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A New Technic; Efficacy of Nano-Silver Coating of Honey Bee Hives Against Some Microorganisms

Year 2012, Volume: 12 Issue: 1, 23 - 30, 28.02.2012

Abstract

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References

  • Batarseh, K.I. 2004. Anomaly and correlation of killing in the therapeutic properties of silver (I): chelation with glutamic and tartaric acids, Journal of Antimicrobial Chemotherapy, 54: 546–548.
  • Berger, T.J., Spadaro, J.A., Chansin, S.E., Becker, R.O. 1996. Electrically generated silver ions: quantitive effects on bacterial and mammalian cells. Antimicrobial Agents and Chemotherapy, 9(2); 357-358.
  • Bragg, P.D., Rannie, D.J. 1974. The effect of silver ions on the respiratory chain of E. Coli. Cana- dian Journal of Microbiology, 20: 883-889.
  • Dolaş, E., Güllü, G., Menteşe, S. 2011. İç ortam hava iyonları içeren OVC malzemelerin antimikro- biyal etkisinin belirlenmesi. X. Ulusal Tesisat Mühendisliği Kongresi, 13-16 Nisan 2011, İzmir. gümüş
  • Feng, Q.L., Wu, J., Chen, G.Q., Cui, F.Z., Kim, T.N., Kim, J.O. 2000. A mechanistic study of the an- tibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus, Journal of Biomedical Materials Research, 52(4); 662- 668.
  • Gregorc, A., Bowen, I.D. 1998. Histopathological and histochemical and changes in honeybee larvae (Apis mellifera L.) after infection with Bacillus larvae, the causative agent of ameri- can foulbrood disease, Cell Biology Interna- tional, 22(2); 137–144.
  • Ip, M., Lui, S.L., Poon, V.K.M., Lung, I., Burd, A. 2006. Antimicrobial activities of silver dress- ings: an in vitro comparison, Journal of Medi- cal Microbiology, 55(1), 59–63.
  • Kawashita, M., Tsuneyama, S., Miyaji, F., Kokubo, T., Kozuka, H., Yamamoto, K. 2000. Antibac- terial silver-containing silica glass prepared by sol-gel method, Biomaterials, 21(4); 393-398.
  • Kim, T.N., Feng, Q.L., Kim, J.O., Wu, J., Wang, H., Chen, G.C., Cui, F.Z. 1998. Antimicrobial ef- fects of metal ions (Ag+, Cu2+, Zn2+) in hydrox- yapatite,Journal of Materials Science: Mate- rials in Medicine, 9; 129-134.
  • Kim, J.S., Eunye, K., Kyeong, N.Y., Sung, J.P., Hu, J.L., So, H.K., Young, K.P., Yong, H.P., Cheol- Yong, H., Yong-Kwon, K., Yoon, S.L., Dae, H.J., Myung, H.C. 2007. Experimental antimi- crobial effects of silver nanoparticles, Nano- medicine: Nanotechnology, Biology and Medi- cine, 3: 95–101.
  • Ki-Young, Y., Jeong, H.B., Jae-Hong, P., Jungho, H. 2007. Susceptibility constants of Escherichia coli and Bacillus subtilis to silver and copper nanoparticles, Science of the Total Environ- ment 373: 572–575.
  • Matsumura, Y., Yoshikata, K., Kunisaki, S., Tsuchido, T. 2003. Mode of bactericidal action of silver zeolite and its comparison with that of silver nitrate, Applied and Environmental Mi- crobiology, 69(7); 4278-4281.
  • Panaćěk, A., Kvitek, L., Prucek R., Kolar, M., Vece- rova, R., Pizurova, N., Sharma, V.K., Nevecna, T., Zboril, R. 2006. Silver colloid nanoparticles: synthesis, characterization and their antibac- terial activity. Journal of Physical Chemical B, 110: 16248-16253.
  • Richards, R.M.E., Taylor, R.B., Xing, D.K.L. 1984. Effect of silver on whole cells and spheroplasts of a silver resistant Pseudomonas aeruginosa, Microbios, 39: 151 - 158.
  • Russell, A.D., Hugo, W.B. 1994. Antimicrobial activ- ity and action of silver, Progress in Medicinal Chemistry, 31: 351-371.
  • Sondi, I., Salopek-Sondi, B. 2004. Silver nanopar- ticles as antimicrobial agent: a case study on E. coli as a model for gram-negative bacteria, Journal of Colloid and Interface Science, 275: 177–182.
  • Spacciapoli, P., Buxton, D., Rothstein, D., Friden, P. 2001. Antimicrobial activity of silver nitrate against periodontal pathogens, Journal of Pe- riodontical Research; 36: 108-113.
  • Sürengil, G., Kılınç, B. 2011. Gıda-ambalaj sektö- ründe nanoteknolojik uygulamalar ve su ürün- leri açısından önemi, Journal of Fisheries Sciences, 5(4); 317-325.
  • Thurmann, R.B., Gerba, C.P. 1989. The molecular mechanisms of copper and silver ion disinfec- tion of bacteria and viruses, Critical Reviews in Environmental Control, 18: 295-315.
  • Üreyen, M.E., Çavdar, A., Koparalı, S.A., Doğan, A. geliştirilen antimikrobiyal tekstil kimyasalı ve bu kimyasal ile işlem görmüş kumaşların antibakteriyel per- formansları. The Journal of Textiles and Engineer, 69: 25-31. gümüş katkılı
  • Wells, T.N.C., Scully, P., Paravicini, G., Proudfoot, A.E.I., Payton, M.A. 1995. Mechanism of irre- versible inactivation of phosphomannose iso- merases by silver ions and flamazine, Bio- chemistry, 34(24); 896 - 903.
  • Wesley, J.A. 2009. History of the medical use of silver, Surgical Infections, 10(3); 289-292.

