The influence of tunichrome and other reducing compounds on tunic and fin formation in embryonic Ascidia callosa Stimpson

The influence of tunichrome and other reducing compounds on tunic and fin formation in embryonic Ascidia callosa Stimpson

Tunic in 46-hr-old Ascidia callosa larvae reared from dechorionated neurulae is either markedly reduced in thickness or absent altogether. The epidermis is fragile and cuticular fins fail to develop. Dechorionated neurulae treated with tunichrome and other reducing compounds (e.g., glutathione, asco...

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Bibliographic Details
Published in:The Journal of experimental zoology Vol. 237; no. 1; p. 63
Main Authors: Robinson, W E, Kustin, K, Cloney, R A
Format: Journal Article
Language:English
Published: United States 01-01-1986
Subjects:
Animals
Ascorbic Acid - pharmacology
Epidermis - physiology
Glutathione - pharmacology
Humans
Larva
Morphogenesis - drug effects
Organic Chemicals
Pigments, Biological - pharmacology
Urochordata - drug effects
Urochordata - embryology
Urochordata - physiology
Vanadium - pharmacology
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Summary:Tunic in 46-hr-old Ascidia callosa larvae reared from dechorionated neurulae is either markedly reduced in thickness or absent altogether. The epidermis is fragile and cuticular fins fail to develop. Dechorionated neurulae treated with tunichrome and other reducing compounds (e.g., glutathione, ascorbate) show an enhancement in tunic formation and rudimentary fin development. UV absorbance spectra of extracts from unfertilized eggs, late tail-bud embryos, and tadpole larvae indicate that tunichrome may be present in all developmental stages. Experiments with neurulae in which the chorion was punctured with tungsten needles but not removed signify that the test cells are the most likely source of tunichrome. Results are consistent with the hypothesis that tunichrome is involved in the natural processes of tunic morphogenesis in ascidian embryos.
ISSN:0022-104X
DOI:10.1002/jez.1402370110