Chemo-enzymatic synthesis of a glycosylated peptide containing a complex <Emphasis Type="Italic">N</Emphasis>-glycan based on unprotected oligosaccharides by using DMT-MM and Endo-M

For chemo-enzymatic synthesis of a glycosylated peptide, 4-(4,6-dimethoxy-1,3,5-triazin-2-yl)-4-methylmorpholinium chloride (DMT-MM) was used for the synthesis of a N-acetylglucosaminyl peptide and a pseudoglycopeptide by solid-phase peptide synthesis without the requirement of protecting groups on the carbohydrate. We also performed transglycosylation of an N-glycan to the N-acetylglucosaminyl peptide using endo-β-N-acetylglucosaminidase from Mucor hiemalis (Endo-M) to synthesize a glycopeptide containing a complex N-glycan.     

Synthesis of Bacteriophage λ Proteins <Emphasis Type="Italic">in vitro</Emphasis>

λ DNA stimulates a low level of protein synthesis in extracts of E. coli supplemented with RNA polymerase. The synthesis is efficiently and specifically repressed by addition of purified λ repressor. About 90% of the protein product is from the rightwards, or tof, promoter (P _R ) and 10% from the leftwards, or N, promoter (P _L ). The main polypeptide product is a low molecular species from the tof operon.     

Engineering of <Emphasis Type="Italic">Escherichia coli</Emphasis> for the synthesis of <Emphasis Type="Italic">N</Emphasis>-hydroxycinnamoyl tryptamine and serotonin

Plants synthesize various phenol amides. Among them, hydroxycinnamoyl (HC) tryptamines and serotonins exhibit antioxidant, anti-inflammatory, and anti-atherogenic activities. We synthesized HC–tryptamines and HC–serotonin from several HCs and either tryptamine or serotonin using Escherichia coli harboring the 4CL (4-coumaroyl CoA ligase) and CaHCTT [hydroxycinnamoyl-coenzyme A:serotonin N-(hydroxycinnamoyl)transferase] genes. E. coli was engineered to synthesize N-cinnamoyl tryptamine from glucose. TDC (tryptophan decarboxylase) and PAL (phenylalanine ammonia lyase) along with 4CL and CaHCTT were introduced into E. coli and the phenylalanine biosynthetic pathway of E. coli was engineered. Using this strategy, approximately 110.6 mg/L of N-cinnamoyl tryptamine was synthesized. By feeding 100 μM serotonin into the E. coli culture, which could induce the synthesis of cinnamic acid or p-coumaric acid, more than 99 μM of N-cinnamoyl serotonin and N-(p-coumaroyl) serotonin were synthesized.     

Contribution of <Emphasis Type="Italic">Eutrema salsugineum</Emphasis> Cold Shock Domain Structure to the Interaction with RNA

Plant cold shock domain proteins (CSDPs) are DNA/RNA-binding proteins. CSDPs contain the conserved cold shock domain (CSD) in the N-terminal part and a varying number of the CCHC-type zinc finger (ZnF) motifs alternating with glycine-rich regions in the C-terminus. CSDPs exhibit RNA chaperone and RNA-melting activities due to their non-specific interaction with RNA. At the same time, there are reasons to believe that CSDPs also interact with specific RNA targets. In the present study, we used three recombinant CSDPs from the saltwater cress plant (Eutrema salsugineum)-EsCSDP1, EsCSDP2, EsCSDP3 with 6, 2, and 7 ZnF motifs, respectively, and showed that their nonspecific interaction with RNA is determined by their C-terminal fragments. All three proteins exhibited high affinity to the single-stranded regions over four nucleotides long within RNA oligonucleotides. The presence of guanine in the single-or double-stranded regions was crucial for the interaction with CSDPs. Complementation test using E. coli BX04 cells lacking four cold shock protein genes (ΔcspA, ΔcspB, ΔcspE, ΔcspG) revealed that the specific binding of plant CSDPs with RNA is determined by CSD.     

The single-stranded DNA-binding protein of <Emphasis Type="Italic">Deinococcus radiodurans</Emphasis>

Background

Deinococcus radiodurans R1 is one of the most radiation-resistant organisms known and is able to repair an unusually large amount of DNA damage without induced mutation. Single-stranded DNA-binding (SSB) protein is an essential protein in all organisms and is involved in DNA replication, recombination and repair. The published genomic sequence from Deinococcus radiodurans includes a putative single-stranded DNA-binding protein gene (ssb; DR0100) requiring a translational frameshift for synthesis of a complete SSB protein. The apparently tripartite gene has inspired considerable speculation in the literature about potentially novel frameshifting or RNA editing mechanisms. Immediately upstream of the ssb gene is another gene (DR0099) given an ssb-like annotation, but left unexplored.

