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Vitellogenin motifs conserved in nematodes and vertebrates

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Summary

Caenorhabditis elegans vitellogenins are encoded by a family of six genes, one of which,vit-5, has been previously sequenced and shown to be surprisingly closely related to the vertebrate vitellogenin genes. Here we report an alignment of the amino acid sequences of vitellogenins from frog and chicken with those from threeC. elegans genes:vit-5 and two newly sequenced genes,vit-2 andvit-6. The four introns ofvit-6 are all in different places from the four introns ofvit-5, but three of these eight positions are identical or close to intron locations in the vertebrate vitellogenin genes. The encoded polypeptides have diverged from one another sufficiently to allow us to draw some conclusions about conserved positions. Many cysteine residues have been conserved, suggesting that vitellogenin structure has been maintained over a long evolutionary distance and is dependent upon disulfide bonds. In addition, a 20-residue segment shows conservation between the vertebrate and the nematode vitellogenins. This sequence may play a highly conserved role in vitellogenesis, such as specific recognition by oocytes. On the whole, however, selection may be acting more strongly on amino acid composition and codon usage than on amino acid sequence, as might be expected for abundant storage proteins: The amino acid compositions ofvit-2, vit-5, andvit-6 products are remarkably similar, despite the fact that the sequence of thevit-2 protein is only 22% and 50% identical to the sequences ofvit-6 andvit-5 proteins, respectively.

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Authors and Affiliations

  1. Program in Molecular, Cellular and Developmental Biology and Department of Biology, Indiana University, 47405, Bloomington, IN, USA

    John Spieth, Mignon Nettleton, Erin Zucker-Aprison, Kristi Lea & Thomas Blumenthal

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  1. John Spieth
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  2. Mignon Nettleton
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  3. Erin Zucker-Aprison
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  4. Kristi Lea
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  5. Thomas Blumenthal
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Spieth, J., Nettleton, M., Zucker-Aprison, E. et al. Vitellogenin motifs conserved in nematodes and vertebrates. J Mol Evol 32, 429–438 (1991). https://doi.org/10.1007/BF02101283

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  • DOI: https://doi.org/10.1007/BF02101283

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