Classical plant taxonomic ambiguities extend to the molecular level |
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| Authors: | Michael Syvanen Hyman Hartman Peter F Stevens |
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| Institution: | (1) Department of Medical Microbiology and Immunology, The Medical School, University of California at Davis, 95616 Davis, California, USA;(2) Computer Science Department, University of California at Berkeley, 94720 Berkeley, California, USA;(3) The Herbaria, Harvard University, 02138 Cambridge, Massachusetts, USA |
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| Abstract: | Summary The molecular evolution of cytochrome c from angiosperms is compared to that from vertebrates. On the basis of a cladistic
analysis from 26 plant species, compared to that from 27 vertebrate species, we find that although the vertebrate sequences
yield reasonably well-defined minimal trees that are congruent with the biological tree, the plant sequences yield multiple
minimal trees that are not only highly incongruent with each other, but none of which is congruent with any reasonably biological
tree. That is, the plant sequence set is much more homoplastic than that of the animal. However, as judged by the relative
rate test, the extent of divergence, and degree of functional constraint, cytochrome c evolution in plants does not appear
to differ from that of vertebrates. |
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| Keywords: | Cytochrome c Homoplasy Plant systematics Parsimony trees |
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