Results

A segment of the Deinococcus radiodurans strain R1 genome encompassing the ssb gene has been re-sequenced, and two errors involving omitted guanine nucleotides have been documented. The corrected sequence incorporates both of the open reading frames designated DR0099 and DR0100 into one contiguous ssb open reading frame (ORF). The corrected gene requires no translational frameshifts and contains two predicted oligonucleotide/oligosaccharide-binding (OB) folds. The protein has been purified and its sequence is closely related to the Thermus thermophilus and Thermus aquaticus SSB proteins. Like the Thermus SSB proteins, the SSB_Dr functions as a homodimer. The Deinococcus radiodurans SSB homodimer stimulates Deinococcus radiodurans RecA protein and Escherichia coli RecA protein-promoted DNA three-strand exchange reactions with at least the same efficiency as the Escherichia coli SSB homotetramer.

Conclusions

The correct Deinococcus radiodurans ssb gene is a contiguous open reading frame that codes for the largest bacterial SSB monomer identified to date. The Deinococcus radiodurans SSB protein includes two OB folds per monomer and functions as a homodimer. The Deinococcus radiodurans SSB protein efficiently stimulates Deinococcus radiodurans RecA and also Escherichia coli RecA protein-promoted DNA strand exchange reactions. The identification and purification of Deinococcus radiodurans SSB protein not only allows for greater understanding of the SSB protein family but provides an essential yet previously missing player in the current efforts to understand the extraordinary DNA repair capacity of Deinococcus radiodurans.

     

Expression of gene for <Emphasis Type="Italic">N</Emphasis>-acyl-homoserine lactonase <Emphasis Type="Italic">AiiA</Emphasis> affects properties of rhizospheric strain <Emphasis Type="Italic">Pseudomonas chlororaphis</Emphasis> 449

The introduction into strain Pseudomonas chlororaphis 449 of plasmid pME6863 that contains the cloned gene for N-acyl-homoserine lactonase, AiiA, leads to the degradation of all three types of N-acylhomoserine lactones produced by this strain (N-butanoyl-homoserine lactone, N-hexanoyl-homoserine lactone, and N-3-oxo-hexanoyl-homoserine lactone). This causes a drastic reduction in the synthesis of phenazine pigment and decreases the ability of cells to migrate on the surface of nutrient medium. However, the antagonistic activity of P. chlororaphis 449 toward phytopathogenic fungi Sclerotinia sclerotiorum and Rhizoctonia solani is not only decreased, but is even slightly increased; no essential changes in the exoprotease activity were observed. It is assumed that one of the QS systems of P. chlororaphis 449 may exert the repression effect on the expression of genes, which determine the two latter cell activities.     

Oligonucleotides containing substituted 4-nitroindoles: Synthesis and study of their DNA duplexes

The synthesis of oligonucleotides containing 1-(2-deoxy-β-D-ribofuranosyl)-2-methyl-4-nitroindole and 1-(2-deoxy-β-D-ribofuranosyl)-2-phenyl-4-nitroindole is described. The synthesized modified oligonucleotides were used for studying the stability of intermolecular DNA duplexes with one unnatural strand and for evaluation of discriminating potential of 2-methyl-and 2-phenyl-4-nitroindoles toward nucleic bases. For comparison, an unmodified oligonucleotide and oligonucleotides bearing 5-nitroindole were used. It was shown that 2-methyl-4-nitroindole was only insignificantly inferior in stability to 5-nitroindole and characterized by a similar discriminating potential. 2-Phenyl-4-nitroindole provided a more pronounced duplex destabilization, the discrimination toward natural bases being decreased.     

