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Target Concepts:
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Query: UMLS:C0024530 (
malaria
)
44,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Merozoite surface proteins of Plasmodium falciparum are one major group of antigens currently being investigated and tested as
malaria
vaccine candidates. Two recently described P. falciparum merozoite surface antigens, MSP4 and MSP5, are GPI-anchored proteins that each contain a single EGF-like domain and appear to have arisen by an ancient gene duplication event. The genes are found in tandem on chromosome 2 of P. falciparum and the syntenic region of the genome was identified in the rodent malarias P. chabaudi, P. yoelii and P. berghei. In these species, there is only a single gene, designated MSP4/5 encoding a single EGF-like domain similar to the EGF-like domain in both PfMSP4 and PfMSP5. Immunization of mice with PyMSP4/5 provides mice with high levels of protection against lethal challenge with blood stage P. yoelii. In this study, we show that in P. vivax, which is quite phylogenetically distant from P. falciparum, both MSP4 and MSP5 homologues can be found with their relative arrangements with respect to the surrounding genes mostly preserved. However, the gene for MSP2, found between MSP5 and
adenylosuccinate lyase
(
ASL
) in P. falciparum, is absent from P. vivax. The PvMSP4 and PvMSP5 genes have a two-exon structure and encode proteins with potential signal and GPI anchor sequences and a single EGF-like domain near the carboxyl-terminus. Rabbit antisera raised against purified recombinant proteins show that each of the antisera react with distinct proteins of 62 kDa for PvMSP4 and 86 kDa for PvMSP5 in parasite lysates. Indirect immunofluorescence assays (IFA) localized PvMSP4 over the entire surface of P. vivax merozoites, as expected, whereas, the MSP5 homologue was found to be associated with an apical organellar location consistent with micronemes or over the polar prominence.
...
PMID:The Plasmodium vivax homologues of merozoite surface proteins 4 and 5 from Plasmodium falciparum are expressed at different locations in the merozoite. 1189 27
Phylogenetic studies of the genus Plasmodium have been performed using sequences of the nuclear, mitochondrial and plastid genes. Here we have analyzed the
adenylosuccinate lyase
(
ASL
) gene, which encodes an enzyme involved in the salvage of host purines needed by
malaria
parasites for DNA synthesis. The
ASL
gene is present in several eukaryotic as well as prokaryotic organisms and does not have repeat regions, which facilitates the accuracy of the alignment. Furthermore, it has been shown that
ASL
is not subject to positive natural selection. We have sequenced the
ASL
gene of several different Plasmodium species infecting humans, rodents, monkeys and birds and used the obtained sequences along with the previously known P. falciparum
ASL
sequence, for structural and phylogenetic analysis of the genus Plasmodium. The genetic divergence of
ASL
is comparable with that observed in other nuclear genes such as cysteine proteinase, although
ASL
cannot be considered conserved when compared to aldolase or superoxide dismutase, which exhibit a slower rate of evolution. Nevertheless, a protein like
ASL
has a rate of evolution that provides enough information for elucidating evolutionary relationships. We modeled 3D structures of the
ASL
protein based on sequences used in the phylogenetic analysis and obtained a consistent structure for four different species despite the divergence observed. Such models would facilitate alignment in further studies with a greater number of plasmodial species or other Apicomplexa.
...
PMID:Phylogenetic analysis of the genus Plasmodium based on the gene encoding adenylosuccinate lyase. 1279 8
Genetic diversity of Plasmodium falciparum is intimately associated with morbidity, mortality and
malaria
control strategies. It is therefore imperative to study genetic makeup and population structure of this parasite in endemic areas. In Kong Mong Tha, an isolated village in western Thailand, the majority of P. falciparum infections are asymptomatic. In this study we investigated complexity of infections and single nucleotide polymorphisms (SNPs) in the P. falciparum population of Kong Mong Tha, and compared results with those previously obtained from Mae Sod, in northwestern Thailand, where the majority of infections were symptomatic. Using PCR-based determination of the 5' merozoite surface protein 1 gene (msp1) recombinant types, we found that 39% of 59 P. falciparum isolates from Kong Mong Tha had multiple 5' recombinant types with a mean number of 1.54. These values were much lower than those obtained from Mae Sod: 96% for multiple infections and with a mean number of 3.61. Analysis of full-length sequences of two housekeeping genes, the P-type Ca(2+)-transporting ATPase gene (n=33) plus
adenylosuccinate lyase
gene (n=33), and three vaccine candidate antigen genes, msp1 (n=26), the circumsporozoite protein gene, csp (n=30) and the apical membrane antigen 1 gene, ama 1 (n=32), revealed that in all of these genes within-population SNP diversity was at similar levels between Kong Mong Tha and Mae Sod, suggesting that the extent of MOI and clinical manifestations of
malaria
are not strongly associated with genetic diversity. Additionally, we did not detect significant genetic differentiation between the two parasite populations, as estimated by the Wright's fixation index of inter-population variance in allele frequencies, suggesting that gene flow prevented the formation of population structuring. Thus, this study highlights unique features of P. falciparum populations in Thailand. The implications of these finding are discussed.
...
PMID:Plasmodium falciparum: genetic diversity and complexity of infections in an isolated village in western Thailand. 2406 May 40
The dreadful disease
malaria
is one among the infectious diseases that comes in third number after the tuberculosis and HIV. This disease is spread by female Anopheles mosquito and caused by the malarial parasite
sp
notably
Plasmodium falciparum
. In this, the organism has several enzymes for processing the infection and growth mechanism and among that, the
adenylosuccinate lyase
is an enzyme that plays a critical role in metabolism and cellular replication
via
its action in the de novo purine biosynthetic pathway. Adenylosuccinate has been studied for two reaction mechanisms, and in that, the adenylosuccinate to AMP and fumarate is core important. As of now, there have been several studies indicating the reaction mechanism of
adenylosuccinate lyase
, this study projects the conformations of the reactant and product changes through molecular docking and molecular dynamic simulations. Adenylosuccinate bound complex involves His role in the product than the reactant complex, and the complex shows high flexibility due to fumarate. Thus, identifying the core inhibitor that binds to His rings could be a standard
adenylosuccinate lyase
inhibitor, that can block the malarial diseases in humans. In addition to the competitive inhibition site, we also predicted the uncompetitive ligand binding site, which suggest the alternate region to be targeted. Thus, from this work, we suggest both competitive and uncompetitive binding regions for the purpose identifying the malarial inhibitors.
...
PMID:Understanding the structural insights of enzymatic conformations for adenylosuccinate lyase receptor in malarial parasite
Plasmodium falciparum
. 3307 38
