Concomitant use of polarization and positive phase contrast microscopy for the study of microbial cells

Polarization and positive phase contrast microscope were concomitantly used in the study of the internal structure of microbial cells. Positive phase contrast allowed us to view even the fine cell structure with a refractive index approaching that of the surrounding environment, e.g., the cytoplasm,...

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Bibliographic Details
Published in:Folia microbiologica 2015-11, Vol.60 (6), p.545-550
Main Authors: Žižka, Zdeněk, Gabriel, Jiří
Format: Article
Language:English
Subjects:
Algae
Applied Microbiology
Aquatic plants
Biomedical and Life Sciences
Birefringence
cell walls
Cellular biology
Chlorococcales
Chlorophyta - chemistry
cytoplasm
Desmidiales
Environmental Engineering/Biotechnology
Euglenales
filters
granules
Immunology
Life Sciences
Microbiology
Microorganisms
microscopes
Microscopy
Microscopy, Phase-Contrast - methods
Microscopy, Polarization - methods
Optics
Polarization
ponds
refractive index
Studies
Ulotrichales
villages
Zygnematales
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Summary:Polarization and positive phase contrast microscope were concomitantly used in the study of the internal structure of microbial cells. Positive phase contrast allowed us to view even the fine cell structure with a refractive index approaching that of the surrounding environment, e.g., the cytoplasm, and transferred the invisible phase image to a visible amplitude image. With polarization microscopy, crossed polarizing filters together with compensators and a rotary stage showed the birefringence of different cell structures. Material containing algae was collected in ponds in Sýkořice and Zbečno villages (Křivoklát region). The objects were studied in laboratory microscopes LOMO MIN-8 Sankt Petersburg and Polmi A Carl Zeiss Jena fitted with special optics for positive phase contrast, polarizers, analyzers, compensators, rotary stages, and digital SLR camera Nikon D 70 for image capture. Anisotropic granules were found in the cells of flagellates of the order Euglenales, in green algae of the orders Chlorococcales and Chlorellales, and in desmid algae of the order Desmidiales. The cell walls of filamentous algae of the orders Zygnematales and Ulotrichales were found to exhibit significant birefringence; in addition, relatively small amounts of small granules were found in the cytoplasm. A typical shape-related birefringence of the cylindrical walls and the septa between the cells differed in intensity, which was especially apparent when using a Zeiss compensator RI-c during its successive double setting. In conclusion, the anisotropic granules found in the investigated algae mostly showed strong birefringence and varied in number, size, and location of the cells. Representatives of the order Chlorococcales contained the highest number of granules per cell, and the size of these granules was almost double than that of the other monitored microorganisms. Very strong birefringence was exhibited by cell walls of filamentous algae; it differed in the intensity between the cylindrical peripheral wall and the partitions between the cells. Positive phase contrast enabled us to study the morphological relationship of various fine structures in the cell (poorly visible in conventional microscope) to anisotropic structures that have been well defined by polarization microscopy.
ISSN:0015-5632
1874-9356
DOI:10.1007/s12223-015-0397-8