In vivo real-time recording of UV-induced changes in the autofluorescence of a melanin-containing fungus using a micro-spectrofluorimeter and a low-cost webcam
Source: Opt. Express 17, 22735 (2010); doi:10.1364/OE.17.022735
Issue Date: 15 February 2010
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Research ToolkitKEYWORDS and PACS
biology,
biomedical imaging,
fluorescence spectroscopy,
luminescence,
fluorescence,
optical microscopy
- 87.00.00
- 87.57.-s
Medical imaging - 87.85.Pq
Biomedical imaging - 87.64.kv
Fluorescence spectroscopy in biophysics and medical physics - 07.60.Pb
Conventional optical microscopes - 33.50.-j
Molecular fluorescence and phosphorescence; radiationless transitions, quenching (intersystem crossing, internal conversion) - 78.55.-m
Photoluminescence, properties and materials (condensed matter) - 32.50.+d
Atomic fluorescence, phosphorescence - YEAR: 2009
PUBLICATION DATA
1553-9628 (online)
OSA
An optical epifluorescence microscope, coupled to a CCD camera, a standard webcam and a microspectrofluorimeter, are used to record in vivo real-time changes in the autofluorescence of spores and hyphae in Aspergillus niger, a fungus containing melanin, while exposed to UV irradiation. The results point out major changes in both signal intensity and the spectral shape of the autofluorescence signal after only few minutes of exposure, and can contribute to the interpretation of data obtained with other fluorescence techniques, including those, such as GPF labeling, in which endogenous fluorophores constitute a major disturbance.
©2009 Optical Society of America
(As supplied by publisher.)
| Permalink: | http://dx.doi.org/10.1364/OE.17.022735 |
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