Probing of contacts between <Emphasis Type="Italic">Eco</Emphasis>RII DNA methyltransferase and DNA with the use of substrate analogs and molecular modeling

The molecular mechanisms of DNA recognition and modification by EcoRII DNA methyltransferase (M.EcoRII) were studied using 14-mer substrate analogs containing 2-aminopurine or 1′,2′-dideoxy-D-ribofuranose in the M.EcoRII recognition site. The efficiency of DNA binding and methylation depended on the position of a modified nucleoside residue in the recognition site. A structural model of M.EcoRII in complex with substrate DNA and the cofactor analog S-adenosyl-L-homocysteine (AdoHcy) was constructed using the available crystal structures of M.Hha and M.HaeIII and the recent Frankenstein’s monster approach. The amino acid residues interacting with DNA were predicted based on the model. In addition, theoretical and experimental findings made it possible to predict the groups of atoms of the heterocyclic bases of the M.EcoRII recognition site that are presumably involved in the interactions with the enzyme.     

On the Mechanism of Action of <Emphasis Type="Italic">lac</Emphasis> Repressor

Chen et al. have proved conclusively that lac repressor and RNA polymerase bind independently to wild type lac DNA in vitro. To explain the lacp ^s mutation, which causes competitive binding between repressor and polymerase, they suggest that a new promoter site has been created near the lac operator.     

Peanut RNA Helicase <Emphasis Type="Italic">AhRH47</Emphasis> Sustains Protein Synthesis Under Stress and Improves Stress Adaptation in <Emphasis Type="Italic">Arabidopsis</Emphasis>

Stress responsive RNA helicases are involved in translation initiation sustain protein synthesis. In this study, a stress responsive DEAD box RNA helicase, AhRH47 from peanut cDNA library was identified and characterised during stress. In silico analysis of AhRH47 showed the nine conserved motifs characteristic of an RNA helicase. The phylogenetic and amino acid sequence alignment analyses revealed that AhRH47 is highly homologous to an important DEAD box RNA helicase (eIF4A), which is involved in translation initiation. AhRH47 is stress responsive, being highly expressed under salinity and moisture stress, which is induced to a lesser extent under PEG and ABA treatments. Constitutive overexpression of AhRH47 in Arabidopsis conferred enhanced tolerance to salinity and mannitol-induced stresses. In addition, the transgenic plants showed improved tolerance under moisture stress and exhibited improved recovery growth on stress alleviation. Overexpressing plants showed increased ¹⁴C-labelled amino acids incorporation in to protein especially under stress condition. The results suggest AhRH47 transgenic lines maintained higher protein synthesis under stress and thus improved adaptation to osmotic and desiccation stresses.     

Internalization of a novel,huge lectin from <Emphasis Type="Italic">Ibacus novemdentatus</Emphasis> (slipper lobster) induces apoptosis of mammalian cancer cells

An N-acetyl sugar-binding lectin (termed iNoL) displaying cytotoxic activity against human cancer cells was isolated from the slipper lobster Ibacus novemdentatus (family Scyllaridae). iNoL recognized monosaccharides containing N-acetyl group, and glycoproteins (e.g., BSM) containing oligosaccharides with N-acetyl sugar. iNoL was composed of five subunits (330, 260, 200, 140, and 30 kDa), which in turn consisted of 70-, 40-, and 30-kDa polypeptides held together by disulfide bonds. Electron microscopic observations and gel permeation chromatography indicated that iNoL was a huge (500-kDa) molecule and had a polygonal structure under physiological conditions. iNoL displayed cytotoxic (apoptotic) effects against human cancer cell lines MCF7 and T47D (breast), HeLa (ovarian), and Caco2 (colonic), through incorporation (internalization) into cells. The lectin was transported into lysosomes via endosomes. Its cytotoxic effect and incorporation into cells were inhibited by the co-presence of N-acetyl-D-mannosamine (ManNAc). Treatment of HeLa cells with iNoL resulted in DNA fragmentation and chromatin condensation, through activation of caspase-9 and ?3. In summary, the novel crustacean lectin iNoL is incorporated into mammalian cancer cells through glycoconjugate interaction, and has cytotoxic (apoptotic) effects.     

Effective to census population size ratios in two Near Threatened Mediterranean amphibians: <Emphasis Type="Italic">Pleurodeles waltl</Emphasis> and <Emphasis Type="Italic">Pelobates cultripes</Emphasis>

