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1. Biochemical properties of a novel cysteine protease of Plasmodium vivax, vivapain-4.

Author

Na, Byoung-Kuk, Bae, Young-An, Zo, Young-Gun, Choe, Youngchool, Kim, Seon-Hee, Desai, Prashant V, Avery, Mitchell A, Craik, Charles S, Kim, Tong-Soo, Rosenthal, Philip J, and Kong, Yoon

Subjects
Cytoplasm, Vacuoles, Plasmodium vivax, Actins, Hemoglobins, Recombinant Proteins, Amino Acid Substitution, Mutagenesis, Site-Directed, Substrate Specificity, Hydrogen-Ion Concentration, Mutant Proteins, Aspartic Acid Endopeptidases, Cysteine Proteases, Tropical Medicine, Biological Sciences, Medical and Health Sciences
Abstract

BackgroundMultiple cysteine proteases of malaria parasites are required for maintenance of parasite metabolic homeostasis and egress from the host erythrocyte. In Plasmodium falciparum these proteases appear to mediate the processing of hemoglobin and aspartic proteases (plasmepsins) in the acidic food vacuole and the hydrolysis of erythrocyte structural proteins at neutral pH. Two cysteine proteases, vivapain (VX)-2 and VX-3 have been characterized in P. vivax, but comprehensive studies of P. vivax cysteine proteases remain elusive.FindingsWe characterized a novel cysteine protease of P. vivax, VX-4, of which orthologs appears to have evolved differentially in primate plasmodia with strong cladistic affinity toward those of rodent Plasmodium. Recombinant VX-4 demonstrated dual substrate specificity depending on the surrounding micro-environmental pH. Its hydrolyzing activity against benzyloxycarbonyl-Leu-Arg-4-methyl-coumaryl-7-amide (Z-Leu-Arg-MCA) and Z-Phe-Arg-MCA was highest at acidic pH (5.5), whereas that against Z-Arg-Arg-MCA was maximal at neutral pH (6.5-7.5). VX-4 preferred positively charged amino acids and Gln at the P1 position, with less strict specificity at P3 and P4. P2 preferences depended on pH (Leu at pH 5.5 and Arg at pH 7.5). Three amino acids that delineate the S2 pocket were substituted in VX-4 compared to VX-2 and VX-3 (Ala90, Gly157 and Glu180). Replacement of Glu180 abolished activity against Z-Arg-Arg-MCA at neutral pH, indicating the importance of this amino acid in the pH-dependent substrate preference. VX-4 was localized in the food vacuoles and cytoplasm of the erythrocytic stage of P. vivax. VX-4 showed maximal activity against actin at neutral pH, and that against P. vivax plasmepsin 4 and hemoglobin was detected at neutral/acidic and acidic pH, respectively.ConclusionVX-4 demonstrates pH-dependent substrate switching, which might offer an efficient mechanism for the specific cleavage of different substrates in different intracellular environments. VX-4 might function as a hemoglobinase in the acidic parasite food vacuole, a maturase of P. vivax plasmepsin 4 at neutral or acidic pH, and a cytoskeleton-degrading protease in the neutral erythrocyte cytosol.

Published
2010

6. Nonradioactive method to study genetic profiles of natural bacterial communities by PCR-single-strand-conformation polymorphism

Author

Lee, Dong-Hun, Zo, Young-Gun, and Kim, Sang-Jong

Subjects
Polymerase chain reaction -- Usage, Bacterial genetics -- Methods, Microbiological assay -- Methods, Biological sciences
Abstract

The combination of polymerase chain reaction (PCR) amplification and single-strand-conformation polymorphism pattern analyses of 16 rRNA genes is an effective method to study bacterial community structures in various aquatic ecosystems. This method can operate without radioactive substrates and long PCR primers possessing GC lamps. The method shows that a bacterial strain produces a characteristic band pattern that is different from the pattern produced by other strains. The method is less time consuming and laborious, and has many advantages over other methods.

