Thermotolerance and place memory in adult <Emphasis Type="Italic">Drosophila</Emphasis> are independent of natural variation at the <Emphasis Type="Italic">foraging</Emphasis> locus

Natural polymorphisms at the foraging (for) gene influence several behaviors. However, it is seldom clear how different for alleles could be selected. In one case, Drosophila with the rover allele (for ^r ) have higher locomotor activity in the presence of food than animals with the sitter allele (for ^s ), suggesting a complementary feeding strategy. There are, in addition, differences between for ^r and for ^s Drosophila in some tests of short-term memory (for ^r animals generally perform at higher levels) and thermotolerance (for ^s larvae are more resistant to the effects of high-temperature). We asked whether there could be a direct compensating advantages in adult for ^s flies that could maintain the natural for variants. First, are adult for ^s flies more thermotolerant? Second, do for ^r flies have a higher short-term place memory? Third, as an alternative, might for ^s flies have higher place memory? Our results do not confirm these possibilities. Thus, a thermotolerance advantage of for ^s flies does not compensate for a potential for ^r short-term memory advantage; for ^r flies do not have a universal advantage in short-term memory; and for ^s flies do not have an advantage in place memory that could compensate for for ^r advantages in other learning contexts.     

New Approach to Identification of Genes Controlling Cell Wall Biogenesis in the Yeast <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

MCD4 codes for a protein presumably adding the phosphoethanolamine moiety to the first mannose residue of glycosylphosphatidylinositol (GPI) precursors in the yeast Saccharomyces cerevisiae. The role of this modification is still unclear. The phenotypic effects of some MCD4 mutations are probably unrelated to defects in GPI synthesis, suggesting additional functions for Mcd4p. To study the Mcd4p functions in more detail, a search for the genes whose mutations are lethal or semilethal in combination with the ssu21 mutation of MCD4 was performed. Six such mutations were isolated, including some mutations causing sensitivity to SDS and/or calcofluor white. Genes complementing two out of the six mutations were cloned and identified as MNN9, which is involved in the formation of outer chains of N-linked glycans of secreted proteins, and GWT1, which codes for an endoplasmic reticulum protein involved in GPI biosynthesis. In both cases, growth inhibition was probably caused by defective biogenesis of the cell wall and a misfolding of secreted proteins. The proposed approach is suitable for seeking new genes controlling cell wall biogenesis.     

Polymorphism of <Emphasis Type="Italic">yellow</Emphasis> locus in <Emphasis Type="Italic">Drosophila melanogaster</Emphasis> mutants from natural populations

We have studied the molecular characteristics of the yellow locus (y; 1–0.0), which determines the body color of phenotypically wild-type and mutant alleles isolated in different years from geographically distant populations of Drosophila melanogaster. According to the Southern blot, data restriction maps of the yellow locus of all examined strains differ from one another, as well as from Oregon stock. FISH analysis shows that, in the neighborhood of the yellow locus in the X chromosome, neither P nor hobo elements are found in y^1–775 stock, while only hobo is found in these region in y^1–859 and y^1–866 stocks, only the P element is found in y⁺sn⁸⁴⁹ stock, and both elements are found in y^1–719 stock. Thus, all yellow mutants studied are of independent origin. Locus yellow located on the end of X chromosome (region 1A5–8 on the cytologic map) carries significantly more transposon than retrotransposon induced mutations compared to the white locus (region 3C2). It is possible that, at the ends of Drosophila melanogaster chromosomes, transposons are more active than retrotransposons.     

Search for genes influencing the maintenance of the [<Emphasis Type="Italic">ISP</Emphasis><Superscript>+</Superscript>] prion-like antisuppressor determinant in yeast with the use of an insertion gene library

The prion-like determinant [ISP ⁺] manifests itself as an antisuppressor of certain sup35 mutations. To establish that [ISP ⁺] is indeed a new yeast prion, it is necessary to identify the gene that codes for the protein whose prion form is [ISP ⁺]. Analysis of the transformants obtained by transformation of an [ISP ⁺] strain with an insertion gene library revealed three genes controlling the [ISP ⁺] maintenance: UPF1, UPF2, and SFP1. SFP1 codes for a potentially prionogenic protein, which is enriched in Asn and Gln residues, and is thereby the most likely candidate for the [ISP ⁺] structural gene. UPF1 and UPF2 code for components of nonsense-mediated mRNA decay. The [ISP ⁺] elimination caused by UPF1 and UPF2 inactivation was reversible, and Upf1p and Upf2p were not functionally related to phosphatase Ppz1p, which influences the [ISP ⁺] manifestation. Possible mechanisms sustaining the influence of UPF1 and UPF2 on [ISP ⁺] maintenance are discussed.     