Yeni Bir Teknik; Bal Arısı Kovanlarında Nano-gümüş Kaplamanın Bazı Mikroorganizmalara Karşı Etkinliği

Year 2012, Volume: 12 Issue: 1, 23 - 30, 28.02.2012

Abstract

Bu çalışmada 100 ppm nano-gümüş solüsyonun laboratuar koşullarında (in vitro) Escherichia coli, Staphylococcus aureus, Salmonella typhimurium, Enterecoccus faecalis, Bacillus cereus, Candida albicans ve Aspergillus niger üzerindeki antibakteriyel ve antifungal etkinliği belirlenmiş ve 100 ppm gümüş solüsyonunun mikroorganizmaları 2-10 dakikalık süreler içinde inhibe ettiği saptanmıştır

References

  • Batarseh, K.I. 2004. Anomaly and correlation of killing in the therapeutic properties of silver (I): chelation with glutamic and tartaric acids, Journal of Antimicrobial Chemotherapy, 54: 546–548.
  • Berger, T.J., Spadaro, J.A., Chansin, S.E., Becker, R.O. 1996. Electrically generated silver ions: quantitive effects on bacterial and mammalian cells. Antimicrobial Agents and Chemotherapy, 9(2); 357-358.
  • Bragg, P.D., Rannie, D.J. 1974. The effect of silver ions on the respiratory chain of E. Coli. Cana- dian Journal of Microbiology, 20: 883-889.
  • Dolaş, E., Güllü, G., Menteşe, S. 2011. İç ortam hava iyonları içeren OVC malzemelerin antimikro- biyal etkisinin belirlenmesi. X. Ulusal Tesisat Mühendisliği Kongresi, 13-16 Nisan 2011, İzmir. gümüş
  • Feng, Q.L., Wu, J., Chen, G.Q., Cui, F.Z., Kim, T.N., Kim, J.O. 2000. A mechanistic study of the an- tibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus, Journal of Biomedical Materials Research, 52(4); 662- 668.
  • Gregorc, A., Bowen, I.D. 1998. Histopathological and histochemical and changes in honeybee larvae (Apis mellifera L.) after infection with Bacillus larvae, the causative agent of ameri- can foulbrood disease, Cell Biology Interna- tional, 22(2); 137–144.
  • Ip, M., Lui, S.L., Poon, V.K.M., Lung, I., Burd, A. 2006. Antimicrobial activities of silver dress- ings: an in vitro comparison, Journal of Medi- cal Microbiology, 55(1), 59–63.
  • Kawashita, M., Tsuneyama, S., Miyaji, F., Kokubo, T., Kozuka, H., Yamamoto, K. 2000. Antibac- terial silver-containing silica glass prepared by sol-gel method, Biomaterials, 21(4); 393-398.
  • Kim, T.N., Feng, Q.L., Kim, J.O., Wu, J., Wang, H., Chen, G.C., Cui, F.Z. 1998. Antimicrobial ef- fects of metal ions (Ag+, Cu2+, Zn2+) in hydrox- yapatite,Journal of Materials Science: Mate- rials in Medicine, 9; 129-134.
  • Kim, J.S., Eunye, K., Kyeong, N.Y., Sung, J.P., Hu, J.L., So, H.K., Young, K.P., Yong, H.P., Cheol- Yong, H., Yong-Kwon, K., Yoon, S.L., Dae, H.J., Myung, H.C. 2007. Experimental antimi- crobial effects of silver nanoparticles, Nano- medicine: Nanotechnology, Biology and Medi- cine, 3: 95–101.
