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Query: UNIPROT:P06889 (Mol)
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A method using DNA fingerprinting to distinguish Plasmodium falciparum isolates has been developed using a clone, 7H8/6, isolated by screening a genomic expression library of the Malayan Camp strain with a monoclonal antibody. Unlike other P. falciparum DNA probes that contain internally repetitive sequences, this probe contains a single full-length open reading frame and lacks any repetitive sequences. Chromosome mapping located the hybridizing sequences to most chromosomes. 7H8/6 sequences are located at sites near the subtelomeric regions, although they are further from the telomeres than the subtelomeric repetitive sequences rep20. The probe gave multiple polymorphic bands on Southern blots of genomic DNA allowing all unrelated isolates tested to be readily distinguished. Hybridization patterns of parent and progeny from the genetic cross of two P. falciparum clones showed that most bands were inherited independently and no new bands were generated during the cross. This probe is useful for distinguishing isolates of P. falciparum and also for analyzing relationships between closely related isolates.
Mol Biochem Parasitol 1991 Aug
PMID:7H8/6, a multicopy DNA probe for distinguishing isolates of Plasmodium falciparum. 168 7

cDNA clones encoding 473 amino acids of the knob-associated histidine-rich protein (PfHRPI) of Plasmodium falciparum clone FCR-3/A2 (Gambia) have been isolated and sequenced. Although a short region close to the amino terminus of the predicted sequence contains three blocks of six, seven or nine consecutive histidine residues, the most abundant amino acid is lysine. The predicted sequence contains a putative amino-terminal signal sequence and two potential asparagine glycosylation sites. A 1284 bp Sau3A cDNA fragment was expressed in Escherichia coli as a fusion protein that was recognized by an anti-PfHRPI monoclonal antibody. Pulsed field gradient electrophoresis indicated that the PfHRPI gene is located on chromosome 2. The PfHRPI gene was present, apparently intact, in knobless parasites derived from one uncloned P. falciparum isolate (St. Lucia). In a knobless derivative of another uncloned isolate (Malayan Camp) and in a cloned knobless line (FCR-3/D4) of a third isolate (Gambian), that part of the gene covered by the cDNA clone has been deleted. Loss of PfHRPI expression may therefore arise via several different mechanisms of gene alteration.
Mol Biochem Parasitol 1987 Nov
PMID:Structure and expression of the knob-associated histidine-rich protein of Plasmodium falciparum. 244 20

Schizonts of the malaria parasite Plasmodium falciparum synthesize a 195 kDa surface glycoprotein (gp195) that is processed into several smaller products including one of 83 kDa, which, in the case of the Camp strain, is sequentially processed into 73 and 67 kDa products. gp195 and its processing intermediates larger than 83 kDa were not precipitated from culture supernates, but the 83 and 73 kDa products were precipitated by three monoclonal antibodies (McAbs). The 83 and 73 kDa products were affinity purified from culture supernates by adsorbing to McAb 7B2 coupled to Affigel 10 and eluting either with 0.2 N acetic acid, pH 2.8, or with 3 M potassium isothiocyanate (KSCN). The epitope recognized by McAb 7B2 was denatured by acid elution but could be regenerated by treating with 8 M urea followed by dialysis. The implications of renaturing antigens to regenerate epitopes should be considered in studies on the purification, function and immunogenicity of malaria antigens.
Mol Biochem Parasitol 1987 Nov
PMID:Characterization of gp195 processed products purified from Plasmodium falciparum culture supernates. 244 21

A Plasmodium falciparum (FCR3 strain) lambda gt11 cDNA expression library was constructed from trophozoite and schizont poly(A) RNA and was screened immunologically with a pooled human immune serum from Nigeria to form a gene bank of 288 positive clones. The gene bank was subsequently screened with parasite inhibitory mouse monoclonal antibodies (mMAb) and with individual human Liberian sera. Two mMAb, 43E5 and 5H10, strongly reacted with 8 and 3 cDNA clones, respectively. Several of those clones also weakly cross-reacted with the other mMAb. Two of those weakly cross-reactive clones, cDNA#366 and cDNA#22, were shown to be located in different chromosomal regions of the parasite by Southern hybridization and so appeared to represent two different parasite genes. The genomic organization of both cDNA#366 and cDNA#22 sequences were identical in the FCR3 and the Honduras-1 strain. The nucleotide sequence of cDNA#366 and the amino acid sequence it coded for were homologous to a partial DNA and amino acid sequence previously reported for a P. falciparum (Camp strain) exoantigen designated p126. The mRNA for cDNA#366 appeared to represent an abundant message in blood stage trophozoites and schizonts.
Mol Biochem Parasitol 1988 Jul
PMID:Characterization of antigen-expressing Plasmodium falciparum cDNA clones that are reactive with parasite inhibitory antibodies. 245 65

