In Vivo Incorporation of Photoproteins into GroEL Chaperonin Retaining Major Structural and Functional Properties.

The incorporation of photoproteins into proteins of interest allows the study of either their localization or intermolecular interactions in the cell. Here we demonstrate the possibility of in vivo incorporating the photoprotein enhanced green fluorescent protein (EGFP) or luciferase (GLuc) into the tetradecameric quaternary structure of GroEL chaperonin and describe some physicochemical properties of the labeled chaperonin. Using size-exclusion and affinity chromatography, electrophoresis, fluorescent and electron transmission microscopy (ETM), small-angle X-ray scattering (SAXS), and bioluminescence resonance energy transfer (BRET), we show the following: (i) The GroEL-EGFP is evenly distributed within normally divided cells, while gigantic undivided cells are characterized by the uneven distribution of the labeled GroEL which is mainly localized close to the cellular periplasm; (ii) EGFP and likely GLuc are located within the inner cavity of one of the two GroEL chaperonin rings and do not essentially influence the protein oligomeric structure; (iii) GroEL containing either EGFP or GLuc is capable of interacting with non-native proteins and the cochaperonin GroES.

[Bacteriophage T5 Mutants Carrying Deletions in tRNA Gene Region].

A new series of heat-stable (st) mutants of bacteriophage T5, which contains deletions in the tRNA gene region, has been isolated. An accurate mapping of the deletion boundaries for more than 30 mutants of phage T5 has been carried out. As a result of the analysis of nucleotide sequences flanking the deleted regions in wild-type phage DNA, it has been shown that they all contain short, direct repeats of different lengths (2-35 nucleotide residues), and that only one repetition is retained in the mutant phage DNA.

High affinity anchoring of the decoration protein pb10 onto the bacteriophage T5 capsid.

Bacteriophage capsids constitute icosahedral shells of exceptional stability that protect the viral genome. Many capsids display on their surface decoration proteins whose structure and function remain largely unknown. The decoration protein pb10 of phage T5 binds at the centre of the 120 hexamers formed by the major capsid protein.

Complete genome sequences of T5-related Escherichia coli bacteriophages DT57C and DT571/2 isolated from horse feces.

We report the complete genome sequencing of two Escherichia coli T5-related bacteriophages, DT57C and DT571/2, isolated from the same specimen of horse feces. These two isolates share 96% nucleotide sequence identity and can thus be considered representatives of the same novel species within the genus T5likevirus. The observed variation in the ltfA gene of these phages, resulting from a recent recombination event, may explain the observed host-range differences, suggesting that a modular mechanism makes a significant contribution to the short-term evolution (or adaptation) of T5-like phage genomes in the intestinal ecosystem.

Mutation in the pssM gene encoding ketal pyruvate transferase leads to disruption of Rhizobium leguminosarum bv. viciae-Pisum sativum symbiosis.

Aims: To study the question whether acidic exopolysaccharide (EPS) modification, e.g. pyruvylation, plays any role in the development of Rhizobium leguminosarum/Pisum sativum symbiosis.

Genomes of "phiKMV-like viruses" of Pseudomonas aeruginosa contain localized single-strand interruptions.

The "phiKMV-like viruses" comprise an important genus of T7 related phages infecting Pseudomonas aeruginosa. The genomes of these bacteriophages have localized single-strand interruptions (nicks), a distinguishing genomic trait previously thought to be unique for T5 related coliphages. Analysis of this feature in the newly sequenced phage phikF77 shows all four nicks to be localized on the non-coding DNA strand.

[The pssA gene encodes UDP-glucose: polyprenyl phosphate-glucosyl phosphotransferase initiating biosynthesis of Rhizobium leguminosarum exopolysaccharide].

