Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0024530 (malaria)
44,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously showed that the Uganda Palo Alto line of Plasmodium falciparum propagated in Saimiri monkeys and the line maintained in culture in human erythrocytes for many years in our laboratory are genetically unrelated (T. Fandeur, S. Bonnefoy, and O. Mercereau-Puijalon, Mol. Biochem. Parasitol. 47:167, 1991). When injected into a splenectomized Saimiri monkey, the in vitro-derived Palo Alto population procured a long-lasting, low-grade parasitemia that was spontaneously resolved by the animal. This line was propagated by serial blood transfers in two other monkeys without enhancement of the virulence of the parasites. The genetic characteristics of parasite samples corresponding to the different passages of the line in monkeys were stable for the several markers examined (pPF11.1, MSA1, and MSA2), although microheterogeneity was detected in telomeric and subtelomeric regions of chromosomes. Interestingly, in vitro-derived Palo Alto parasites induced a strong, potent immunity that enabled the monkeys to completely block subsequent challenge with two different heterologous lethal P. falciparum lines. These attenuated parasites are thus genetically stable in monkeys and represent an attractive model for assessing the feasibility of a live attenuated malaria vaccine.
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PMID:Protection of squirrel monkeys against virulent Plasmodium falciparum infections by use of attenuated parasites. 134 60

Molecular genetic studies of the human malaria parasite Plasmodium falciparum have been hampered in part due to difficulties in stably cloning and propagating parasite genomic DNA in bacteria. This is thought to be a result of the unusual A+T bias (>80%) in the parasite's DNA. Pulsed-field gel electrophoretic separation of P. falciparum chromosomes has shown that large chromosomal polymorphisms, resulting from the deletion of DNA from chromosome ends, frequently occur. Understanding the biological implications of this chromosomal polymorphism will require the analysis of large regions of genomic, and in particular telomeric, DNA. To overcome the limitations of cloning parasite DNA in bacteria, we have cloned genomic DNA from the P. falciparum strain FCR3 in yeast as artificial chromosomes. A pYAC4 library with an average insert size of approximately 100 kb was established and found to have a three to fourfold redundancy for single-copy genes. Unlike bacterial hosts, yeast stably maintain and propagate large tracts of parasite DNA. Long-range restriction enzyme mapping of YAC clones demonstrates that the cloned DNA is contiguous and identical to the native parasite genomic DNA. Since the telomeric ends of chromosomes are underrepresented in YAC libraries, we have enriched for these sequences by cloning P. falciparum telomeric DNA fragments (from 40 to 130 kb) as YACs by complementation in yeast.
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PMID:Characterization of yeast artificial chromosomes from Plasmodium falciparum: construction of a stable, representative library and cloning of telomeric DNA fragments. 142 49

The significant morbidity and mortality associated with Plasmodium falciparum malaria results, in part, from the sequestration of parasitized erythrocytes in postcapillary venules, which may protect the parasite from splenic clearance and contribute to the pathogenesis of cerebral malaria. This sequestration has been linked to the expression of parasite-induced knob structures on the surface of the infected erythrocyte which mediate the cytoadherence phenomenon. While knobs are necessary for cytoadherence, they are not sufficient, requiring both parasite- and host-encoded proteins. Spontaneous mutants of P. falciparum have been isolated from in vitro cultures which lack the ability to express knobs and fail to cytoadhere. A histidine-rich protein has been described which is associated with the knobby phenotype and may be a constituent of the knob. We now report the isolation of complementary DNA clones for a knob-associated histidine-rich protein (KAHRP) and demonstrate that in knobless mutants the gene for this protein has undergone a rearrangement, resulting in a deletion in the 3' coding sequence. Moreover, the chromosome to which the KAHRP gene maps is rearranged in these mutants, producing a telomeric location of the truncated gene. These observations explain the loss of expression of the messenger RNA and protein in such mutants and may explain the loss of the knob itself. The implications for the generation of spontaneous mutations in the parasite by this novel mechanism are discussed.
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PMID:A chromosomal rearrangement in a P. falciparum histidine-rich protein gene is associated with the knobless phenotype. 301 53

The telomeric sequence cloned from Plasmodium berghei (see M. Ponzi et al. (1985) EMBO J. 4, 2991-2995) was tested for species specificity. A telomeric and a subtelomeric fragment of the cloned insert served as separate, labelled probes on pulsed field gradient electrophoretical patterns and on genomic digests from the rodent malarias Plasmodium yoelii, Plasmodium chabaudi and from the human malaria Plasmodium falciparum. Results indicate that the subtelomeric fragment, abundantly represented in two chromosomes of P. berghei, is not present in the other DNA tested, while the telomeric fragment is present in every chromosome-sized molecule in all the species tested. The telomeric location in the other genomes of the sequences homologous to the P. berghei telomeric probe is confirmed by experiments with Bal 31 exonuclease. In all cases, the TaqI site appears to delimit the common telomeric portion.
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PMID:Homologous telomeric sequences are present in different species of the genus Plasmodium. 302