Invasion of erythrocytes by malaria merozoites requires the formation of a junction of attachment between erythrocyte and merozoite membranes. The attachment junction initially forms at the apical region of the merozoite. It then moves around to the posterior of the merozoite as invasion proceeds. A monoclonal antibody against a 60-kDa merozoite protein (termed MCP-1 for merozoite capping protein 1) of Plasmodium falciparum reacts in an immunofluorescence pattern resembling the moving junction. By two-color immunofluorescence, MCP-1 was located at the attachment site formed between the merozoite apical region and erythrocyte. During invasion, MCP-1 separated and migrated around merozoites at the orifice of the parasitophorous vacuole. In newly-invaded erythrocytes, MCP-1 persisted at the pole of the young parasite nearest the erythrocyte membrane, suggesting its anterior-to-posterior movement. MCP-1 exhibited no variability in molecular mass among the FCR-3, Camp and 7G8 strains of P. falciparum, and the epitope was invariant in the P. falciparum strains studied. We conclude that MCP-1 may participate in merozoite invasion of erythrocytes by facilitating attachment or movement of the junction along the parasite cytoskeletal network.
Mol Biochem Parasitol 1989 Sep
PMID:A 60-kDa Plasmodium falciparum protein at the moving junction formed between merozoite and erythrocyte during invasion. 267 26

An interspersed repetitive DNA element from the Camp strain of the human malaria parasite Plasmodium falciparum was cloned and sequenced. The element is repeated at least 11 times in the genome, is a minimum of 2.0 kilobases long and maps to eight or more different parasite chromosomes. The cloned DNA includes a 1.0 kilobase open reading frame. RNA complementary to the repetitive element is found within blood stage forms of the parasite, but only in the most mature forms. Searches of DNA and protein sequence databases for homology to the element were unsuccessful. Sizes of restriction enzyme fragments which hybridize to the element show considerable variation between strains, indicating that the repeat family represented by this element could be transposable.
Mol Biochem Parasitol 1988 Jun
PMID:Interspersed repetitive DNA from Plasmodium falciparum. 284 73

DNA encoding an antigen of 101,000 apparent molecular weight from the human malaria parasite Plasmodium falciparum was cloned and sequenced. Genomic DNA from the Camp strain covering the complete coding region along with cDNA from the FCR3 strain covering 81% of the coding region were obtained. The cloned DNA specified a full-length protein of 743 amino acids which included two tandemly repeated regions, one near the amino terminus containing eight hexapeptide repeats of sequence TVNDEDED, and the second near the carboxyl terminus containing primarily KE and KEE repeats. The latter repeated region is encoded by a 174-base stretch of mRNA containing only a single pyrimidine. Except for a putative leader sequence located at the amino terminus of the protein, the protein is hydrophilic and highly charged with a calculated isoelectric point of 5.6. Sequences from the Camp and FCR3 strains are very close and are also nearly identical to the partial cDNA sequence of the acidic basic repeated antigen (ABRA) protein from the FC27 strain (Stahl, H.D., Bianco, A.E., Crewther, R.F., Anders, R.F., Kyne, A.P., Coppel, R. L., Mitchell, G.F., Kemp, D.J., and Brown, G.V. (1986) Mol. Biol. Med. 3, 351-368). ABRA was previously shown to be located at the merozoite surface and in the parasitophorous vacuole. Because of its location and because it becomes complexed to merozoites when schizonts rupture in the presence of immune serum, ABRA is a candidate component of a malaria vaccine.
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PMID:Primary structure of a Plasmodium falciparum malaria antigen located at the merozoite surface and within the parasitophorous vacuole. 304 68