  • Ki-Young, Y., Jeong, H.B., Jae-Hong, P., Jungho, H. 2007. Susceptibility constants of Escherichia coli and Bacillus subtilis to silver and copper nanoparticles, Science of the Total Environ- ment 373: 572–575.
  • Matsumura, Y., Yoshikata, K., Kunisaki, S., Tsuchido, T. 2003. Mode of bactericidal action of silver zeolite and its comparison with that of silver nitrate, Applied and Environmental Mi- crobiology, 69(7); 4278-4281.
  • Panaćěk, A., Kvitek, L., Prucek R., Kolar, M., Vece- rova, R., Pizurova, N., Sharma, V.K., Nevecna, T., Zboril, R. 2006. Silver colloid nanoparticles: synthesis, characterization and their antibac- terial activity. Journal of Physical Chemical B, 110: 16248-16253.
  • Richards, R.M.E., Taylor, R.B., Xing, D.K.L. 1984. Effect of silver on whole cells and spheroplasts of a silver resistant Pseudomonas aeruginosa, Microbios, 39: 151 - 158.
  • Russell, A.D., Hugo, W.B. 1994. Antimicrobial activ- ity and action of silver, Progress in Medicinal Chemistry, 31: 351-371.
  • Sondi, I., Salopek-Sondi, B. 2004. Silver nanopar- ticles as antimicrobial agent: a case study on E. coli as a model for gram-negative bacteria, Journal of Colloid and Interface Science, 275: 177–182.
  • Spacciapoli, P., Buxton, D., Rothstein, D., Friden, P. 2001. Antimicrobial activity of silver nitrate against periodontal pathogens, Journal of Pe- riodontical Research; 36: 108-113.
  • Sürengil, G., Kılınç, B. 2011. Gıda-ambalaj sektö- ründe nanoteknolojik uygulamalar ve su ürün- leri açısından önemi, Journal of Fisheries Sciences, 5(4); 317-325.
  • Thurmann, R.B., Gerba, C.P. 1989. The molecular mechanisms of copper and silver ion disinfec- tion of bacteria and viruses, Critical Reviews in Environmental Control, 18: 295-315.
  • Üreyen, M.E., Çavdar, A., Koparalı, S.A., Doğan, A. geliştirilen antimikrobiyal tekstil kimyasalı ve bu kimyasal ile işlem görmüş kumaşların antibakteriyel per- formansları. The Journal of Textiles and Engineer, 69: 25-31. gümüş katkılı
  • Wells, T.N.C., Scully, P., Paravicini, G., Proudfoot, A.E.I., Payton, M.A. 1995. Mechanism of irre- versible inactivation of phosphomannose iso- merases by silver ions and flamazine, Bio- chemistry, 34(24); 896 - 903.
  • Wesley, J.A. 2009. History of the medical use of silver, Surgical Infections, 10(3); 289-292.
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Details

Primary Language Turkish
Journal Section Research Articles
Authors

M. Ertan Güneş This is me

A. Ebru Borum This is me

Cüneyt Özakın This is me

A. Onur Girişgin This is me

Levent Aydın This is me

Publication Date February 28, 2012
Published in Issue Year 2012 Volume: 12 Issue: 1

Cite

Vancouver Güneş ME, Borum AE, Özakın C, Girişgin AO, Aydın L. Yeni Bir Teknik; Bal Arısı Kovanlarında Nano-gümüş Kaplamanın Bazı Mikroorganizmalara Karşı Etkinliği. U. Arı. D.-U. Bee J. 2012;12(1):23-30.

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