Characterization of a Plasmodium chabaudi gene encoding a protein with glutamate-rich tandem repeats.

Several highly antigenic proteins containing tandem repeats rich in glutamic acid residues have been described in Plasmodium falciparum. However, relatively little information is available about analogous genes in rodent parasites. This report describes a 4.

Phosphorylation of infected erythrocyte membrane proteins in Plasmodium chabaudi.

We identify phosphoproteins that are associated to the infected erythrocyte membrane of Plasmodium chabaudi. The specific antibodies that recognize the erythrocyte membrane-associated antigens, namely PcEMA1 and PcLEMA, are studied. According to sequencing analysis, neither the gene structure nor the predicted properties of these two antigens are completely distinct.

Naturally occurring antibodies devoid of light chains.

Random association of VL and VH repertoires contributes considerably to antibody diversity. The diversity and the affinity are then increased by hypermutation in B cells located in germinal centres. Except in the case of 'heavy chain' disease, naturally occurring heavy-chain antibodies have not been described, although antigen binding has been demonstrated for separated heavy chains or cloned VH domains.

Structure of a Plasmodium chabaudi acidic phosphoprotein that is associated with the host erythrocyte membrane.

We have characterized by molecular cloning and sequencing a Plasmodium chabaudi antigen that is associated with the membrane of the infected erythrocyte throughout the entire intraerythrocytic cycle. The protein (PcEMA1) has a predicted size of 50 kDa and contains a major tandem repeat array of 16 octapeptides that constitutes almost 30% of the protein. At its amino-terminus, PcEMA1 has a string of hydrophobic residues characteristic of a secreted protein, but does not contain a hydrophobic membrane-spanning segment.

Molecular cloning and sequence analysis of the gene encoding the major merozoite surface antigen of Plasmodium chabaudi chabaudi IP-PC1.

The complete nucleotide sequence of the gene encoding the precursor to the major merozoite surface antigens of Plasmodium chabaudi chabaudi strain IP-PC1 has been determined. A single open reading frame was detected, that coded for a protein of 199 kDa. The encoded protein (p199) contains putative signal and membrane anchor sequences and shows a clustering of Cys residues in the last 120 amino acids.