Characterization of type II protein secretion (xcp) genes in the plant growth-stimulatingPseudomonas putida, strain WCS358

InPseudomonas aeruginosa, the products of thexcp genes are required for the secretion of exoproteins across the outer membrane. Despite structural conservation of the Xcp components, secretion of exoproteins via the Xcp pathway is generally not found in heterologous organisms. To study the specificity of this protein secretion pathway, thexcp genes of another fluorescent pseudomonad, the plant growth-promotingPseudomonas putida strain WCS358, were cloned and characterized. Nucleotide sequence analysis revealed the presence of at least five genes, i.e.,xcpP, Q, R, S, andT, with homology toxcp genes ofP. aeruginosa. Unlike the genetic organization inP. aeruginosa, where thexcp cluster consists of two divergently transcribed operons, thexcp genes inP. putida are all oriented in the same direction, and probably comprise a single operon. Upstream ofxcpP inP. putida, an additional open reading frame, with no homolog inP. aeruginosa, was identified, which possibly encodes a lipoprotein. Mutational inactivation ofxcp genes inP. putida did not affect secretion, indicating that no proteins are secreted via the Xcp system under the growth conditions tested, and that an alternative secretion system is operative. To obtain some insight into the secretory pathway involved, the amino acid sequence of the N-terminus of the major extracellular protein was determined. The protein could be identified as flagellin. Mutations in thexcpQ andR genes ofP. aeruginosa could not be complemented by introduction of the correspondingxcp genes ofP. putida. However, expression of a hybrid XcpR protein, composed of the N-terminal one-third ofP. aeruginosa XcpR and the C-terminal two-thirds ofP. putida XcpR, did restore protein secretion in aP. aeruginosa xcpR mutant.     

Characterization of type II protein secretion (xcp) genes in the plant growth-stimulatingPseudomonas putida,strain WCS358

InPseudomonas aeruginosa, the products of thexcp genes are required for the secretion of exoproteins across the outer membrane. Despite structural conservation of the Xcp components, secretion of exoproteins via the Xcp pathway is generally not found in heterologous organisms. To study the specificity of this protein secretion pathway, thexcp genes of another fluorescent pseudomonad, the plant growth-promotingPseudomonas putida strain WCS358, were cloned and characterized. Nucleotide sequence analysis revealed the presence of at least five genes, i.e.,xcpP, Q, R, S, andT, with homology toxcp genes ofP. aeruginosa. Unlike the genetic organization inP. aeruginosa, where thexcp cluster consists of two divergently transcribed operons, thexcp genes inP. putida are all oriented in the same direction, and probably comprise a single operon. Upstream ofxcpP inP. putida, an additional open reading frame, with no homolog inP. aeruginosa, was identified, which possibly encodes a lipoprotein. Mutational inactivation ofxcp genes inP. putida did not affect secretion, indicating that no proteins are secreted via the Xcp system under the growth conditions tested, and that an alternative secretion system is operative. To obtain some insight into the secretory pathway involved, the amino acid sequence of the N-terminus of the major extracellular protein was determined. The protein could be identified as flagellin. Mutations in thexcpQ andR genes ofP. aeruginosa could not be complemented by introduction of the correspondingxcp genes ofP. putida. However, expression of a hybrid XcpR protein, composed of the N-terminal one-third ofP. aeruginosa XcpR and the C-terminal two-thirds ofP. putida XcpR, did restore protein secretion in aP. aeruginosa xcpR mutant.     

Five additional genes in the pulC-O operon of the gram-negative bacterium Klebsiella oxytoca UNF5023 which are required for pullulanase secretion

Summary DNA sequence analysis, Tnpho and Tntac-1, mutagenesis, deletion analysis, expression under bacteriophage T7 gene 10 promoter control, subcellular fractionation and complementation tests were used to study the function of DNA located in the centre of thepulC-O operon fromKlebsiella oxytoca strain UNF5023. The characterized region of the operon includes five genes (pulG,pulH,pulI,pulJ andpulK) coding for apparently integral inner membrane proteins which are required for pullulanase secretion. The results presented here and previously show that thepulC-O operon contains at least 11 pullulanase secretion genes.     

The agarase gene (dagA) of Streptomyces coelicolor A3(2): nucleotide sequence and transcriptional analysis

Summary The oligopeptide permease is encoded by at least four genes which are transcribed as a single operon. We cloned and characterized this operon from Salmonella typhimurium, as well as the flanking genes, tonB, ana and a new gene, cwd, which affects cell wall synthesis. We correlated the physical map of opp DNA with a detailed genetic map of the opp operon and the individual opp genes were accurately located with respect to various restriction sites by Southern blotting. The region of the chromosome near opp was found to be highly unstable with deletions arising at a high frequency. The operon also contains hot-spots for IS1 and IS5 insertions.     

