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Query: UNIPROT:P06889 (Mol)
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Bradyrhizobium sp. (Parasponia) strain ANU289 expresses a single Mn-SOD in both the vegetative and symbiotic states. A 500 bp sod-homologous sequence was amplified from genomic DNA of strain ANU289 using PCR. A 1.3 kb SalI fragment was subsequently cloned which contained an ORF, sodA, encoding a 23 Kd protein. This putative SOD shares considerable homology with other Mn-SODs and analysis of the sodA sequence predicts that it is expressed. A lacZ-sodA fusion complemented the SOD-deficiency of E. coli QC779 and resulted in the expression of SOD activity in both mutant and wild type E. coli. We conclude that sodA encodes the Mn-SOD of strain ANU289.
Biochem Mol Biol Int 1995 Oct
PMID:The isolation and characterisation of a gene encoding superoxide dismutase from Bradyrhizobium sp. (Parasponia) strain ANU289. 859 79

A 1.6-kb DNA region required for the replication of pSW500 from Erwinia stewartii SW2 has been identified. DNA sequencing analysis revealed that this DNA fragment consists of a DnaA box, seven 16-bp direct repeats, and a 1005-bp open reading frame. The seven direct repeats have been demonstrated to mediate the incompatibility function of the plasmid. Primer extension analysis showed that the 1005-bp ORF is transcribed in vivo and the +1 site of the transcript is located 113 bp upstream from the translation initiation codon of the ORF. Complementation studies showed that this ORF is required for the replication of the plasmid and may encode a replication protein, RepA. Gene fusion studies revealed that the expression of repA is autoregulated by RepA. We also found that the pSW500 replicon has a copy number of approximately two and that the plasmid is stably maintained in Escherichia coli, thus demonstrating that the replicon contains all the elements required for copy number control and plasmid stability in E. coli. Curing of pSW500 from E. stewartii SW2 revealed that loss of pSW500 did not have any obvious effect on morphology or physiology of the cells, suggesting that pSW500 does not encode a function that is indispensable for the survival of the organism.
Mol Gen Genet 1996 Apr 10
PMID:Characterization of the replicon of plasmid pSW500 of Erwinia stewartii. 862 30

The homodimeric flavoenzyme glutathione reductase (GR) which catalyzes the reduction of glutathione disulfide is a cornerstone of the malaria parasite antioxidant defense and repair mechanisms. Here we report on the identification of the GR gene from Plasmodium falciparum. A 1.4-kb fragment of the gene was amplified by polymerase chain reaction (PCR). Using this PCR fragment as a probe a full length cDNA clone (2085 bp) was isolated from a P. falciparum gametocyte library. The deduced amino acid sequence of 541 residues shows an overall identity of 35% when compared to the human enzyme. Most amino acids of known function are identical. However, notable differences between human and parasite protein occur in the glutathione-binding pocket (for instance, Glu374 instead of the expected basic residue) and at the intersubunit contact area. These regions are of particular interest since they represent binding sites of known GR inhibitors. Consequently, parasite GR can serve as a target structure for the design of antimalarial drugs.
Mol Biochem Parasitol 1995 Oct
PMID:Plasmodium falciparum glutathione reductase exhibits sequence similarities with the human host enzyme in the core structure but differs at the ligand-binding sites. 871 41

We report the design of a cyclic, eight-residue peptide that possesses the catalytic triad residues of the serine proteases. A manually built model has been relaxed by 0.3 ns of molecular dynamics simulation at room temperature, during which no major changes occurred in the peptide. The molecule has been synthesised and purified. Two-dimensional NMR spectroscopy provided 35 distance and 7 torsion angle constraints, which were used to determine the three-dimensional structure. The experimental conformation agrees with the predicted one at the beta-turn, but deviates in the arrangement of the disulphide bridge that closes the backbone to a ring. A 1.2 ns simulation at 600 K provided extended sampling of conformation space. The disulphide bridge reoriented into the experimental arrangement, producing a minimum backbone rmsd from the experimental conformation of 0.8 A. At a later stage in the simulation, a transition at Ser3 produced more pronounced high-temperature behaviour. The peptide hydrolyses p-nitrophenyl acetate about nine times faster than free histidine.
J Comput Aided Mol Des 1996 Feb
PMID:Structure of a cyclic peptide with a catalytic triad, determined by computer simulation and NMR spectroscopy. 878 11

