M. Schilthuizen, Rob Langelaan, N. Hemmings, Wesley van Oostenbrugge, S. Visser
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引用次数: 4
Abstract
In animals, cell polarity may initiate symmetry breaking
very early in development, ultimately leading to whole-body
asymmetry. Helical sperm cells, which occur in a variety of
animal clades, are one class of cells that show clearly visible
bilateral asymmetry. We used scanning-electron microscopy
to study coiling direction in helical sperm cells in two
groups of animals that have figured prominently in the sperm
morphology literature, namely land snails, Stylommatophora
(514 spermatozoa, from 27 individuals, belonging to 8 species
and 4 families) and songbirds, Passeriformes (486 spermatozoa,
from 26 individuals, belonging to 18 species and 8 families).
We found that the snail sperm cells were consistently dextral
(clockwise), whereas the bird sperm cells were consistently
sinistral (counterclockwise). We discuss reasons why this
apparent evolutionary conservatism of sperm cell chirality may
or may not be related to whole-body asymmetry.
期刊介绍:
Contributions to Zoology solicits high-quality papers in all systematics-related branches of comparative zoology (including paleozoology). Preference will be given to manuscripts dealing with conceptual issues and to integrative papers (e.g., ecology and biodiversity, morphology and phylogeny and character state evolution, phylogeny and historical biogeography, systematics and bioinformatics, bioinformatics and biodiversity, habitat disturbance and biogeography, etc.). Reviews and alpha-taxonomic contributions are considered for publication, but acceptance will depend on their high quality and exceptional nature.
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