1. MspA Porin−Gold Nanoparticle Assemblies: Enhanced Binding through a Controlled Cysteine Mutation
- Author
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Paul E. Smith, Stefan H. Bossmann, Viktor Chikan, Raj Kumar Dani, Mausam Kalita, and Myungshim Kang
- Subjects
Size-exclusion chromatography ,Mutant ,Metal Nanoparticles ,Porins ,Nanoparticle ,Bioengineering ,Mycobacterial porin ,Microscopy, Electron, Transmission ,General Materials Science ,Cysteine ,Chromatography, High Pressure Liquid ,biology ,Chemistry ,Mechanical Engineering ,Mycobacterium smegmatis ,Neutron Activation Analysis ,General Chemistry ,Condensed Matter Physics ,biology.organism_classification ,Crystallography ,Spectrometry, Fluorescence ,Colloidal gold ,Mutation ,Porin ,Gold - Abstract
In this study, the interactions of two gold nanoparticles of different sizes (average diameters of 3.7 +/- 2.6 and 17 +/- 3 nm) with octameric mycobacterial porin A from Mycobacterium smegmatis (MspA) and a mutant of MspA featuring a cysteine mutation in position 126 (Q126C) are investigated. From the observation of enhanced photoluminescence quenching, it is inferred that the presence of eight cysteines in the MspA Q126C mutant significantly enhances the binding of selected small gold nanoparticles within the inner pore of MspA. The large gold nanoparticle/porin complex shows photoluminescence enhancement, which is expected since the larger nanoparticles cannot dock within the homopore of MspA due to size exclusion. In addition to the fluorescence experiments, observation of energy transfer from the small gold nanoparticles to the MspA shows the close proximity of the small gold nanoparticles with the porin. Interestingly, the energy transfer of the large nanoparticle/MspA complex is completely missing. From high-performance liquid chromatography data, the estimated binding constants for small Au@MspA, large Au@MspA, small Au@MspAcys, and large Au@MspAcys are 1.3 x 10 (9), 2.22 x 10 (10),10 (12) (irreversible), and 1.7 x 10 (10), respectively.
- Published
- 2008