The type II secretion system (Xcp) of Pseudomonas putida is active and involved in the secretion of phosphatases

The genome of the Gram‐negative bacterium Pseudomonas putida harbours a complete set of xcp genes for a type II protein secretion system (T2SS). This study shows that expression of these genes is induced under inorganic phosphate (P_i) limitation and that the system enables the utilization of various organic phosphate sources. A phosphatase of the PhoX family, previously designated UxpB, was identified, which was produced under low P_i conditions and transported across the cell envelope in an Xcp‐dependent manner demonstrating that the xcp genes encode an active T2SS. The signal sequence of UxpB contains a twin‐arginine translocation (Tat) motif as well as a lipobox, and both processing by leader peptidase II and Tat dependency were experimentally confirmed. Two different tat gene clusters were detected in the P. putida genome, of which one, named tat‐1, is located adjacent to the uxpB and xcp genes. Both Tat systems appeared to be capable of transporting the UxpB protein. However, expression of the tat‐1 genes was strongly induced by low P_i levels, indicating a function of this system in survival during P_i starvation.     

Intragenomic 16S rDNA Divergence in <Emphasis Type="Italic">Haloarcula marismortui</Emphasis> Is an Adaptation to Different Temperatures

The halophilic archaeon Haloarcula marismortui contains three ribosomal RNA operons, designated rrnA, rrnB, and rrnC. Operons A and C are virtually identical, whereas operon B presents a high divergence in nucleotide sequence, having up to 135 nucleotide polymorphisms among the three 16S, 23S, and 5S ribosomal RNA genes. Quantitative PCR and structural analyses have been performed to elucidate whether the presence of this intragenomic heterogeneity could be an adaptation to the variable environmental conditions in the natural habitat of H. marismortui. Variation in salt concentration did not affect expression but variation in incubation temperature did produce significant changes, with operon B displaying an expression level four times higher than the other two together at 50°C and three times lower at 15°C. We show that the putative promoter region of operon B is also different. In addition, the predicted secondary structure of these genes indicated that they have distinct stabilities at different temperatures and a mutant strain lacking operon B grew slower at high temperatures. This study supports the idea that divergent rRNA genes can be adaptive, with different variants being functional under different environmental conditions (e.g., temperature). The same phenomenon could take place in other halophiles or thermophiles with intragenomic rDNA heterogeneity, where the use of 16S rDNA as a phylogenetic marker and indicator of biodiversity should be used with caution.     

Cross-genomic analysis of the translational systems of various organisms

We have characterized the genes encoding ribosomal proteins (r-proteins) as well as other translation-related factors of 15 eubacteria and four archaebacteria, and the genes for the mitochondrial r-proteins of Saccharomyces cerevisiae by using the complete genomic nucleotide sequence data of these organisms. In eubacteria, including two species of Mycoplasma, the operon structure of the r-protein genes is well conserved, while their relative orientation and chromosomal location are quite divergent. The operon structure of the r-protein genes in archaebacteria, on the other hand, is quite different from eubacteria and also among themselves. In addition, many archaebacterial r-proteins show similarity to rat cytoplasmic r-proteins. Nonetheless, characteristic features of several genes encoding proteins of functional importance are well conserved throughout the bacterial species including archaebacteria, as well as in S. cerevisiae. We searched for the genes encoding mitochondrial r-proteins in yeast by combining informatics and genetic experiments. Furthermore, we characterized some of the r-proteins genes by exchanging portions between Escherichia coli and S. cerevisiae and performed functional analysis of some of the genes from different evolutionary points of view. Our work may be extended towards phylogenetic analysis of organisms producing secondary metabolites of various sorts. Journal of Industrial Microbiology & Biotechnology (2001) 27, 163–169. Received 21 September 1999/ Accepted in revised form 22 September 2000     

Vitamin B12 transport in Escherichia coli K12 does not require the btuE gene of the btuCED operon

Summary Transport of vitamin B₁₂ across the cytoplamic membrane ofEscherichia coli requires the products ofbtuC andbtuD, two genes in thebtuCED operon. The role ofbtuE, the central gene of this operon, was examined. Deletions withinbtuE were constructed by removal of internal restriction fragments and were crossed onto the chromosome by allelic replacement. In-frame deletions that removed 20% or 82% of thebtuE coding region did not affect expression of the distalbtuD gene. These nonpolar deletions had little effect on vitamin B₁₂ binding (whole cells or periplasmic fraction) and transport. They did not affect the utilization of vitamin B₁₂ or other cobalamins for methionine biosynthesis, even in strains with decreased outer membrane transport of vitamin B₁₂. ThebtuE mutations did not impair adenosyl-cobalamin dependent catabolism of ethanolamine or repression ofbtuB expression. Thus, despite its genetic location in the transport operon, thebtuE product plays no essential role in vitamin B₁₂ transport.     

