Molecular Biology and Evolution, Vol 16, 627-633, Copyright © 1999 by Society for Molecular Biology and Evolution
F Verra and AL Hughes
Many malarial antigens contain extensive arrays of tandemly repeated short
amino acid sequences, and much of the antibody response induced by malaria
infections is directed against these repeats. Indeed, it has been
hypothesized that these repeats function to elicit a relatively ineffective
T-cell-independent antibody response by the host. In order to test this
hypothesis, tandem repeats of Plasmodium species were examined for a bias
in composition favoring amino acids likely to form epitopes for the
antibody. The genome of Plasmodium is very A+T-rich, and nucleotide
compositional bias will, in itself, lead to a high proportion of
hydrophilic amino acids. When this bias was controlled for, Plasmodium
antigens did not show a higher proportion of hydrophilic amino acids than
expected, but there was a significant reduction in the proportion of
hydrophobic amino acids in the repeats of the antigens. The amino acid
composition of the repeats was thus strikingly different from those seen
both in the remainder of the antigens and in a sample of Plasmodium
falciparum housekeeping genes.
ORIGINAL ARTICLE
Biased amino acid composition in repeat regions of Plasmodium antigens
Department of Biology, Pennsylvania State University, University Park 16802, USA.
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