Symbiotic nitrogen-fixing bacteria Rhizobium leguminosarum by. viciae VF39 secrete an acidic heteropolysaccharide, the biosynthesis of which involves the stage of polyprenyl diphosphate octasaccharide formation, with its carbohydrate fragment corresponding to the repeating polymer unit. The amino acid analysis of the product of the pssA gene, we have earlier identified, showed its homology to bacterial polyisoprenyl phosphate hexose 1-phosphate transferases catalyzing the formation of phosphodiester bonds between polyprenyl phosphates and hexose 1-phosphates, whose donors are nucleotide sugars.

Barnase-barstar high affinity interaction phenomenon as the base for the heterogenous bioluminescence pseudorabies virus' immunoassay.

The effective new variant of "sandwich" bioluminescent enzyme immunoassay (BEIA) for the sensitive detection of glycoprotein B (gB) of pseudorabies virus (PrV) was presently developed. The high affinity interaction of barnase-barstar protein pair and photoprotein obelin as bioluminescent marker were for the first time successfully applied to BEIA development. Preliminary the two monoclonal antibodies, 11/5 and 34/2, were raised against gB for ELISA PrV detection.

Effective non-viral leader for cap-independent translation in a eukaryotic cell-free system.

The 61 nt 5'-untranslated region (5'-UTR) of mRNA encoding for a light-emitting protein of hydroid polyp Obelia longissima, obelin, is shown to provide a high level of cap-independent translation of heterologous mRNAs in cell-free translation systems based on wheat germ extracts. The inhibition of translation typically observed when excess mRNA is present or produced in a eukaryotic system (the so-called self-inhibition phenomenon) is found abated with mRNA constructs carrying the obelin mRNA leader. The role of the sequestration of a limiting initiation factor, probably eIF4F, in the self-inhibition phenomenon and the possible independence of the obelin mRNA leader from eIF4F are discussed.

[Novel site-specific endonucleases F-TflI, F-TflII and F-TflIV encoded by the bacteriophage T5].

Novel site-specific H-N-H endonucleases F-TflI, F-TflII and F-TflIV were identified. These endonucleases are encoded by open reading frames localized in the bacteriophage T5 tRNA gene region. The endonuclease F-TflIV was shown to introduce double-strand break into pseudo palindromic 17 bp DNA sequence yielding 1 bp extensions with 3'-overhangs.

Fusion of Aequorea victoria GFP and aequorin provides their Ca(2+)-induced interaction that results in red shift of GFP absorption and efficient bioluminescence energy transfer.

The bioluminescence emitted by Aequorea victoria jellyfish is greenish while its single bioluminescent photoprotein aequorin emits blue light. This phenomenon may be explained by a bioluminescence resonance energy transfer (BRET) from aequorin chromophore to green fluorescent protein (GFP) co-localized with it. However, a slight overlapping of the aequorin bioluminescence spectrum with the GFP absorption spectrum and the absence of marked interaction between these proteins in vitro pose a question on the mechanism providing the efficient BRET in A.

Sequencing of flagellin genes from Natrialba magadii provides new insight into evolutionary aspects of archaeal flagellins.

We have determined the nucleotide sequence of a flagellin gene locus from the haloalkaliphilic archaeon Natrialba magadii, identified the gene products among proteins forming flagella, and demonstrated cotranscription of the genes. Based on the sequence analysis we suggest that different regions of the genes might have distinct evolutionary histories including possible genetic exchange with bacterial flagellin genes.

[The dependence of stability of the green fluorescent protein-obelin hybrids on the nature of their constituent modules and the structure of the amino acid linker].

Recombinant plasmids containing genes for the green fluorescent protein (GFP) from Aequorea victoria and the photoprotein obelin from Obelia longissima linked in-frame by inserts differing in nucleotide sequences were constructed. The expression of the chimeric genes in Escherichia coli cells resulted in synthesis of the GFP-obelin hybrid proteins. These proteins were purified to homogeneity and subjected to limited trypsinolysis.

Structural and functional analysis of the phosphonoacetate hydrolase (phnA) gene region in Pseudomonas fluorescens 23F.

