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International Journal of Green Nanotechnology Volume 4, 2012 - Issue 2: New Advances in Phytochemicals-Mediated Green Nanotechnology: Part I
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PHYSICS AND CHEMISTRY

Interaction of Bacteriocin-Capped Silver Nanoparticles with Food Pathogens and Their Antibacterial Effect

Tarun Kumar Sharma Department of Biotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
,
Mahak Sapra Centre of Nanotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
,
Aradhana Chopra Centre of Nanotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
,
Rekha Sharma Department of Biotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
,
Supriya Deepak Patil Department of Biotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
,
Ravinder Kumar Malik Dairy Microbiology Division, National Dairy Research Institute–Karnal, Haryana, India
,
Ranjana Pathania Department of Biotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
&
Naveen Kumar Navani Centre of Nanotechnology, Indian Institute of Technology Roorkee, Roorkee Uttarakhand, India
 show all
Pages 93-110 | Received 21 Jan 2012, Accepted 19 Feb 2012, Published online: 15 Jun 2012

REFERENCES

  • Sharma , T. K. , Chopra , A. , Sapra , M. , Kumawat , D. , Patil , S. D. , Pathania , R. and Navani , N. K. 2012 . Green synthesis and antimicrobial potential of silver nanoparticles . International Journal of Green Nanotechnology , 4 ( 1 ) : 1 – 16 .
  • Michal , F. and Hochella , J. R. 2002 . There's plenty of room at the bottom: Nanoscience in geochemistry . Geochim. Cosmochim. Acta , 66 : 735 – 743 .
  • Li , L. , Hu , J. and Alivistos , A. P. 2001 . Band gap variation of size and shape-controlled colloidal CdSe quantum rods . Nano Lett. , 1 : 349 – 351 .
  • Dahl , J. A. , Maddux , B. L. S. and Hutchison , J. E. 2007 . Greener nanoscience: Defining principles and practices to maximize benefit and minimize harm . Chem. Rev. , 107 : 2228 – 2269 .
  • Hutchison , J. E. 2008 . Greener nanoscience: A proactive approach to advancing applications and reducing implications of nanotechnology . ACS Nano , 2 : 395 – 402 .
  • Hussain , I. , Brust , M. , Papworth , A. J. and Cooper , A. I. 2003 . Preparation of acrylate-stabilized gold and silver hydrosols and gold polymer composite films . Langmuir , 19 : 4831 – 4835 .
  • Burleson , D. J. , Driessen , M. D. and Penn , R. L. 2004 . On the characterization of environmental nanoparticles . J. Environ. Sci. Health Environ. Sci. Eng. , 39 : 2707 – 2753 .
  • Cheng , M. D. 2005 . Effects of nanophase materials (≤20 nm) on biological responses . J. Environ. Sci. Health Environ. Sci. Eng. , 39 : 2691 – 2705 .
  • Obare , S. O. and Meyer , G. J. 2005 . Nanostructured materials for environmental remediation of organic contaminants in water . J. Environ. Sci. Health Environ. Sci. Eng. , 39 : 2549 – 2582 .
  • Yuan , G. J. 2005 . Environmental nanomaterials: Occurrence, syntheses, characterization, health effect, and potential applications . J. Environ. Sci. Health Environ. Sci. Eng. , 39 : 2545 – 2548 .
  • Masciangioli , T. and Zhang , W. X. 2003 . Environmental technologies at the nanoscale . Environ. Sci. Tech. , 37 : 102 – 108 .
  • Albrecht , M. A. , Evans , C. W. and Raston , C. L. 2006 . Green chemistry and the health implications of nanoparticles . Green Chem , 8 : 417 – 432 .
  • Burda , C. , Chen , X. , Narayanan , R. and El-Sayed , M. A. 2005 . Chemistry and properties of nanocrystals of different shapes . Chem. Rev. , 105 : 1025 – 1102 .
  • Tessier , P. M. , Velev , O. D. , Kalambur , A. T. , Rabolt , J. F. , Lenhoff , A. M. and Kaler , E. W. 2000 . Assembly of gold nanostructured films templated by colloidal crystals and use in surface-enhanced Raman spectroscopy . J. Am. Chem. Soc. , 122 : 9554 – 9555 .
  • Mulvaney , P. 1996 . Surface plasmon spectroscopy of nanosized metal particles . Langmuir , 12 : 788 – 800 .
