Thioredoxin transmembrane related protein (TMX), a member of thioredoxin superfamily, is localized to the endoplasmic reticulum and possesses a thioredoxin-like domain that plays an important role as an oxidoreductase. The functions of TMX in Clonorchis sinensis remain to be elucidated. In this study, we cloned and characterized a novel TMX of C. sinensis (CsTMX). The CsTMX cDNA sequence contained a 414-nucleotide open-reading frame encoding a protein of 137 amino acids. A thioredoxin domain was found in the position of aa21-117 and contained the putative active-site motif Cys-Pro-Ala-Cys. BLASTx analysis showed that CsTMX shared 39-57% amino acid identities with TMX of other organisms. Quantitative RT-PCR analysis demonstrated that CsTMX was differentially transcribed, with the highest level of expression in the adult worm stage and the lowest expression in egg stage. In addition, immunofluorescence assay showed CsTMX was localized in the tegument, vitelline gland, intestine, and intrauterine eggs of adult worm. Besides, immunoblot assay revealed that the recombinant CsTMX (rCsTMX) could be recognized by the sera from rats infected with C. sinensis and the sera from rats immunized by excretory-secretory products. Furthermore, analysis of the antibody isotype profile revealed that rats subcutaneously immunized with rCsTMX developed rCsTMX-specific antibody, which is dominance of IgG2a in sera. Meanwhile, production of IFN-γ was elevated strongly in the supernatants of spleen cell. The results collectively indicated that CsTMX might play an important role in the host-parasite interaction, as well as CsTMX probably involved in immunoregulation of host by inducing Th1-type dominated immune response in rats.
Clonorchis sinensis triosephosphate isomerase (CsTIM) is a key regulatory enzyme of glycolysis and gluconeogenesis, which catalyzes the interconversion of glyceraldehyde 3-phosphate to dihydroxyacetone phosphate. In this study, the biochemical characterizations of CsTIM have been examined. A full-length complementary DNA (cDNA; Cs105350) sequence encoding CsTIM was obtained from our C. sinensis cDNA library. The open reading frame of CsTIM contains 759 bp which encodes 252 amino acids. The amino acid sequence of CsTIM shares 60-65% identity with other species. Western blot analysis displayed that recombinant CsTIM (rCsTIM) can be probed by anti-rCsTIM rat serum and anti-C. sinensis excretory/secretory products (anti-CsESPs) rat serum. Quantitative reverse transcription (RT)-PCR and western blotting analysis revealed that CsTIM messenger RNA (mRNA) and protein were differentially expressed in development cycle stages of the parasite, including adult worm, metacercaria, excysted metacercaria, and egg. In addition, immunolocalization assay showed that CsTIM was located in the seminal vesicle, eggs, and testicle. Moreover, rCsTIM exhibited active enzyme activity in catalytic reactions. The Michaelis constant (K m) of rCsTIM was 0.33 mM, when using glyceraldehyde 3-phosphate as the substrate. The optimal temperature and pH of CsTIM were 37 °C and 7.5-9.5, respectively. Collectively, these results suggest that CsTIM is an important protein involved in glycometabolism, and CsTIM possibly take part in many biological functions in the growth and development of C. sinensis.
The cytochromes c of fungi and higher plants contain one or two residues of e-N-trimethyllysine, whose biological role is unknown. A cytochrome c-specific Sadenosylmethionine:protein-lysine methyltransferase (methylase) activity was shown to be present in extracts of the bakers' yeast Saccharomyces cerevisiae, and basic kinetic properties of this enzyme are described. The specific activity of the methylase was lower in extracts of cells grown under conditions of catabolite (glucose) repression or anaerobiosis where cytochrome c levels were low, compared with cells grown under derepressed conditions where cytochrome c levels were high. During anaerobic-to-aerobic adaptation, the methylase was induced in parallel with cytochrome c, thus suggestiDng that the syntheses of cytochrome c and cytochrome c methylase are coordinately regulated. None of the cyc strains surveyed (cycl, cyc2, cyc3, cyc4, cyc5, and cyc6) had diminished levels of methylase, although some of them were completely or almost completely deficient in cytochrome c.
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