Heterologous expression of <Emphasis Type="Italic">Bacillus intermedius</Emphasis> gene of glutamyl endopeptidase in <Emphasis Type="Italic">Bacillus subtilis</Emphasis> strains defective in regulatory proteins

Expression of the gene of glutamyl endopeptidase from Bacillus intermedius (gseBi) cloned on the plasmid pV has been studied in Bacillus subtilis recombinant strains with mutations of the regulatory proteins involved in sporogenesis and spore germination. It has been established that inactivation of the regulatory protein Spo0A involved in sporulation initiation resulted in a decrease in the expression of the gseBi gene by 65% on average. A mutation in the gene of the sensor histidine kinase kinA had no effect on the biosynthesis of the enzyme. Inactivation of Ger proteins regulating bacterial spore germination resulted in a 1.5–5-fold decrease in glutamyl endopeptidase activity. It has been concluded that expression of the B. intermedius glutamyl endopeptidase gene from plasmid pV in recombinant cells of B. subtilis is under impaired control by the regulatory system of Spo0F/Spo0A phosphorelay, which participates in sporulation initiation. The regulatory Ger proteins responsible for spore germination also affect expression of the gene of this enzyme.     

Construction of flavocytochrome <Emphasis Type="Italic">b</Emphasis><Subscript>2</Subscript>-overproducing strains of the thermotolerant methylotrophic yeast <Emphasis Type="Italic">Hansenula polymorpha</Emphasis> (<Emphasis Type="Italic">Pichia angusta</Emphasis>)

L-Lactate cytochrome c oxidoreductase (flavocytochrome b ₂, FC b ₂) from the thermotolerant methylotrophic yeast Hansenula polymorpha (Pichia angusta) is, unlike the enzyme form baker’s yeast, a thermostable enzyme potentially important for bioanalytical technologies for highly selective assays of L-lactate in biological fluids and foods. This paper describes the construction of flavocytochrome b ₂ producers with over-expression of the H. polymorpha CYB2 gene, encoding FC b ₂. The HpCYB2 gene under the control of the strong H. polymorpha alcohol oxidase promoter in a plasmid for multicopy integration was transformed into the recipient strain H. polymorpha C-105 (grc1 catX), impaired in glucose repression and devoid of catalase activity. A method was developed for preliminary screening of the transformants with increased FC b ₂ activity in permeabilized yeast cells. The optimal cultivation conditions providing for the maximal yield of the target enzyme were found. The constructed strain is a promising FC b ₂ producer characterized by a sixfold increased (to 3 μmol min^?1 mg^?1 protein in cell-free extract) activity of the enzyme.     

Salinity induced changes in the chloroplast proteome of the aquatic pteridophyte <Emphasis Type="Italic">Azolla microphylla</Emphasis>

The growth of the nitrogen fixing aquatic pteridophyte Azolla microphylla is severely affected by salinity. Salinity exposure (0.5%) resulted in significant reduction in chlorophyll a and b content, altered chl a/b ratio and photosynthetic efficiency (Fv/Fm). Chloroplasts maintain photosynthesis but are highly sensitive to salinity stress. Chloroplast proteins extracted from A. microphylla was separated by two-dimensional electrophoresis (2DE) and approximately 200 proteins were observed on each gel. Forty two differentially expressed protein spots were detected and out of this 17 could be identified through MALDI-TOF-MS/MS analysis. Out of the 17 identified proteins, 15 were found to be down regulated and 2 proteins were up regulated. Most of the down regulated proteins were associated with Calvin cycle, ATP synthesis, oxygen evolution, photosystem I and ROS scavenging. The results show changes in proteome dynamics of the chloroplasts of A. microphylla and such changes may lead to reduction in growth and metabolism. The primary target of salinity in A. microphylla is photosynthesis and the changes in the proteome dynamics of the chloroplasts lead to reduced growth.     