  • Smith , A. M. , Duan , H. , Rhyner , M. N. , Ruan , G. and Nie , S. A. 2006 . A systematic examination of surface coatings on the optical and chemical properties of semiconductor quantum dots . J. Phys. Chem. Chem. Phys. , 8 : 3895 – 3903 .
  • Kearns , G. J. , Foster , E. W. and Hutchison , J. E. 2006 . Toward greener production of nanomaterials: Lessons from functionalized nanoparticle synthesis . Anal. Chem. , 78 : 298 – 303 .
  • Knoll , B. and Keilmann , F. 1999 . Near-field probing of vibrational absorption for chemical microscopy . Nature , 399 : 134 – 137 .
  • Sengupta , S. , Eavarone , D. , Capila , I. , Zhao , G. L. , Watson , N. and Kiziltepe , T. 2005 . Temporal targeting of tumour cells and neo vasculature with a nanoscale delivery system . Nature , 436 : 568 – 572 .
  • Brigger , I. , Dubernet , C. and Couvreur , P. 2004 . Nanoparticle in cancer therapy and diagnosis . Adv. Drug Deliv. Rev. , 54 : 631 – 651 .
  • Alivisatos , P. 2004 . The use of nanocrystals in biological detection . Nat. Biotechnol. , 22 : 47 – 52 .
  • Gao , X. H. , Cui , Y. Y. , Levenson , R. M. , Chung , L. W. K. and Nie , S. M. 2004 . In vivo cancer targeting and imaging with semiconductor quantum dots . Nat. Biotechnol. , 22 : 969 – 976 .
  • Ahearn , D. G. , May , L. L. and Gabriel , M. M. 1995 . Adherence of organisms to silver coated surfaces . J. Ind. Microbiol. , 15 : 372 – 376 .
  • Dibrov , P. , Dzioba , J. , Gosink , K. K. and Hase , C. C. 2002 . Chemiosmotic mechanism of antimicrobial activity of Ag+ in Vibrio cholerae . Antimicrob. Agents Chemother. , 46 : 2668 – 2670 .
  • Ghandour , W. , Hubbard , J. A. , Deistung , J. , Hughes , M. N. and Poole , R. K. 1998 . The uptake of silver ions by Escherichia coli K12: Toxic effects and interaction with copper ion . Appl. Microbiol. Biotechnol. , 28 : 559 – 565 .
  • Schreurs , W. J. A. and Rosenberg , H. 1982 . Effect of silver ions on transport and retention of phosphate by Escherichia coli . J. Bacteriol. , 152 : 7 – 13 .
  • Zhao , G. J. and Stevens , S. E. 1998 . Multiple parameters for the comprehensive evaluation of the susceptibility of Escherichia coli to the silver ion . Bimetals , 11 : 27 – 32 .
  • Lok , C. N. , Ho , C. M. , Chen , R. , He , Q. Y. , Yu , W. Y. , Sun , H. , Tam , P. K. , Chiu , J. F. and Che , C. M. 2006 . Proteomic analysis of the mode of antibacterial action of silver nanoparticles . J. Proteome Res. , 5 : 916 – 924 .
  • Rai , M. , Yadav , A. and Gade , A. 2009 . Silver nanoparticles as a new generation of antimicrobials . Biotechnol. Adv. , 27 : 76 – 83 .
  • Chaudhry , Q. , Scotter , M. , Blackburn , J. , Ross , B. , Boxall , A. , Castle , L. , Aitken , R. and Watkins , R. 2008 . Applications and implications of nanotechnologies for the food sector . Food Addit. Contam. , 25 : 241 – 258 .
  • Nadworny , P. L. , Wang , J. , Tredget , E. E. , Burrell , R. E. , Tian , J. , Wong , K. K. , Ho , C. M. , Lok , C. N. , Yu , W. Y. , Che , C. M. , Chiu , J. F. and Tam , P. K. 2008 . Anti-inflammatory activity of nano crystalline silver in a porcine contact dermatitis model . Nanomedicine , 4 : 241 – 251 .
  • Sibbald , R. G. , Contreras-Ruiz , J. , Coutts , P. , Fierheller , M. , Rothman , A. and Woo , K. 2007 . Bacteriology, inflammation, and healing: A study of nanocrystalline silver dressings in chronic venous leg ulcers . Adv. Skin Wound Care , 20 : 549 – 558 .
  • Tian , J. , Wong , K. K. , Ho , C. M. , Lok , C. N. , Yu , W. Y. , Che , C. M. , Chiu , J. F. and Tam , P. K. 2007 . Topical delivery of silver nanoparticles promotes wound healing . Chem. Med. Chem. , 2 : 129 – 136 .
  • Huang , Y. , Li , X. , Liao , Z. , Zhang , G. , Liu , Q. , Tang , J. , Peng , Y. , Liu , X. and Luo , Q. 2007 . A randomized comparative trial between Acticoat and SD-Ag in the treatment of residual burn wounds, including safety analysis . Burns , 33 : 161 – 166 .
  • Atiyeh , B. S. , Costagliola , M. , Hayek , S. N. and Dibo , S. A. 2007 . Effect of silver on burn wound infection control and healing: Review of the literature . Burns , 33 : 139 – 148 .
