Nanobiotechnology: A promising scope of gold biotechnology

Hamed Barabadi

doi:10.14715/10.14715/cmb/2017.63.12.2

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Vol. 63 No. 12: Issue 12

Issue Published : December 19, 2017

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Nanobiotechnology: A promising scope of gold biotechnology

https://doi.org/10.14715/10.14715/cmb/2017.63.12.2

Hamed Barabadi

Department of Pharmaceutical Biotechnology, School of Pharmacy, Shahid Beheshti University of Medical Sciences, Tehran, Iran

Corresponding Author(s) : Hamed Barabadi

barabadi.87@gmail.com

Cellular and Molecular Biology, Vol. 63 No. 12: Issue 12
Article Published : December 15, 2017

Barabadi, H. (2017). Nanobiotechnology: A promising scope of gold biotechnology. Cellular and Molecular Biology, 63(12), 3–4. https://doi.org/10.14715/10.14715/cmb/2017.63.12.2

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References

The Organisation for Economic Co-operation and Development. A framework for biotechnology statistics. OECD: Paris, 2005.
DaSilva EJ. The Colours of Biotechnology: Science, Development and Humankind. Electronic Journal of Biotechnology 2004;7(3).
De la Vega I, Requena J, Fernández-Gómez R. The Colors of Biotechnology in Venezuela: A Bibliometric Analysis. Technology in Society 2015;42(Supplement C):123-134.
Fakruddin M, Hossain Z, Afroz H. Prospects and Applications of Nanobiotechnology: A Medical Perspective. Journal of Nanobiotechnology. 2012;10:31.
Miri AH, Shakib ES, Ebrahimi O, Sharifi-Rad J. Impacts of Nickel Nanoparticles on Grow Characteristics, Photosynthetic Pigment Content and Antioxidant Activity of Coriandrum sativum L. Oriental Journal of Chemistry. 2017;33(3):1297-1303.
Dahoumane SA, Mechouet M, Wijesekera K, Filipe CDM, Sicard C, Bazylinski DA, Jeffryes C. Algae-Mediated Biosynthesis of Inorganic Nanomaterials As a Promising Route in Nanobiotechnology - A Review. Green Chemistry 2017;19(3):552-587.
Roco MC. Converging Science and Technology at the Nanoscale: Opportunities for Education and Training. Nat Biotech 2003;21(10):1247-1249.
Sharifi-Rad J, Sharifi-Rad M, Teixeira da Silva JA. Morphological, Physiological and Biochemical Responses of Crops (Zea mays L., Phaseolus vulgaris L.), Medicinal Plants (Hyssopus officinalis L., Nigella sativa L.), and Weeds (Amaranthus retroflexus L., Taraxacum officinale F. H. Wigg) exposed to SiO2 nanoparticles. Journal of Agricultural Science and Technology. 2016;18(4):1027-1040.
de Morais MG, Martins VG, Steffens D, Pranke P, da Costa JA. Biological Applications of Nanobiotechnology. Journal of nanoscience and nanotechnology. 2014;14(1):1007-1017.
Rahimi MT, Ahmadpour E, Rahimi Esboei B, Spotin A, Kohansal Koshki MH, Alizadeh A, Honary S, Barabadi H, Ali Mohammadi M. Scolicidal Activity of Biosynthesized Silver Nanoparticles Against Echinococcus granulosus Protoscolices. International Journal of Surgery. 2015;19:128-133.
Singh M, Manikandan S, Kumaraguru AK. Nanoparticles: A new technology with wide application. Research Journal of Nanoscience and Nanotechnology. 2011;1(1):1-11.
Rai M, Yadav A, Gade A. Silver nanoparticles as a new generation of antimicrobials. Biotechnology Advances. 2009;27:76–83.
Barabadi H, Honary S, Ali Mohammadi M, Ahmadpour E, Rahimi MT, Alizadeh A, Naghibi F, Saravanan M. Green Chemical Synthesis of Gold Nanoparticles by Using Penicillium aculeatum and Their Scolicidal Activity Against Hydatid Cyst Protoscolices of Echinococcus granulosus. Environmental science and pollution research international. 2017;24(6):5800-5810.
Konishi Y, Tsukiyama T, Ohno K, Saitoh N, Nomura T, Nagamine S. Intracellular Recovery of Gold by Microbial Reduction of AuCl4âˆ’ Ions Using the Anaerobic Bacterium Shewanella algae. Hydrometallurgy. 2006;81(1):24-29.
Li S, Duan Y, Li R, Wang X. Intracellular and Extracellular Biosynthesis of Antibacterial Silver Nanoparticles by Using Pseudomonas aeruginosa. Journal of nanoscience and nanotechnology. 2017;17(12):9186-9191.
Barabadi H, Honary S, Ebrahimi P, Mohammadi MA, Alizadeh A, Naghibi F. Microbial Mediated Preparation, Characterization and Optimization of Gold Nanoparticles. Brazilian Journal of Microbiology. 2014;45:1493-1501.
Dhillon GS, Brar SK, Kaur S, Verma M. Green approach for nanoparticle biosynthesis by fungi: current trends and applications. Critical Reviews in Biotechnology. 2012;32(1):49–73.
Dhillon GS, Brar SK, Kaur S, Verma M. Green Approach for Nanoparticle Biosynthesis by Fungi: Current Trends and Applications. Critical reviews in biotechnology. 2012;32(1):49-73.
Honary S, Barabadi H, Ebrahimi P, Naghibi F, Alizadeh A. Development and Optimization of Biometal Nanoparticles by Using Mathematical Methodology: A Microbial Approach. Journal of Nano Research. 2015;30:106-115.
Barabadi H, Ovais M, Shinwari ZK, Saravanan M. Anti-cancer Green Bionanomaterials: Present Status and Future Prospects. Green Chemistry Letters and Reviews 2017;10(4):285-314.
Nel A, Xia T, Mädler L, Li N. Toxic Potential of Materials at the Nanolevel. Science. 2006;311(5761):622-627.