Identification and Characterization of New Members of Vacuolar H<Superscript>+</Superscript>-Pyrophosphatase Family from <Emphasis Type="Italic">Oryza sativa</Emphasis> Genome

The vacuolar H⁺-pyrophosphatase (V-PPase) is an electrogenic H⁺ pump localized in the plant vacuolar membrane. V-PPase from many species has been characterized previously and the corresponding genes/cDNAs have been cloned. Cloning of the V-PPase genes from many plant species has revealed conserved motifs that may correspond to catalytic sites. The completion of the entire DNA sequence of Oryza sativa (430 Mb) presented an opportunity to study the structure and function of V-PPase proteins, and also to identify new members of this family in Oryza sativa. Our analysis identified three novel V-PPase proteins in the Oryza sativa genome that contain functional domains typical of V-PPase. We have designated them as OVP3 to OVP5. The new predicted OVPs have chromosomal locations different from previously characterized V-PPases (OVP1 and OVP2) located on chromosome 6. They all contain three characteristic motifs of V-PPase and also a conserved motif [DE]YYTS, specific to type I V-PPases and involved in coupling PP_i hydrolysis to H⁺ translocation.     

<Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis> strains associated with the production of cachaça: identification and characterization by traditional and molecular methods (PCR,PFGE and mtDNA-RFLP)

A study of the genetic diversity of populations of Saccharomyces cerevisiae was conducted in ten different cachaça producers (alambiques) in the southern state of Minas Gerais, Brazil. A total of 106 isolates were identified by PCR using the primer SCREC114, specific to S. cerevisiae, by pulsed-field gel electrophoresis (PFGE) and by restriction fragment polymorphism of mitochondrial DNA analysis (RFLP-mtDNA). PCR showed a product of amplification to 61 isolates, enabling a rapid identification of S. cerevisiae in different alambiques. Nine different profiles were found by PFGE; all the yeasts identified as S. cerevisiae by PCR had profiles similar to that of the marker S. cerevisiae, highlighting the specificity of primer SCREC114. RFLP-mtDNA, using four different enzymes, enabled the grouping of strains of S. cerevisiae, with 80%–100% similarity. Some alambiques that had a higher frequency of S. cerevisiae characterized by PCR and PFGE, had a lower level of genetic diversity determined by RFLP-mtDNA, indicating the ability of these strains to lead the fermentative process.     

Distinct mechanisms of phenotypic effects of inactivation and prionization of Swi1 protein in <Emphasis Type="Italic">Saccharomyces cerevisiae</Emphasis>

Prions are proteins that under the same conditions can exist in two or more conformations, and at least one of the conformations has infectious properties. The prionization of a protein is typically accompanied by its functional inactivation due to sequestration of monomers by the prion aggregates. The most of prions has been identified in the yeast Saccharomyces cerevisiae. One of them is [SWI ⁺], a prion isoform of the Swi1 protein, which is a component of the evolutionarily conserved chromatin remodeling complex SWI/SNF. Earlier, it was shown that the prionization of [SWI ⁺] induces a nonsense suppression, which leads to weak growth of the [SWI ⁺] strains containing mutant variants of the SUP35 gene and the nonsense allele ade1-14 _UGA on selective medium without adenine. This effect occurs because of [SWI ⁺] induction that causes a decrease in the amount of the SUP45 mRNA. Strains carrying the SWI1 deletion exhibit significantly higher suppression of the ade1-14 _UGA nonsense mutation than the [SWI ⁺] strains. In the present study, we identified genes whose expression is altered in the background of the SWI1 deletion using RNA sequencing. We found that the ade1-14 _UGA suppression in the swi1Δ strains is caused by an increase in the expression of this mutant allele of the ADE1 gene. At the same time, the SUP45 expression level in the swi1Δ strains does not significantly differ from the expression level of this gene in the [swi ^–] strains. Thus, we have shown that the phenotypic effects of Swi1 prionization and deletion are mediated by different molecular mechanisms. Based on these data, we have concluded that the prionization of proteins is not only unequal to their inactivation, but also can lead to the acquisition of novel phenotypic effects and functions.     

Cloning of <Emphasis Type="Italic">rec</Emphasis>A gene of <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis> and phenotypic complementation of <Emphasis Type="Italic">Escherichia coli</Emphasis> recombinant deficient strain

Nucleotide and amino acid sequences of Corynebacterium glutamicum recA genes, from GenBank, were compared in silico. On the basis of the identity found between sequences, two degenerate primers were designed on the two sides of the deduced open reading frame (ORF) of the recA gene. PCR experiments, for amplifying the recA ORF region, were done. pGEM^®-T Easy vector was selected to be used for cloning PCR products. Then recA ORF was placed under the control of Escherichia coli hybrid trc promoter, in pKK388-1 vector. pKK388-1 vector, containing recA ORF, was transformed to E. coli DH5α ΔrecA (recombinant deficient strain), in an attempt to phenotypically complement it. Ultraviolet (u.v.) exposure experiments of the transformed and non-transformed E. coli DH5α ΔrecA cells revealed tolerance of transformed cells up to dose 0.24 J/cm², while non-transformed cells tolerated only up to dose 0.08 J/cm². It is concluded that phenotypic complementation of E. coli DH5α ΔrecA with recA ORF of C. glutamicum, could be achieved and RecA activity could be restored.     

