We concluded that certain proteins embedded in the membrane fract

We concluded that certain proteins embedded in the membrane fraction cause formation and stabilization of Au NPs. In the absence of these proteins (activity loss by β-met treatment), no nanoparticle formation was observed. Since biogenic nanoparticles are stabilized ‘naturally’ in the presence of active biomass, their efficacy in the preparation of heterogeneous catalyst was examined. We provided an innovative approach to utilize biogenic gold nanoparticles adsorbed over the cell membrane fraction to be used as a

heterogeneous catalyst for catalysing complete degradation selleck chemicals llc of 4-NP. A distinct advantage of this study lies in the fact that the facile green synthesis process can be seamlessly aligned with the preparation of nanobiocatalyst which may find numerous

applications in catalysis, bioremediation studies, etc. This research has the potential to promote membrane fractions (proteins) for continuous synthesis of different types of www.selleckchem.com/HSP-90.html NPs (see Additional file 1) and subsequent development of associated bionanocomposite resulting in improved material synthesis and application by biogenic systems. Acknowledgements This work was partly supported by the Special Coordination Fund for Promoting Science and Technology, Creation of Innovative Centers for Advanced Interdisciplinary Research Areas (Innovative BioProduction Kobe) from the Ministry of Education, Culture, Sports and Technology (MEXT) and by the MEXT Scholarship research fund. We also extend our sincere gratitude to Dr. Yasukiyo Ueda for his assistance with TEM observations, Dr. Atsunori Mori for his assistance with FT-IR and Dr. Yuzuru Mizuhata for his assistance with XRD. SKS would like to thank Ms. Charu Srivastava (TCS, India)

for her constant support and insightful discussions leading to the completion of this research. Electronic supplementary material Additional file 1: Supplementary information. It contains information about SDS-PAGE and preparation of membrane-bound fraction (MBF) column reactor for continuous synthesis of Au NPs. (PDF 151 KB) References 1. Bond GC, Thompson DT: Catalysis by gold. Catal Rev Sci Eng 1995, 41:319–388.CrossRef 2. Narayanan R, El-Sayed MA: Catalysis with transition metal nanoparticles in colloidal Cyclin-dependent kinase 3 solution: nanoparticle shape dependence and stability. J Phys Chem B 2005, 109:12663–12676.CrossRef 3. Daniel MC, Astruc D: Gold nanoparticles: assembly, supramolecular chemistry, quantum-size-related this website properties and applications toward biology, catalysis, and nanotechnology. Chem Rev 2004, 104:293–346.CrossRef 4. Murphy CJ, Sau TK, Gole AM, Orendorff CJG, Gou JL, Hunyadi SE, Li T: Anisotropic metal nanoparticles: synthesis, assembly, and optical applications. J Phys Chem B 2005, 109:13857–13870.CrossRef 5. Pileni MP: The role of soft colloidal templates in controlling the size and shape of inorganic nanocrystals. Nat Mater 2003, 2:145–149.CrossRef 6.

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