CLSM and TIRF images from lignocellulosic materials: garlic skin and agave fibers study

Fluorescence techniques have been widely used by scientists to reveal valuable information from biological samples, but in food science, small progress is known due to the complexity of the samples. In this study, two different biological samples, garlic skin (GS) and agave fibers (AF), were used to...

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Veröffentlicht in:	Microscopy and microanalysis 2021-08, Vol.27 (S1), p.1730-1734
Hauptverfasser:	Hernández-Varela, Josué, Chanona-Pérez, José, Benavides, Héctor Calderón, Cerda, Susana Gallegos, Victoriano, Lizbeth Gonzalez, Perea Flores, María de Jesús, López, Maximiliano Campos, Rojas Candelas, Liliana Edith, Tamato, Benjamín Arrendondo
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Sprache:	eng
Schlagworte:	Biological properties Biological samples Biological Sciences Symposia Confocal microscopy Fibers Fluorescence Food processing Frontiers in Fluorescence Lifetime and Super-resolution Imaging of Biological Structures and Dynamics Garlic Lignocellulose Microscopy Scanning microscopy
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creator	Hernández-Varela, Josué Chanona-Pérez, José Benavides, Héctor Calderón Cerda, Susana Gallegos Victoriano, Lizbeth Gonzalez Perea Flores, María de Jesús López, Maximiliano Campos Rojas Candelas, Liliana Edith Tamato, Benjamín Arrendondo
description	Fluorescence techniques have been widely used by scientists to reveal valuable information from biological samples, but in food science, small progress is known due to the complexity of the samples. In this study, two different biological samples, garlic skin (GS) and agave fibers (AF), were used to evaluate the techniques of confocal laser scanning microscopy (CLSM) and total internal reflection fluorescence (TIRF) microscopy, to obtain valuable information on the fiber size of the samples. A compositional characterization with calcofluor white in CLSM was achieved, but a superficial characterization of the samples with TIRF was made, evidencing fiber sizes of 398.67 ± 48.47 nm and 677.38 ± 76.88 nm for GS and AF, respectively. This work reveals that only an untreated sample can be used with the two techniques in the same microscope. In addition, it is possible to characterize the sample only using a spatial field of research and which valuable information about the structure of the material is found. This work provides the opportunity to use advanced fluorescence techniques for elucidation of structures shortly before studied with these techniques.
doi_str_mv	10.1017/S1431927621006334
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In this study, two different biological samples, garlic skin (GS) and agave fibers (AF), were used to evaluate the techniques of confocal laser scanning microscopy (CLSM) and total internal reflection fluorescence (TIRF) microscopy, to obtain valuable information on the fiber size of the samples. A compositional characterization with calcofluor white in CLSM was achieved, but a superficial characterization of the samples with TIRF was made, evidencing fiber sizes of 398.67 ± 48.47 nm and 677.38 ± 76.88 nm for GS and AF, respectively. This work reveals that only an untreated sample can be used with the two techniques in the same microscope. In addition, it is possible to characterize the sample only using a spatial field of research and which valuable information about the structure of the material is found. 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subjects	Biological properties Biological samples Biological Sciences Symposia Confocal microscopy Fibers Fluorescence Food processing Frontiers in Fluorescence Lifetime and Super-resolution Imaging of Biological Structures and Dynamics Garlic Lignocellulose Microscopy Scanning microscopy
title	CLSM and TIRF images from lignocellulosic materials: garlic skin and agave fibers study
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