Published
1996

11. Modular evolution of glutathione peroxidase genes in association with different biochemical properties of their encoded proteins in invertebrate animals

Author

Zo Young-Gun, Kim Seon-Hee, Cai Guo-Bin, Bae Young-An, and Kong Yoon

Subjects
Evolution, QH359-425
Abstract

Abstract Background Phospholipid hydroperoxide glutathione peroxidases (PHGPx), the most abundant isoforms of GPx families, interfere directly with hydroperoxidation of lipids. Biochemical properties of these proteins vary along with their donor organisms, which has complicated the phylogenetic classification of diverse PHGPx-like proteins. Despite efforts for comprehensive analyses, the evolutionary aspects of GPx genes in invertebrates remain largely unknown. Results We isolated GPx homologs via in silico screening of genomic and/or expressed sequence tag databases of eukaryotic organisms including protostomian species. Genes showing strong similarity to the mammalian PHGPx genes were commonly found in all genomes examined. GPx3- and GPx7-like genes were additionally detected from nematodes and platyhelminths, respectively. The overall distribution of the PHGPx-like proteins with different biochemical properties was biased across taxa; selenium- and glutathione (GSH)-dependent proteins were exclusively detected in platyhelminth and deuterostomian species, whereas selenium-independent and thioredoxin (Trx)-dependent enzymes were isolated in the other taxa. In comparison of genomic organization, the GSH-dependent PHGPx genes showed a conserved architectural pattern, while their Trx-dependent counterparts displayed complex exon-intron structures. A codon for the resolving Cys engaged in reductant binding was found to be substituted in a series of genes. Selection pressure to maintain the selenocysteine codon in GSH-dependent genes also appeared to be relaxed during their evolution. With the dichotomized fashion in genomic organizations, a highly polytomic topology of their phylogenetic trees implied that the GPx genes have multiple evolutionary intermediate forms. Conclusion Comparative analysis of invertebrate GPx genes provides informative evidence to support the modular pathways of GPx evolution, which have been accompanied with sporadic expansion/deletion and exon-intron remodeling. The differentiated enzymatic properties might be acquired by the evolutionary relaxation of selection pressure and/or biochemical adaptation to the acting environments. Our present study would be beneficial to get detailed insights into the complex GPx evolution, and to understand the molecular basis of the specialized physiological implications of this antioxidant system in their respective donor organisms.

Published
2009
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18. PHYLOGENOMIC AND STRUCTURAL ANALYSES OF VIBRIO CHOLERAE POPULATIONS AND ENDEMIC CHOLERA

Author

Zo, Young-Gun and Zo, Young-Gun

Abstract

Cholera is a serious public health problem because of the high burden of morbidity. Recurrent pandemic cholera is sustained by an endemic epicenter in the Bay of Bengal region but the mechanism of endemism is not clearly understood. Recent information showing that the dynamics and seasonality of endemic cholera are linked with environmental parameters led to the hypothesis that the population dynamics of V. cholerae, the causative agent of cholera indigenous in natural aquatic environments, is the link causing variation in endemic cholera. To substantiate this hypothesis, the structure and dynamics of V. cholerae populations in the aquatic environments were investigated, employing three approaches. First, the phylogeny of the family Vibrionaceae was analyzed to determine the phylogenetic boundary of V. cholerae. Phylogeny analysis using comparative genomics revealed that the species, V. cholerae, is a direct descendant of a common ancestor of the genus, with at least 25% of its genome subject to horizontal gene transfer from other vibrios. The second approach was analysis of the population structure of V. cholerae using genomic fingerprinting, with the conclusion that there is a multilayered clonality and paraphyla within the species, with a subvar branch, V. mimicus. It was also concluded that all of the epidemic lineages of V. cholerae are highly clonal, forming a tight phylogenetic compartment. The nonpathogenic clones were found to be highly diverse and some showed significant association with fluctuations observed in the potential-host crustacean zooplankton compositions. Finally, analyses of both the dynamics and compartmentalization of V. cholerae populations during endemic cholera outbreaks yielded a compartmentalized understanding of the mechanism of endemic cholera, namely that there are bodies of water in a cholera endemic area that serve as a reservoir of the bacterium and, therefore, a point source for the seasonal spread of cholera bacteria. The nature

Published
2005

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