New insights into detecting alizarin from autofluorescence in marked glass eels
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Article de revue
Este ítem está publicado en
SCIENTIFIC REPORTS. 2022-09-26, vol. 12, n° 1
Resumen en inglés
Alizarin detection in fish fins is extensively employed because it is easy to use. However, in eels, the
eelGFP fluorescent protein may impede the detection of the fluorescent markers in the eel tissues. The
study tests ...Leer más >
Alizarin detection in fish fins is extensively employed because it is easy to use. However, in eels, the
eelGFP fluorescent protein may impede the detection of the fluorescent markers in the eel tissues. The
study tests the effectiveness of three of the most up-to-date alizarin-detecting technologies on the
living body and fins of European glass eels (Anguilla anguilla L.). The findings demonstrated that the
control group had a high autofluorescence at alizarin and eelGFP maxima bands. With fluorescence
reflectance imaging (FRI), the eel living body autofluorescence impeded the detection of the marked
eels. In contrast with experimental excitation-emission-matrix (EEM) fluorescence analyses, 99% of
the marked eels were correctly assigned to their group from fluorescence analyses of their fin cellular
contents. With epifluorometry (EPI), 100% of the marked eels were detected with the caudal fin tips
when excited at 450–490 nm wavelengths due to a weaker autofluorescence signal. EEM and FRI
assays unveiled an average fluorescence quenching 60% and 44% of the marked group respectively,
in the alizarin and eelGFP maxima bands. The fluorescence quenching observed is discussed. Results
will benefit experimental design by examining autofluorescence effects on mark detection and the
development of non-invasive detection methods in this critically endangered species.< Leer menos
Palabras clave en inglés
Ecology
Imaging
Marine biology
Microscopy
Optical spectroscopy
Centros de investigación