Sequences related to those near chromosome telomeres in the human malaria parasite, Plasmodium falciparum, were extremely unstable during a genetic cross between two different clonal genotypes. Many progeny of the heterologous cross displayed telomere-homologous restriction fragments found in neither parent. A significant number of the new fragments resulted from rearrangements at chromosome-internal locations which were bounded by more complex tracts of DNA sequence. The same instability was not seen to arise during an inbreeding cross, nor during mitotic replication of parasites. Thus, a form of genetic hypervariability results from molecular events which occur during meiotic reduction and is apparent only in a cross between heterologous strains of parasite. Since other sequences were entirely stable under the same conditions, it appears that chromosome-internal blocks of telomeric sequences in the P. falciparum genome may designate conditionally unstable chromosomal domains. We discuss some potential implications of these findings for the population biology of P. falciparum.
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PMID:Genetic hypervariability of telomere-related sequences is associated with meiosis in Plasmodium falciparum. 304 76

The human malaria parasite P. falciparum exhibits extensive strain-dependent chromosomal polymorphisms that have been implicated in the generation of antigenic variability in this organism. These polymorphisms can result in large deletions in chromosomes as determined by pulsed-field gradient gel electrophoresis. We have investigated the molecular basis for extensive deletions in chromosomes 2 and 8 in multiple geographic isolates of this parasite that result in the loss of expression of well-characterized parasite antigens. The structure of these polymorphic chromosomes reveal that a mechanism of chromosome breakage and healing by the addition of telomeric repeats most plausibly accounts for these karyotypes. Furthermore, the orientation of these gene fragments on their truncated chromosomes reveal that the healed chromosome originally associated with centromeric elements is mitotically stable and maintained. A model for the possible role of this mechanism in the complex parasite life-cycle is discussed.
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PMID:Large deletions result from breakage and healing of P. falciparum chromosomes. 305 22

A telomeric DNA fragment that was cloned from Plasmodium berghei was used to detect the genomic DNA of P. falciparum, P. vivax, P. malariae, and P. ovale. The fragment hybridized to the DNA of all four of these human Plasmodium species and can be used as an interspecific probe to detect human malaria.
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PMID:Detection of all human Plasmodium species by a telomeric DNA fragment cloned from Plasmodium berghei. 326 14

The human malaria parasite Plasmodium falciparum exhibits a high degree of chromosomal polymorphism, which may contribute to its ability to evade host defenses. The analysis of parasite chromosomes has revealed that these polymorphisms are confined to the subtelomeric regions, which are transcriptionally silent and contain repetitive sequence elements. Several subtelomeric repetitive elements have been isolated and mapped by using P. falciparum yeast artificial chromosome (YAC) clones. Structural analysis of parasite telomeric and subtelomeric YAC clones demonstrated that these repetitive elements are conserved between P. falciparum chromosome ends. We suggest that these subtelomeric elements promote chromosome pairing in P. falciparum and facilitate meiotic recombination and gene conversion between telomere-proximal genes.
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PMID:The polymorphic subtelomeric regions of Plasmodium falciparum chromosomes contain arrays of repetitive sequence elements. 829 May 73

Plasmodium falciparum var genes encode a diverse family of proteins, located on the surfaces of infected erythrocytes, which are implicated in the pathology of human malaria through antigenic variation and adhesion of infected erythrocytes to the microvasculature. We have constructed a complete representative telomere-to-telomere yeast artificial chromosome (YAC) contig map of the P. falciparum chromosome 8 for studies on the chromosomal organization, distribution, and expression of var genes. Three var gene loci were identified on chromosome 8, two of which map close to the telomeres at either end of the chromosome. Analysis of the previously described chromosome 2 contig map and random P. falciparum telomeric YAC clones revealed that most, if not all, 14 P. falciparum chromosomes contain var genes in a subtelomeric location. Mapping the chromosomal location of var genes expressed in a long-term culture of the P. falciparum isolate Dd2 revealed that four of the five different expressed var genes identified map within subtelomeric locations. Expression of var genes from a chromosomal domain known for frequent rearrangements has important implications for the mechanism of var gene switching and the generation of novel antigenic and adhesive phenotypes.
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PMID:Expression of var genes located within polymorphic subtelomeric domains of Plasmodium falciparum chromosomes. 919 1

Here we describe the construction of a representative YAC library for the human malarial parasite Plasmodium vivax. As P. vivax cannot be maintained continuously under laboratory conditions, the P. vivax DNA necessary for the library construction was isolated from a single human patient presenting himself with vivax malaria to a local hospital in the Brazilian Amazon. Thus, this YAC library is the first of its kind to be generated from patient-derived material. The YAC library consists of 560 clones with an average insert size of 180 kb. Of 9 published P. vivax genes, 8 were found to be present in the library. In addition, 12 P. vivax telomeric YAC clones were identified.
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PMID:Construction and characterization of a Plasmodium vivax genomic library in yeast artificial chromosomes. 920 19


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