The Magellania venosa biomineralizing proteome: a window into brachiopod shell evolution

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Creator/Author:
Jackson, Daniel

Mann, Karlheinz

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Year of Publication:
2015
Faculty:
Faculty of Geosciences

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Abstract:
Brachiopods are a lineage of invertebrates well known for the breadth and depth of their fossil record. While the quality of this fossil record attracts the attention of palaeontologists, geochemists and paleoclimatologists, modern day brachiopods are also of interest to evolutionary biologists due to their potential to address a variety of questions ranging from developmental biology to biomineralization. The brachiopod shell is a composite material primarily composed of either calcite or calcium phosphate in close association with proteins and polysaccharides which give these composite structures their material properties. The information content of these biomolecules, sequestered within the shell during its construction, have the potential to inform hypotheses focused on describing how brachiopod shell formation evolved. Here, using high throughput proteomic approaches and next generation sequencing, we have surveyed and characterized the first shell-proteome and shell-forming transcriptome of any brachiopod, the South American Magellania venosa (Rhynchonelliformea: Terebratulida). We find that the seven most abundant proteins present in the shell are unique to M. venosa, but that these proteins display biochemical features found in other metazoan biomineralization proteins. We can also detect some M. venosa proteins that display significant sequence similarity to other metazoan biomineralization proteins, suggesting that some elements of the brachiopod shell-forming proteome are deeply evolutionarily conserved. We also employed a variety of preparation methods to isolate shell proteins and find that in comparison to the shells of other spiralian invertebrates (such as molluscs) the shell ultrastructure of M. venosa may explain the affects these preparation strategies have on our results.
Keywords:
Brachiopoda
biomineralization
proteome
transcriptome
evolution
Magellania
DDC:
500 Natural sciences and mathematics
560 Paleontology, Paleozoology
570 Life sciences

Identifier

DOI:
https://doi.org/10.5282/ubm/data.67
lmUB:
bb1a6e52-bf74-4086-b637-d9961f2a7956

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