases are primary intracellular targets of copper toxicity}} , author={{ LeeMacomber } and { JamesAImlay }} 10.1128/JB.01357-06 , year={2009} , publisher={PNAS} } @incollection{b20, , title={{Copper stress in Staphylococcus aureus leads to adaptive changes in central carbon metabolism}} , author={{ EmmaTarrant } and { GustavoPRiboldi } and { MatthewRMcilvin } and { JackStevenson } and { AnnaBarwinska-Sendra } and { LouisaJStewart } and { AMak } and { KevinJSaito } and { Waldron }} 10.1039/c8mt00239h , journal={{Metallomics The Royal Society of Chemistry}} , year={2018} } @book{b21, , title={{Copper ions in acetonitrile}} , author={{ AJParker }} , year={1973} 426 } @incollection{b22, , title={{Singh P Electrochemistry of copper in aqueous acetonitrile}} , author={{ AJParker } and { IDMacleod }} .org/10.1007/BF00649487 , journal={{J SolutChem}} 10 11 , year={1981} } @incollection{b23, , title={{Complexes of copper (I) with aromatic compounds in aqueous solutions}} , author={{ MSaphier } and { ABurg } and { SSheps } and { HCohen } and { DMeyerstein }} , journal={{J ChemSoc Dalton Trans}} 11 , year={1999} } @incollection{b24, , author={{ ADome´nech }} org/10.1016/S0020-1693(99)00506-X. , booktitle={{Electrochemistry of copper complexes with polyaza[n] paracyclophanes. Influence of ATP as an exogen ligand on the relative stability of the Cu(II) and Cu(I) oxidation states}} , year={2000} 299 } @book{b25, , author={{ AnaMesica } and { IsraelZilbermann } and { MagalSaphier } and { GuyYardeni } and { EricMaimon } and { DanMeyerstein }} , title={{The Redox Aqueous Chemistry of CuII/I ATP}} , publisher={Israel Chemical Society} , year={2016} , note={The 83 rd Annual Meeting of the} } @book{b26, , title={{Brock biology of microorganisms}} , author={{ ThomasDBrock }} , year={2014} , note={14 ed.} } @book{b27, , title={{Manual of antimicrobial susceptibility testing}} , author={{ SJCavalieri }} , year={2015} , publisher={American Society for Microbiology} 1555813496 } @book{b28, , title={{Stability testing of new drug substances and products Q1A (R2), ICH Expert Working Group}} , year={2003} } @book{b29, , title={{National Primary Drinking Water Regulations, Ground Water and Drinking Water}} , author={{ OmerNayla Hassan }} 10.5772/intechopen.89657 , year={2019. 2019} 32 , note={EPA. 2019-09-17} , note={Water Quality Parameters} }