In this paper we report the isolation and the characterization of a gene encoding the antioxidant enzyme glutathione peroxidase from the human malaria parasite Plasmodium falciparum. This gene contains two introns of 208 and 168 bp and is present in a single copy on chromosome 13. The open reading frame encodes a protein with a predicted length of 205 amino acids, which possesses a potential cleavage site between residues 21 and 22 after a hydrophobic region with the characteristics of a signal sequence. Therefore, the mature protein is predicted to be 184 residues long with a molecular mass of 21404 Da. In comparison with other known glutathione peroxidases many amino acid residues implicated in catalysis are conserved in the malarial enzyme. Phylogenetic analysis indicates that the deduced protein sequence is more closely related to plant glutathione peroxidase and phospholipid hydroperoxide glutathione peroxidase. A 1.5-kb transcript was identified in asynchronous erythrocytic stages.
Mol Biochem Parasitol 1996 Jun
PMID:Molecular characterization of the glutathione peroxidase gene of the human malaria parasite Plasmodium falciparum. 881 93

Plasmid pAL618 contains the genetic determinants for H2 uptake (hup) from Rhizobium leguminosarum bv. viciae, including a cluster of 17 genes named hupSLCDEFGHIJK-hypABFCDE. A 1.7-kb segment of insert DNA located downstream of hypE has now been sequenced, thus completing the sequence of the 20441-bp insert DNA in plasmid pAL618. An open reading frame (designated hypX) encoding a protein with a calculated M(r) of 62300 that exhibits extensive sequence similarity with HoxX from Alcaligenes eutrophus (52% identity) and Bradyrhizobium japonicum (57% identity) was identified 10 bp downstream of hypE. Nodule bacteroids produced by hypX mutants in pea (Pisum sativum L.) plants grown at optimal nickel concentrations (100 microM) for hydrogenase expression, exhibited less than 5% of the wild-type levels of hydrogenase activity. These bacteroids contained wild-type levels of mRNA from hydrogenase structural genes (hupSL) but accumulated large amounts of the immature form of HupL protein. The Hup-deficient mutants were complemented for normal hydrogenase activity and nickel-dependent maturation of HupL by a hypX gene provided in trans. From expression analysis of hypX-lacZ fusion genes, it appears that hypX gene is transcribed from the FnrN-dependent hyp promoter, thus placing hypX in the hyp operon (hypBFCDEX). Comparisons of the HypX/HoxX sequences with those in databases provided unexpected insights into their function in hydrogenase synthesis. Similarities were restricted to two distinct regions in the HypX/HoxX sequences. Region I, corresponding to a sequence conserved in N10-formyltetrahydrofolate-dependent enzymes involved in transferring one-carbon units (C1), was located in the N-terminal half of the protein, whereas region II, corresponding to a sequence conserved in enzymes of the enoyl-CoA hydratase/isomerase family, was located in the C-terminal half. These similarities strongly suggest that HypX/HoxX have dual functions: binding of the C1 donor N10-formyltetrahydrofolate and transfer of the C1 to an unknown substrate, and catalysis of a reaction involving polarization of the C = O bond of an X-CO-SCoA substrate. These results also suggest the involvement of a small organic molecule, possibly synthesized with the participation of an X-CO-SCoA precursor and of formyl groups, in the synthesis of the metal-containing active centre of hydrogenase.
Mol Gen Genet 1996 Sep 13
PMID:The hydrogenase gene cluster of Rhizobium leguminosarum bv. viciae contains an additional gene (hypX), which encodes a protein with sequence similarity to the N10-formyltetrahydrofolate-dependent enzyme family and is required for nickel-dependent hydrogenase processing and activity. 884 43

Early trypsin is a female-specific protease present in the Aedes aegypti midgut during the first hours after ingestion of a blood meal. It plays an essential role in the transcriptional activation of the late trypsin form, the major midgut endoprotease involved in the blood meal digestion. Early trypsin is the most abundant midgut polypeptide isolated by benzamidine-sepharose affinity chromatography 3 h after feeding. The amino-terminal sequence of the early trypsin protein matches that of the 3a1 cDNA for a putative trypsinogen described by Kalhok et al. (Insect. Molec. Biol., 2, 71-79, 1993). The early trypsin cDNA was over expressed in Escherichia coli. Polyclonal antibodies generated against this recombinant protein were used to show that the enzyme was present in the midgut during the first 4 h after feeding. A 2.5 kb genomic clone of the early trypsin was isolated, mapped and subcloned. A 1.56 kb subclone, corresponding to 1303 bp of the upstream regulatory region and 265 bp of the coding region, was sequenced. The gene contains a 64 nucleotide intron which interrupts the codon for Val at position 18 of the protein. This Val is located toward the end of the putative signal sequence of the protein.
Insect Biochem Mol Biol 1996 Feb
PMID:Early trypsin, a female-specific midgut protease in Aedes aegypti: isolation, aminoterminal sequence determination, and cloning and sequencing of the gene. 888 54