References

The Organisation for Economic Co-operation and Development. A framework for biotechnology statistics. OECD: Paris, 2005.

DaSilva EJ. The Colours of Biotechnology: Science, Development and Humankind. Electronic Journal of Biotechnology 2004;7(3).

De la Vega I, Requena J, Fernández-Gómez R. The Colors of Biotechnology in Venezuela: A Bibliometric Analysis. Technology in Society 2015;42(Supplement C):123-134.

Fakruddin M, Hossain Z, Afroz H. Prospects and Applications of Nanobiotechnology: A Medical Perspective. Journal of Nanobiotechnology. 2012;10:31.

Miri AH, Shakib ES, Ebrahimi O, Sharifi-Rad J. Impacts of Nickel Nanoparticles on Grow Characteristics, Photosynthetic Pigment Content and Antioxidant Activity of Coriandrum sativum L. Oriental Journal of Chemistry. 2017;33(3):1297-1303.

Dahoumane SA, Mechouet M, Wijesekera K, Filipe CDM, Sicard C, Bazylinski DA, Jeffryes C. Algae-Mediated Biosynthesis of Inorganic Nanomaterials As a Promising Route in Nanobiotechnology - A Review. Green Chemistry 2017;19(3):552-587.

Roco MC. Converging Science and Technology at the Nanoscale: Opportunities for Education and Training. Nat Biotech 2003;21(10):1247-1249.

Sharifi-Rad J, Sharifi-Rad M, Teixeira da Silva JA. Morphological, Physiological and Biochemical Responses of Crops (Zea mays L., Phaseolus vulgaris L.), Medicinal Plants (Hyssopus officinalis L., Nigella sativa L.), and Weeds (Amaranthus retroflexus L., Taraxacum officinale F. H. Wigg) exposed to SiO2 nanoparticles. Journal of Agricultural Science and Technology. 2016;18(4):1027-1040.

de Morais MG, Martins VG, Steffens D, Pranke P, da Costa JA. Biological Applications of Nanobiotechnology. Journal of nanoscience and nanotechnology. 2014;14(1):1007-1017.

Rahimi MT, Ahmadpour E, Rahimi Esboei B, Spotin A, Kohansal Koshki MH, Alizadeh A, Honary S, Barabadi H, Ali Mohammadi M. Scolicidal Activity of Biosynthesized Silver Nanoparticles Against Echinococcus granulosus Protoscolices. International Journal of Surgery. 2015;19:128-133.

Singh M, Manikandan S, Kumaraguru AK. Nanoparticles: A new technology with wide application. Research Journal of Nanoscience and Nanotechnology. 2011;1(1):1-11.

Rai M, Yadav A, Gade A. Silver nanoparticles as a new generation of antimicrobials. Biotechnology Advances. 2009;27:76–83.

Barabadi H, Honary S, Ali Mohammadi M, Ahmadpour E, Rahimi MT, Alizadeh A, Naghibi F, Saravanan M. Green Chemical Synthesis of Gold Nanoparticles by Using Penicillium aculeatum and Their Scolicidal Activity Against Hydatid Cyst Protoscolices of Echinococcus granulosus. Environmental science and pollution research international. 2017;24(6):5800-5810.

Konishi Y, Tsukiyama T, Ohno K, Saitoh N, Nomura T, Nagamine S. Intracellular Recovery of Gold by Microbial Reduction of AuCl4âˆ’ Ions Using the Anaerobic Bacterium Shewanella algae. Hydrometallurgy. 2006;81(1):24-29.

Li S, Duan Y, Li R, Wang X. Intracellular and Extracellular Biosynthesis of Antibacterial Silver Nanoparticles by Using Pseudomonas aeruginosa. Journal of nanoscience and nanotechnology. 2017;17(12):9186-9191.

Barabadi H, Honary S, Ebrahimi P, Mohammadi MA, Alizadeh A, Naghibi F. Microbial Mediated Preparation, Characterization and Optimization of Gold Nanoparticles. Brazilian Journal of Microbiology. 2014;45:1493-1501.

Dhillon GS, Brar SK, Kaur S, Verma M. Green approach for nanoparticle biosynthesis by fungi: current trends and applications. Critical Reviews in Biotechnology. 2012;32(1):49–73.

Dhillon GS, Brar SK, Kaur S, Verma M. Green Approach for Nanoparticle Biosynthesis by Fungi: Current Trends and Applications. Critical reviews in biotechnology. 2012;32(1):49-73.

Honary S, Barabadi H, Ebrahimi P, Naghibi F, Alizadeh A. Development and Optimization of Biometal Nanoparticles by Using Mathematical Methodology: A Microbial Approach. Journal of Nano Research. 2015;30:106-115.

Barabadi H, Ovais M, Shinwari ZK, Saravanan M. Anti-cancer Green Bionanomaterials: Present Status and Future Prospects. Green Chemistry Letters and Reviews 2017;10(4):285-314.

Nel A, Xia T, Mädler L, Li N. Toxic Potential of Materials at the Nanolevel. Science. 2006;311(5761):622-627.

Author biographies is not available.