Changes in the dielectric properties of medaka fish embryos during development, studied by electrorotation

► Electrorotation offers a non-invasive tool for dielectric analysis of fish embryos. ► The three-shell dielectric model matches the rotation spectra of medaka eggs. ► The capacitance value suggests a double-membrane structure of yolk envelope. The Japanese medaka fish, Oryzias latipes, has become a...

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Bibliographic Details
Published in:Biochemical and biophysical research communications 2012-11, Vol.428 (1), p.127-131
Main Authors: Shirakashi, Ryo, Mischke, Miriam, Fischer, Peter, Memmel, Simon, Krohne, Georg, Fuhr, Günter R., Zimmermann, Heiko, Sukhorukov, Vladimir L.
Format: Article
Language:English
Subjects:
60 APPLIED LIFE SCIENCES
Animals
Chorion
Chorion - physiology
Conductivity
DIELECTRIC MATERIALS
Dielectric spectroscopy
Egg Yolk - physiology
EGGS
Electric Conductivity
Embryo, Nonmammalian - physiology
EMBRYOS
Freshwater
GENETICS
Hanging droplet
MATERIALS SCIENCE
Oryzias - embryology
Oryzias - physiology
Oryzias latipes
PERMITTIVITY
Rotation
TRANSMISSION ELECTRON MICROSCOPY
Yolk membrane
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Summary:► Electrorotation offers a non-invasive tool for dielectric analysis of fish embryos. ► The three-shell dielectric model matches the rotation spectra of medaka eggs. ► The capacitance value suggests a double-membrane structure of yolk envelope. The Japanese medaka fish, Oryzias latipes, has become a powerful vertebrate model organism in developmental biology and genetics. The present study explores the dielectric properties of medaka embryos during pre-hatching development by means of the electrorotation (ROT) technique. Due to their layered structure, medaka eggs exhibited up to three ROT peaks in the kHz–MHz frequency range. During development from blastula to early somite stage, ROT spectra varied only slightly. But as the embryo progressed to the late-somite stage, the ROT peaks underwent significant changes in frequency and amplitude. Using morphological data obtained by light and electron microscopy, we analyzed the ROT spectra with a three-shell dielectric model that accounted for the major embryonic compartments. The analysis yielded a very high value for the ionic conductivity of the egg shell (chorion), which was confirmed by independent osmotic experiments. A relatively low capacitance of the yolk envelope was consistent with its double-membrane structure revealed by transmission electron microscopy. Yolk-free dead eggs exhibited only one co-field ROT peak, shifted markedly to lower frequencies with respect to the corresponding peak of live embryos. The dielectric data may be useful for monitoring the development and changes in fish embryos’ viability/conditions in basic research and industrial aquaculture.
ISSN:0006-291X
1090-2104
DOI:10.1016/j.bbrc.2012.10.019