Shigella flexneri grown to stationary phase has the ability to survive for several hours at pH 2.5. This acid resistance, which may contribute to the low infective dose associated with shigellosis, is dependent upon the expression of the stationary-phase-specific sigma factor sigma S. Using random TnphoA and TnlacZ mutagenesis we isolated five acid-sensitive mutants of S. flexneri, which had lost their ability to survive at pH 2.5 for 2 h in vitro. Each transposon insertion with flanking S. flexneri DNA was cloned and sequenced. Database searches indicated that two TnlacZ mutants had an insertion within the hdeA gene, which is the first gene in the hdeAB operon. Acid resistance was restored in one of these mutants by a plasmid carrying the entire hdeAB operon. Further sequence analysis from the remaining TnlacZ and two TnphoA mutants demonstrated that they all had insertions within a previously unidentified open reading frame (ORF), which is directly downstream from the gadB gene. This putative ORF encodes a protein that has homology to a number of inner membrane amino acid antiporters. A 1.8 kb polymerase chain reaction (PCR) product containing this gene was cloned, which was able to restore acid resistance in each mutant. These fusions were induced during entry into late exponential phase and were positively regulated by RpoS. We confirmed that the expression of the acid-resistance phenotype in acidified minimal media was dependent upon the supplementation of glutamic acid and that this glutamate-dependent system was RpoS regulated. Southern hybridization revealed that both the gadC and hdeAB loci are absent in Salmonella. An rpoS deletion mutant of S. flexneri was also constructed to confirm the important role played by this gene in acid resistance. This rpoS- derivative was extremely acid sensitive. Two-dimensional gel electrophoresis of this mutant revealed that it no longer expressed 27 proteins in late log phase that were present in its isogenic parent. These data indicate that the expression of acid resistance in S. flexneri may be multifactorial and involve proteins located at different subcellular locations.
Mol Microbiol 1996 Sep
PMID:Identification of sigma S-dependent genes associated with the stationary-phase acid-resistance phenotype of Shigella flexneri. 888 64

Genes for subunits of respiratory chain complex I are found in mitochondrial, plastid and/or nuclear genomes with varying distributions in the diverse eukaryotic species. The intrinsic PSST subunit of complex I is a mitochondrially encoded protein in Paramecium but is specified by a nuclear gene in animals. In plants to date only the homologous plastid encoded NDH-K gene product has been described. The analogous plant mitochondrial protein is now identified as the 22 kDa complex I subunit and found to be encoded in the nuclear genome of Arabidopsis and potato. The cDNA sequences of clones isolated from both plants are 79% identical in the conserved coding region, while the 5' parts of the reading frames specifying the N-terminal presequences for mitochondrial import differ significantly. The expression of the genes examined in different organs of both plants by Northern blot analysis shows elevated steady-state mRNA levels in flowers. Hence, expression of the gene appears to be organ-specifically regulated by its transcription rate and/or mRNA stability. A 1.6 kb long genomic DNA sequence of Arabidopsis upstream of the transcribed gene region encoding the PSST subunit in Arabidopsis contains several putative promoter sequence motifs. The results are discussed with regard to the appearance of a nuclearly integrated, former mitochondrial gene.
Plant Mol Biol 1996 Sep
PMID:The plant mitochondrial 22 kDa (PSST) subunit of respiratory chain complex I is encoded by a nuclear gene with enhanced transcript levels in flowers. 891 35

A cDNA library constructed from plerocercoid of Spirometra erinacei (SEP) was immunoscreened using rabbit anti-plerocercoid proteinase polyclonal antibody. A 1.0-kb cDNA clone encoding a cysteine proteinase composed of 336 amino acids was isolated. The amino acid sequence predicted from the cDNA showed significant homology with human and mouse cathepsin L. N-terminal amino acid sequence of the native cysteine proteinase extracted from SEP was the same as that of mature proteinase predicted from the cloned gene. The gene encoding the proteinase was characterized by Southern and Northern blot analysis using the cDNA as a probe. The proteinase with a molecular mass of 34 kDa was demonstrated in in vitro translation products using anti-proteinase polyclonal antibody. A fusion protein derived from the cDNA synthesized by Escherichia coli (TB1) using the expression vector, pMAL-c2 was identified as an immunodominant antigen by epitope-selection method and had no cross-reactivity with other parasite-infected sera. A genomic DNA library derived from SEP was screened by the colony hybridization technique using the cDNA probe. A gene with 4.5 kb encoding the proteinase was obtained, which comprised three exons and two introns.
Mol Biochem Parasitol
PMID:Molecular cloning and expression of the gene encoding a cysteine proteinase of Spirometra erinacei. 891 91


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