  • Feng , Q. L. , Wu , J. , Chen , G. Q. , Cui , F. Z. , Kim , T. N. and Kim , J. O. 2000 . A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus . J. Biomed. Mater , 52 : 662 – 668 .
  • Sondi , I. and Salopek-Sondi , B . 2004 . Silver nanoparticles as antimicrobial agent: A case study on E. coli as a model for gram-negative bacteria . J. Colloid Interface Sci. , 275 : 77 – 82 .
  • Morones , J. R. , Elechiguerra , J. L. , Camacho , A. and Ramirez , J. T. 2005 . The bactericidal effect of silver nanoparticles . Nanotechnology , 16 : 2346 – 2353 .
  • Bennik , M. H. J. , Vanloo , B. , Brasseur , R. , Gorris , L. G. M. and Smid , E. J. 1998 . A novel bacteriocin with a YGNGV motif from vegetable-associated Enterococcus mundtii: Full characterization and interaction with target organisms . Biochim. Biophys. Acta , 1373 : 47 – 58 .
  • Klaenhammer , T. R. 1993 . Genetics of bacteriocins produced by lactic acid bacteria . FEMS Microbiol. Rev. , 12 : 39 – 86 .
  • Nes , I. F. , Diep , D. B. , Havarstein , L. S. , Brurberg , M. B. , Eijsink , V. and Holo , H. 1996 . Biosynthesis of bacteriocins in lactic acid bacteria . Antonie Leewenhoek , 70 : 113 – 128 .
  • Franz , C. M. A. P. , Holzapfel , W. H. and Stiles , M. E. 2007 . Enterococci at the crossroads of food safety . Int. J. Food Microbiol. , 47 : 1 – 24 .
  • Gupta , H. , Malik , R. K. , Bhardwaj , A. , Kaur , G. D. S. and Kaushik , J. K. 2010 . Purification and characterization of enterocin FH99 produced by faecal isolate Enterococcus faecium FH99 . Ind. J. Microbiol. , 50 : 145 – 155 .
  • Osmanagaoglu , O. , Kiran , F. and Nes , I. F. 2011 . A probiotic bacterium, Pediococcus pentosaceus OZF isolated from human breast milk produces pediocin AcH/PA-1 . Afr. J. Biotechnol , 10 : 2070 – 2079 .
  • Sergeev , B. M. , Kiryukhin , M. V. , Rubtsova , M. Y. and Prusov , A. N. 2003 . Synthesis of protein A conjugates with silver nanoparticles . Coll. J. , 65 : 636 – 638 .
  • Munro , C. H. , Smith , W. E. , Garner , M. , Clarkson , J. and White , P. C. 1995 . Characterization of the surface of a citrate reduced colloid optimized for use as a substrate for surface enhanced resonance Raman scattering . Langmuir , 11 : 3712 – 3720 .
  • Andrews , J. M. 2001 . Determination of minimum inhibitory concentrations . J. Antimicrob. Agents Chemother. , 48 : 5 – 16 .
  • Berenson , C. S. , Murphy , T. F. , Wrona , C. T. and Sethi , S. 2005 . Outer membrane protein P6 of non typeable Haemophilus influenzae is a potent and selective inducer of human macrophage pro inflammatory cytokines . Infect. Immun. , 73 : 2728 – 2735 .
  • Standard test method for analysis of hemolytic properties of nanoparticles . E2524–08; http://65.209.24.102/DOWNLOAD/E2524.1044360-1.pdf
  • Socrates , G . Infrared and Raman Characteristic Group Frequencies, 3rd ed. , Chichester , , UK : John Wiley & Sons . 2001
  • Formaggio , F. , Crisma , M. , Rossi , P. , Scrimin , P. , Kaptein , B. , Broxterman , Q. B. , Kamphuis , J. and Toniolo , C. 2000 . The first water-soluble 310-helical peptides . Chem. Eur. J. , 6 : 4498 – 4504 .
  • Mariam , J. , Dongre , P. M. and Kothari , D. C. 2011 . Study of interaction of silver nanoparticles with bovine serum albumin using fluorescence spectroscopy . J. Fluoresc. , 21 : 2193 – 2199 .
  • Ruden , S , Hilpert , K. , Berditsch , M. , Wadhwani , P. and Ulrich , A. S. 2009 . Synergistic interaction between silver nano- particles and membrane permeabilizing antimicrobial peptides . Antimicrob. Agents Chemother. , 53 : 3538 – 3540 .
  • Park , S. , Chibli , H. , Wongand , J. and Nadeau , J. 2011 . Antimicrobial activity and cellular toxicity of nanoparticle–polymyxin B conjugates . Nanotechnology , 22 : 185101
  • Hélène , G , Thierry , L. and Muriel , S. 2003 . Binding of pediocin PA-1 with anionic lipid induces model membrane destabilization . Appl. Environ. Microbiol , 69 : 6777 – 6784 .

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