Identification of <Emphasis Type="Italic">O</Emphasis>-GlcNAcylated proteins in <Emphasis Type="Italic">Plasmodium falciparum</Emphasis>

Background

Post-translational modifications (PTMs) constitute a huge group of chemical modifications increasing the complexity of the proteomes of living beings. PTMs have been discussed as potential anti-malarial drug targets due to their involvement in many cell processes. O-GlcNAcylation is a widespread PTM found in different organisms including Plasmodium falciparum. The aim of this study was to identify O-GlcNAcylated proteins of P. falciparum, to learn more about the modification process and to understand its eventual functions in the Apicomplexans.

Methods

The P. falciparum strain 3D7 was amplified in erythrocytes and purified. The proteome was checked for O-GlcNAcylation using different methods. The level of UDP-GlcNAc, the donor of the sugar moiety for O-GlcNAcylation processes, was measured using high-pH anion exchange chromatography. O-GlcNAcylated proteins were enriched and purified utilizing either click chemistry labelling or adsorption on succinyl-wheat germ agglutinin beads. Proteins were then identified by mass-spectrometry (nano-LC MS/MS).

Results

While low when compared to MRC5 control cells, P. falciparum disposes of its own pool of UDP-GlcNAc. By using proteomics methods, 13 O-GlcNAcylated proteins were unambiguously identified (11 by click-chemistry and 6 by sWGA-beads enrichment; 4 being identified by the 2 approaches) in late trophozoites. These proteins are all part of pathways, functions and structures important for the parasite survival. By probing clicked-proteins with specific antibodies, Hsp70 and α-tubulin were identified as P. falciparum O-GlcNAc-bearing proteins.

Conclusions

This study is the first report on the identity of P. falciparum O-GlcNAcylated proteins. While the parasite O-GlcNAcome seems close to those of other species, the structural differences exhibited by the proteomes provides a glimpse of innovative therapeutic paths to fight malaria. Blocking biosynthesis of UDP-GlcNAc in the parasites is another promising option to reduce Plasmodium life cycle.

     

The effects of gibberellins and mepiquat chloride on nitrogenase activity in <Emphasis Type="Italic">Bradyrhizobium japonicum</Emphasis>

Application of plant growth regulators (PGRs) to soybean plants is known to induce changes in nitrogenase activity in root nodules, and this led us to hypothesize that PGRs would affect nitrogenase activity in free-living rhizobia cultures. Little is known about the molecular basis of the effects of PGRs on nitrogenase activity in free-living rhizobia cultures. Therefore, a comparative study was conducted on the effects of gibberellins (GA₃) and mepiquat chloride (PIX), which regulate plant growth, on the nitrogenase activity of the nitrogen-fixing bacterium Bradyrhizobium japonicum. Fix and nif gene regulation and protein expression in free-living cultures of B. japonicum were investigated using real-time PCR and two-dimensional electrophoresis after treatment with GA₃ or PIX. GA₃ treatment decreased nitrogenase activity and the relative expression of nifA, nifH, and fixA genes, but these effects were reversed by PIX treatment. As expected, several proteins involved in nitrogenase synthesis were down-regulated in the GA₃-treated group. Conversely, several proteins involved in nitrogenase synthesis were up-regulated in the PIX-treated group, including bifunctional ornithine acetyltransferase/N-acetylglutamate synthase, transaldolase, ubiquinol-cytochrome C reductase iron-sulfur subunit, electron transfer flavoprotein subunit beta, and acyl-CoA dehydrogenase. Two-pot experiments were conducted to evaluate the effects of GA₃ and PIX on nodulation and nitrogenase activity in Rhizobium-treated legumes. Interestingly, GA₃ treatment increased nodulation and depressed nitrogenase activity, but PIX treatment decreased nodulation and enhanced nitrogenase activity. Our data show that the nif and fix genes, as well as several proteins involved in nitrogenase synthesis, are up-regulated by PIX and down-regulated by GA₃, respectively, in B. japonicum.     