Erythrocytes infected with Plasmodium falciparum develop knob-like protrusions on their membranes. Knobby (K+) parasites of the FCR-3 (Gambian) strain have been shown to possess a histidine-labelled protein of apparent molecular weight 80 000 which is absent from knobless (K-) variants of the same strain. Here we report similar findings with K+ and K- parasites of another strain, the Malayan Camp strain, and also with cloned K+ and K- parasites of the FCR-3 strain. A histidine-labelled protein unique to the two K+ parasites was identified as a broad band with an apparent molecular weight of 89 000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The presence of this protein in both K+ Malayan Camp parasites and K+ FCR-3 (Gambian) parasites and its absence from K- parasites of both strains is consistent with this protein being a major component of knobs.
Mol Biochem Parasitol 1983 Nov
PMID:A comparison of knobby (K+) and knobless (K-) parasites from two strains of Plasmodium falciparum. 637 24

EBA-175, erythrocyte binding antigen 175, is a 175-kDa antigen of Plasmodium falciparum which has been shown to be involved in the recognition of erythrocytes by merozoites and may be involved in the process of erythrocyte invasion. Invasion of erythrocytes by Camp strain merozoites is inhibited by pre-treatment of red blood cells by EBA-175 from the heterologous strain, FCR-3. The sequence of the Camp strain has been published and we report here the sequence of the FCR-3 strain. The sequences are nearly identical except for a 423-bp segment in the FCR-3 strain, F-segment, that is not found in the Camp strain and a 342-bp segment, C-segment, present in the Camp strain but not in the FCR-3 strain. The locations of these two segments are different in Camp and FCR-3 EBA-175 genes and there is little DNA or amino acid sequence homology between them. The essentially dimorphic alleles, F-segment and C-segment, are conserved in all isolates examined to date. Evidence of genetic cross-over between the FCR-3 and the Camp EBA-175 genes was not observed in the analysis of a limited number of wild isolates. The continued study of the biological relevance of these sequence divergences in EBA-175 may further elucidate the sequence of events resulting in merozoite invasion of erythrocytes.
Mol Biochem Parasitol 1993 Jul
PMID:Two alleles of the 175-kilodalton Plasmodium falciparum erythrocyte binding antigen. 836 84

The rat monoclonal antibody, mAb 12C11, reacts with numerous proteins from mature asexual stages of Plasmodium falciparum. The largest is 315 kDa and is designated PfEMP3. A lambda gt11 expression library, generated from genomic DNA of Malayan Camp strain parasites, was screened with mAb 12C11. One positive clone, lambda 12.1.3, contained a 1.4-kb fragment in frame with the beta-galactosidase gene of lambda gt11. The deduced 455-amino acid sequence is a novel, highly charged sequence encoding two 15-amino acid repeats at the N-terminus followed by 27 repeats of 13 amino acids. The last 59 C-terminal residues are non-repetitive. Two in-frame stop codons at the 3' end of the DNA suggests that this DNA fragment encodes the C-terminus of the protein. Southern blotting with the cloned fragment identified two copies of this fragment per haploid genome in knob-positive, parasitized erythrocytes (K+PE). Both DNA fragments are absent from K - PE. Northern blotting of trophozoite-stage PE total RNA revealed mRNAs of 10, 4.4 and 2 kb in K+PE, but no hybridization with K - PE. Immune sera were elicited against the lambda 12.1.3 beta-galactosidase fusion protein and peptides generated from the predicted lambda 12.1.3 amino acid sequence. These sera and mAb 12C11 reacted specifically with PfEMP3 in Western blots of mature K+PE but not with K - PE. Rat and mouse sera against the recombinant protein produced an immunofluorescence pattern in fixed mature K+PE almost identical to the pattern produced by a monoclonal antibody against the knob-associated protein, Histidine Rich Protein 1. The same antibodies were immunofluorescence negative with fixed K - PE. Mouse antibodies against the recombinant protein reacted on immunoelectron microscopy with the erythrocyte membrane of K+PE, labeling knobs as well as the membrane between knobs. In contrast, a mAb against Histidine Rich Protein 1 reacted only under the electron dense material of knobs. We conclude that the lambda 12.1.3 clone encodes the C-terminal portion of the 315 kD PfEMP3 antigen and that PfEMP3 may be involved in knob formation or other perturbations of the erythrocyte membrane.
Mol Biochem Parasitol 1993 May
PMID:Cloning and characterization of a Plasmodium falciparum gene encoding a novel high-molecular weight host membrane-associated protein, PfEMP3. 851 84


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