The Pseudomonas fluorescens 23F phosphonoacetate hydrolase gene (phnA) encodes a novel carbon-phosphorus bond cleavage enzyme whose expression is independent of the phosphate status of the cell. Analysis of the regions adjacent to the phosphonoacetate hydrolase structural gene (phnA) indicated the presence of five open reading frames (ORFs). These include one (phnR) whose putative product shows high levels of homology to the LysR family of positive transcriptional regulators.

Elevated levels of synthesis of over 20 proteins results after mutation of the Rhizobium leguminosarum exopolysaccharide synthesis gene pssA.

The protein expression profiles of Rhizobium leguminosarum strains in response to specific genetic perturbations in exopolysaccharide (EPS) biosynthesis genes were examined using two-dimensional gel electrophoresis. Lesions in either pssA, pssD, or pssE of R. leguminosarum bv.

Purification and characterization of P33 protein of Candida utilis homologous to bgl2p of Saccharomyces cerevisiae; comparative analysis of the role of these proteins in molecular organization of the yeast cell walls.

P33 protein was isolated from the cell walls of Candida utilis. Homology between P33 and Bgl2p proteins from the cell walls of Saccharomyces cerevisiae was shown. The important role of these proteins in molecular organization of yeast cell walls was demonstrated using trypsin proteolysis and the "gene disruption" method.

Preparation of active tRNA gene transcripts devoid of 3'-extended products and dimers.

Significant amounts (10-30%) of 3'-extended products with one or two extra nucleotides are synthesized in the course of run-off tRNA gene transcription with T7 RNA polymerase. Denaturing polyacrylamide gel electrophoresis appeared to be insufficient to provide preparative amounts of pure correct-size transcripts. Formation of dimers by tRNA gene transcripts as side products in the course of their activation is also another obstacle in preparation of biologically active transcripts.

Processing of Escherichia coli alkaline phosphatase: role of the primary structure of the signal peptide cleavage region.

A wide range (69) of mutant Escherichia coli alkaline phosphatases with single amino acid substitutions at positions from -5 to +1 of the signal peptide were obtained for studying protein processing as a function of the primary structure of the cleavage region. Amber suppressor mutagenesis, used to create mutant proteins, included: (i) introduction of amber mutations into respective positions of the phoA gene; and (ii) expression of each mutant phoA allele in E. coli strains producing amber suppressor tRNAs specific to Ala, Cys, Gln, Glu, Gly, His, Leu, Lys, Phe, Pro, Ser and Tyr.

Aminoacylation of tRNA gene transcripts is strongly affected by 3'-extended and dimeric substrate RNAs.

Kinetic parameters of aminoacylation by E. coli phenylalanyl-tRNA synthetase vary for phage T5 tRNA(Phe) gene transcript from 0.950 to 2.

Cloning of new Rhodococcus extradiol dioxygenase genes and study of their distribution in different Rhodococcus strains.

Four extradiol dioxygenase genes which encode enzymes active against catechol and substituted catechols were cloned from two different Rhodococcus strains, and their nucleotide sequences were determined. A catechol 2,3-dioxygenase gene (edoC) was shown to be identical to the previously described ipbC gene from the isopropylbenzene operon of Rhodococcus erythropolis. Amino acid sequences deduced from the three other genes (edoA, edoB and edoD) were shown to have various degrees of homology to different extradiol dioxygenases.

A seven-gene locus for synthesis of phenazine-1-carboxylic acid by Pseudomonas fluorescens 2-79.

Pseudomonas fluorescens 2-79 produces the broad-spectrum antibiotic phenazine-1-carboxylic acid (PCA), which is active against a variety of fungal root pathogens. In this study, seven genes designated phzABCDEFG that are sufficient for synthesis of PCA were localized within a 6.8-kb BglII-XbaI fragment from the phenazine biosynthesis locus of strain 2-79.