Efforts to mitigate amphibian declines are hindered by a lack of information about basic aspects of their biology and demography. The effective to census population size ratio (N _e /N _c ) is one of the most important parameters for the management of wildlife populations because it combines information on population abundance and genetic diversity and helps predict population viability in the long term. Few studies have calculated this ratio in amphibians, which sometimes show low ratios, associated with a higher extinction risk. Here we integrate field-based (capture-mark-recapture studies, egg string counts) and molecular approaches (estimation of the effective number of breeders (N _b ) and the effective population size (N _e ) based on genotypes from larval cohorts and candidate parents) to produce the first estimates of the N _e /N _c and N _b /N _c ratios in two amphibians, the Iberian ribbed newt Pleurodeles waltl and the western spadefoot Pelobates cultripes. Additionally, we investigate sex-biased dispersal in both species based on direct (field observations) and indirect (genetic) evidence. Both species showed similar ratios, slightly lower in Pleurodeles (0.21–0.24) than in Pelobates (0.25–0.30). Observed displacement rates were low in both species (P. waltl?=?0.51%; P. cultripes?=?1.23%). We found no evidence for sex-biased dispersal in P. cultripes, but both direct and indirect evidences suggest a tendency for female-biased dispersal in P. waltl. We discuss differences in the genetic estimates of N _e and N _b provided by three inference methods and the implications of our findings for the management of these species, characteristic of Mediterranean wetlands in the Iberian Peninsula and listed as Near Threatened.     

Synthesis of 11-phenoxyundecyl phosphate and its use as a substrate-acceptor in the reaction with UDP-GlcNAc: polyprenyl phosphate GlcNAc-phosphotransferase from <Emphasis Type="Italic">Salmonella arizona</Emphasis> O:59

A new scheme of synthesis of 11-phenoxyundecyl phosphate from 11-bromoundecanoic acid was suggested; its ability to serve as an acceptor of 2-acetamido-2-deoxy-α-D-glucopyranosyl phosphate in a reaction catalyzed by UDP-N-acetylglucosamine: polyprenyl phosphate N-acetylglucosamine phosphotransferase from Salmonella arizona O:59 was demonstrated.     

Intestinal enterobacteria of the hibernating <Emphasis Type="Italic">Apis mellifera mellifera</Emphasis> L. bees

Dynamics of enterobacteria of normal intestinal microflora was studied in Apis mellifera mellifera L. bees hibernating under snow in the Western Urals. The cell numbers (N) of the predominant species Klebsiella oxytoca increased from 10-10⁶ CFU/bee in November 2004 to 10⁴-10⁷ CFU/bee in March 2005; its frequency of occurrence (P) increased from 92 to 100%. Increase of Providencia rettgeri (11.2004: N up to 10⁶, P 25%; 03.2005: N 10²-10⁶, P 80%) was accompanied by the substitution of Morganella morganii (11.2004: N up to 10⁶, P 25%) with Proteus vulgaris (03.2005: N up to 10⁵, P 8%). By spring, Hafnia alvei and Citrobacter sp., which are pathogenic to bees, disappeared (11.2004: N up to 10⁵, P 13 and 10%, respectively). Endophytic species Pantoea agglomerans, Leclecria sp., and other representatives of the “Enterobacter agglomerans” group were present in November and after the first emergence in spring (N up to 10⁵; November: P 15%; April: P 23%). In April, the number of enterobacteria decreased to 10⁵, and P. rettgeri became the predominant species (P 54%) instead of K. oxytoca (P 43%).     

Effect of mutations in global regulator genes <Emphasis Type="Italic">grrS</Emphasis> and <Emphasis Type="Italic">rpoS</Emphasis> on synthesis of phosphatases in <Emphasis Type="Italic">Serratia plymuthica</Emphasis>

The participation of global regulators GrrS (sensor kinase GacA/GacS-like regulatory system) and sigma S subunit of RNA polymerase in the control of phosphatase synthesis in a soil bacterium Serratia plymuthica was shown. In cells of null mutants for genes grrS and rpoS synthesis of acid and alkaline phosphatases was markedly decreased.     

Somatic hybrids between transgenic <Emphasis Type="Italic">Solanum tuberosum</Emphasis> potato plants and transplastome <Emphasis Type="Italic">Solanum rickii</Emphasis> plants

Experiments on fusion of mesophyllic protoplasts of Solanum tuberosum (Lugovskoi and Slavyanka cultivars) possessing the nptII gene in the nuclear DNA with transplastome Solanum rickii plants (which possess the aadA gene) that we have derived previously, are performed. Hybrid plants with the genes aadA and nptII, the chloroplasts of S. rickii and S. tuberosum, and a hybrid nuclear genome were obtained in a selection medium containing the antibiotics kanamycin, spectomycin, and streptomycin. The result is confirmed by results of PCR analyses.