Charles J. O’Kelly scite author profile

Molecular phylogenies support a common ancestry between animals (Metazoa) and Fungi, but the evolutionary descent of the Metazoa from single-celled eukaryotes (protists) and the nature and taxonomic affiliation of these ancestral protists remain elusive. We addressed this question by sequencing complete mitochondrial genomes from taxonomically diverse protists to generate a large body of molecular data for phylogenetic analyses. Trees inferred from multiple concatenated mitochondrial protein sequences demonstrate that animals are specifically affiliated with two morphologically dissimilar unicellular protist taxa: Monosiga brevicollis (Choanoflagellata), a flagellate, and Amoebidium parasiticum (Ichthyosporea), a fungus-like organism. Statistical evaluation of competing evolutionary hypotheses confirms beyond a doubt that Choanoflagellata and multicellular animals share a close sister group relationship, originally proposed more than a century ago on morphological grounds. For the first time, our trees convincingly resolve the currently controversial phylogenetic position of the Ichthyosporea, which the trees place basal to Choanoflagellata and Metazoa but after the divergence of Fungi. Considering these results, we propose the new taxonomic group Holozoa, comprising Ichthyosporea, Choanoflagellata, and Metazoa. Our findings provide insight into the nature of the animal ancestor and have broad implications for our understanding of the evolutionary transition from unicellular protists to multicellular animals.

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Molecular Assessment of Ulva Spp. (Ulvophyceae, Chlorophyta) in the Hawaiian Islands1

O’Kelly

Kurihara

Shipley

et al. 2010

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Sequences of the nuclear internal transcribed spacer 1 (ITS1) region and the chloroplast rbcL gene were obtained from 86 specimens of Ulva (including “Enteromorpha”) from five of the main Hawaiian Islands. These 86 specimens were divided into 11 operational taxonomic units (OTUs) based on analyses of primary sequence data and comparisons of ITS1 secondary structure. Of the 11 OTUs, six have not previously been reported from anywhere in the world. Only three represented exact sequence matches to named species (Ulva lactuca L., syn. U. fasciata Delile; U. ohnoi Hiraoka et Shimada); two others represented exact sequence matches to unnamed species from Japan and New Zealand. Of the 12 species names currently in use for Hawaiian Ulva, only one, U. lactuca (as U. fasciata), was substantiated. General morphology of the specimens did not always correspond with molecular OTUs; for example, reticulate thallus morphology, previously considered diagnostic for the species U. reticulata Forssk., was expressed in thalli assigned to U. ohnoi and to one of the novel OTUs. This finding confirms a number of recent studies and provides further support for a molecular species concept for Ulva. These results suggest that Ulva populations in tropical and subtropical regions consist of species that are largely unique to these areas, for which the application of names based on types from temperate and boreal European and North American waters is inappropriate. Ulva ohnoi, a “green tide” species, is reported from Hawaii for the first time.

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MOLECULAR PHYLOGENY AND TAXONOMY OF THE AEGAGROPILA CLADE (CLADOPHORALES, ULVOPHYCEAE), INCLUDING THE DESCRIPTION OF AEGAGROPILOPSIS GEN. NOV. AND PSEUDOCLADOPHORA GEN. NOV.¹

Boedeker

O’Kelly

Star

et al. 2012

Journal of Phycology

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The Aegagropila clade represents a unique group of cladophoralean green algae occurring mainly in brackish and freshwater environments. The clade is sister to the species-rich and primarily marine Cladophora and Siphonocladus lineages. Phylogenetic analyses of partial LSU and SSU nrDNA sequences reveal four main lineages within the Aegagropila clade, and allow a taxonomic reassessment. One lineage consists of two marine 'Cladophora' species, for which the new genus Pseudocladophora and the new family Pseudocladophoraceae are proposed. For the other lineages, the family name Pithophoraceae is reinstated. Within the Pithophoraceae, the earliest diverging lineage includes Wittrockiella and Cladophorella calcicola, occurring mainly in brackish and subaerial habitats. The two other lineages are restricted to freshwater. One of them shows a strong tendency for epizoism, and consists of Basicladia species and Arnoldiella conchophila. The other lineage includes Aegagropila, Pithophora and a small number of tropical 'Cladophora' species. The latter are transferred to the new genus Aegagropilopsis. Previously, polypyramidal pyrenoids had been suggested to be apomorphous for this clade, but we report the finding of both polypyramidal and bilenticular pyrenoids in members of the Pithophoraceae, and thus show that this character has no diagnostic value.

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Charles J. O’Kelly

The Closest Unicellular Relatives of Animals

Molecular Assessment of Ulva Spp. (Ulvophyceae, Chlorophyta) in the Hawaiian Islands1

MOLECULAR PHYLOGENY AND TAXONOMY OF THE AEGAGROPILA CLADE (CLADOPHORALES, ULVOPHYCEAE), INCLUDING THE DESCRIPTION OF AEGAGROPILOPSIS GEN. NOV. AND PSEUDOCLADOPHORA GEN. NOV.¹

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Charles J. O’Kelly

The Closest Unicellular Relatives of Animals

Molecular Assessment of Ulva Spp. (Ulvophyceae, Chlorophyta) in the Hawaiian Islands1

MOLECULAR PHYLOGENY AND TAXONOMY OF THE AEGAGROPILA CLADE (CLADOPHORALES, ULVOPHYCEAE), INCLUDING THE DESCRIPTION OF AEGAGROPILOPSIS GEN. NOV. AND PSEUDOCLADOPHORA GEN. NOV.1

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MOLECULAR PHYLOGENY AND TAXONOMY OF THE AEGAGROPILA CLADE (CLADOPHORALES, ULVOPHYCEAE), INCLUDING THE DESCRIPTION OF AEGAGROPILOPSIS GEN. NOV. AND PSEUDOCLADOPHORA GEN. NOV.¹