A Low Cost and Versatile STED Superresolution  Fluorescent Microscope

McBride, Daniel; Su, C. B.; Kameoka, Jun; Vitha, Stanislav

doi:10.4236/mi.2013.23007

2013

DOI: 10.4236/mi.2013.23007

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A Low Cost and Versatile STED Superresolution Fluorescent Microscope

Daniel McBride¹,

C. B. Su²,

Jun Kameoka³

et al.

Abstract: A versatile and inexpensive super-resolution fluorescent microscope that functions as easily as a conventional confocal microscope is described. Components of the microscope were designed on a platform which was placed atop a surplus microscope frame. All optical components and equipments used are given. The excitation and depletion beams are extracted from a compact low-cost supercontinuum light source. The focal spot of the depletion beam at the focal plane is studied and imaged by a 100 nm aperture near-fie… Show more

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2014

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Cited by 2 publications

References 17 publications

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Nanophotonics of protein amyloids

Bhattacharya¹,

Mukhopadhyay²

2014

Nanophotonics

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Technological breakthroughs in the superresolution optical imaging techniques have enriched our current understanding of a range of biological systems and biomolecular processes at the nanoscopic spatial resolution. Protein amyloids are an important class of ordered protein assemblies consisting of misfolded proteins that are implicated in a wide range of devastating human diseases. In order to decipher the structural basis of the supramolecular protein assembly in amyloids and their detrimental interactions with the cell membranes, it is important to employ high-resolution optical imaging techniques. Additionally, amyloids could serve as novel biological nanomaterials for a variety of potential applications. In this review, we summarize a few examples of the utility of near-field scanning optical imaging methodologies to obtain a wealth of structural information into the nanoscale amyloid assembly. Although the near-field technologies were developed several decades ago, it is only recently that these methodologies are being applied and adapted for amyloid research to yield novel information pertaining to the exciting nanoscopic world of protein aggregates. We believe that the account on the nanophotonics of amyloids described in this review will be useful for the future studies on the biophysics of amyloids.

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Nanophotonics of protein amyloids

Bhattacharya¹,

Mukhopadhyay²

2014

Nanophotonics

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The optical near-field: super-resolution imaging with structural and phase correlation

et al. 2014

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An overview of near-field optics is presented with a focus on the fundamental advances that have been made in the field since its inception 30 years ago. A focus is placed on the advancements that have been achieved in instrumentation. These advances have led to a greater generality of use with ultra-low mechanical and optical noise and the ultimate in force sensitivity with near-field optical probes. An emphasis is placed on the importance of fully integrating near-field optics with other imaging and spectroscopic modalities including Raman spectroscopy and electron/ion beam imaging. Important directions in probe design, force feedback methods and scanner flexibility are described. These developing avenues provide considerable optimism for an ever increasing incorporation of near-field optics to help resolve critical problems in fundamental and applied science.

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A Low Cost and Versatile STED Superresolution Fluorescent Microscope

Cited by 2 publications

References 17 publications

Nanophotonics of protein amyloids

Nanophotonics of protein amyloids

The optical near-field: super-resolution imaging with structural and phase correlation

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