Dynamics and diversity of a microbial community during the fermentation of industrialized <Emphasis Type="Italic">Qingcai</Emphasis> paocai,a traditional Chinese fermented vegetable food,as assessed by Illumina MiSeq sequencing,DGGE and qPCR assay

Paocai is a traditional Chinese fermented food and typically produced via spontaneous fermentation. We have investigated the microbial community utilized for the fermentation of industrialized Qingcai paocai using the combination of Illumina MiSeq sequencing, PCR-mediated denaturing gradient gel electrophoresis (PCR-DGGE) and quantitative PCR (qPCR) assay. Three main phyla, namely Firmicutes, Proteobacteria and Bacteroidetes, were identified by both MiSeq sequencing and PCR-DGGE. The dominant genera observed in the fermentation were Lactobacillus, Pseudomonas, Vibrio and Halomonas. Most genera affiliated with Proteobacteria or Bacteroidetes were detected more often during the earlier part of the fermentation, while Lactobacillus (affiliated with Firmicutes) was dominant during the later fermentation stages. Fungal community analysis revealed that Debaryomyces, Pichia and Kazachstania were the main fungal genera present in industrialized Qingcai paocai, with Debaryomyces being the most dominant during the fermentation process. The quantities of dominant genera Lactobacillus and Debaryomyces were monitored using qPCR and shown to be 10⁹–10¹² and 10⁶–10¹⁰ copies/mL, respectively. During the later fermentation process of industrialized Qingcai paocai, Lactobacillus and Debaryomyces were present at 10¹¹ and 10⁸ copies/mL, respectively. These results facilitate further understanding of the unique microbial ecosystem during the fermentation of industrialized Qingcai paocai and guide future improvement of the fermentation process.     

Bacteria of the sulfur cycle in the sediments of gold mine tailings,Kuznetsk Basin,Russia

The number and diversity of culturable microorganisms involved in sulfur oxidation and sulfate reduction were investigated in the oxidized sediments of gold mine tailings, Kuznetsk Basin, Russia. The sediments had a low pH (2.4–2.8), high SO ₄ ^2? content (up to 22 g/l), and high concentrations of dissolved metals. The arsenic content was as high as 1.9 g/l. Bacterial phylogeny in microcosms was investigated by amplification of 16S rRNA gene fragments with subsequent denaturing gradient gel electrophoresis (DGGE). Spore-forming bacteria Desulfosporosinus were the only bacteria revealed for which the capacity for dissimilatory sulfate reduction is known. Strain Desulfosporosinus sp. DB was obtained in pure culture, and it was phylogenetically remote from other cultured and uncultured members of the genus. No sulfate-reducing members of the Deltaproteobacteria were detected. The Firmicutes members were the most numerous phylotypes in the microcosms, including a separate cluster with the similarity to Pelotomaculum not exceeding 94%. Acidithiobacillus ferrooxidans and A. caldus were found in anaerobic and microaerophilic microcosms. The number of sulfate reducers did not exceed 9.5 × 10² cells/ml.     

Regulatory activity of heterologous gene-activator <Emphasis Type="Italic">xlnR</Emphasis> of <Emphasis Type="Italic">Aspergillus niger</Emphasis> in <Emphasis Type="Italic">Penicillium canescens</Emphasis>

The gene encoding the xlnR xylanolytic activator of the heterologous fungus Aspergillus niger was incorporated into the Penicillium canescens genome. Integration of the xlnR gene resulted in the increase in a number of activities, i.e. endoxylanase, β-xylosidase, α-L-arabinofuranosidase, α-galactosidase, and feruloyl esterase, compared to the host P. canescens PCA 10 strain, while β-galactosidase, β-glucosidase, endoglucanase, and CMCase activities remained constant. Two different expression constructs were developed. The first consisted of the nucleotide sequence containing the mature P. canescens phytase gene under control of the axhA promoter region gene encoding A. niger (1,4)-β-D-arabinoxylan-arabinofuranohydrolase. The second construct combined the P. canescens phytase gene and the bgaS promoter region encoding homologous β-galactosidase. Both expression cassettes were transformed into P. canescens host strain containing xlnR. Phytase synthesis was observed only for strains with the bgaS promoter on arabinose-containing culture media. In conclusion, the bgaS and axhA promoters were regulated by different inducers and activators in the P. canescens strain containing a structural tandem of the axhA promoter and the gene of the xlnR xylanolytic activator.