Analysis of the nag regulon from Escherichia coli K12 and Klebsiella pneumoniae and of its regulation

Summary Four genes, nagR, A, B and E, clustered in the nag locus of Escherichia coli K12 and Klebsiella pneumoniae, were cloned and physically mapped, and the corresponding gene products involved in amino sugar metabolism identified. Expression of the nag genes was also analysed using a series of lacZ fusions. In both bacteria, the genes are arranged in two divergent operons and controlled by a common NagR repressor. The corresponding gene nagR was found to map in the first operon together with the promoter proximal gene nagB, encoding the enzyme d-glucosamine isomerase (deaminase) (NagB) and the middle gene nagA, coding for N-acetyl-glucosamine deacetylase (NagA). Polar mutations in nagB and nagA prevent the efficient expression of nagR and cause constitutive expression of all nag genes. This includes the gene nagE encoding Enzyme II^Nag of the phosphoenolpyruvate-dependent carbohydrate phosphotransferase system (PTS), encoded in the second divergently transcribed operon. No further gene is found in this operon which in both organisms is directly adjacent to the gene glnS. It is interesting that the NagR repressor also affects the mannose PTS (genes manX, Y, Z), the second transport system involved in amino sugar uptake and phosphorylation.     

Developmentally dependent expression of tissue specific amylases in maize

Summary The mapping of three genes (speA, speB and metK) involved in the biosynthesis of spermidine is described. They are located between minutes 56 and 57 on the linkage map of Escherichia coli. The clustering of these genes suggests the possibility of an operon for spermidine synthesis. Two other genes, argP, controlling the production of an arginine permease, and can, conferring resistance to canavanine, were found to be located in the same region.     

Molecular organization of the xcp gene cluster in Pseudomonas putida: absence of an xcpX (gspK) homologue

A DNA fragment containing xcp (gsp) gene homologues, required for extracellular protein secretion by the general secretory pathway (GSP) in various Gram-negative bacteria, was cloned from Pseudomonas putida (Pp) strain WCS358 and sequenced. The results presented here and those previously reported (de Groot, A., Krijger, J.-J., Filloux, A., Tommassen, J., 1996. Characterization of type II protein secretion (xcp) genes in the plant growth-stimulating Pseudomonas putida, strain WCS358 Mol. Gen. Genet. 250, 491–504) complete the sequence of the xcp gene cluster of Pp. Unlike that of Pseudomonas aeruginosa (Pa), the xcp gene cluster of Pp contains a gspN homologue. More surprisingly, in contrast to all known gsp gene clusters, the xcpX (gspK) homologue is not found. In addition, genes flanking the xcp cluster of Pp are not related to those flanking the xcp genes of Pa. Overall, the xcp gene products of Pp are as much related to those of Pa as to gsp gene products of enterobacterial species, suggesting that the xcp clusters of Pp and Pa have evolved separately.     

Nucleotide sequence of the fhuC and fhuD genes involved in iron (III) hydroxamate transport: domains in FhuC homologous to ATP-binding proteins

Summary The transport of Fe³⁺ into cells of Escherichia coli occurs via siderophores and the uptake through the outer membrane of three Fe³⁺-siderophore compounds containing hydroxamate residues requires three specific receptor proteins. In contrast, transport through the cytoplasmic membrane is catalysed by three common proteins encoded by the fhuB, fhuC and fhuD genes. The nucleotide sequence of a DNA fragment containing the fhuC and fhuD genes has been determined: the open reading frame of fhuC contains 795 nucleotides which encode a polypeptide with a molecular weight of 29 255 and the largest open reading frame of the fhuD region comprises 888 nucleotides. However, we propose that translation of fhuD initiates at the fourth potential start codon resulting in a polypeptide with a molecular weight of 28 282. Both proteins are moderately nonpolar and membrane-bound. They lack obvious signal sequences. Segments of the FhuC protein display strong homology to ATP-binding proteins, suggesting a function in Fe³⁺ uptake similar to the ATP-binding proteins of transport systems that depend on periplasmic proteins. This study completes the nucleotide sequence of the fhu operon which consists of the four genes fhuA fhuC fhuD fhuB arranged in this order on the E. coli chromosome and transcribed from fhuA to fhuB.     

Characterization of the<Emphasis Type="Italic"> ask–asd</Emphasis> operon in aminoethoxyvinylglycine-producing<Emphasis Type="Italic"> Streptomyce</Emphasis>s sp. NRRL 5331

The first two genes of the threonine pathway, ask and asd, were cloned and sequenced from the aminoethoxyvinylglycine-producing Streptomyces sp. NRRL 5331. The two genes are organized in a bicistronic operon. ask, encoding the apartokinase (ASK), is located upstream from asd. The presence of a ribosome-binding site within the ask sequence suggests that this open reading frame encodes two overlapping proteins. The formation of both subunits of the aspartokinase from a single gene was studied using antibodies raised against the C-terminal end of the aspartokinase subunits. Disruption of asd results in a significant decrease of aminoethoxyvinylglycine production, thus supporting the involvement of the ask–asd operon in the biosynthesis of this metabolite. This is the first report in which a gene cluster for the first two steps of aminoethoxyvinylglycine biosynthesis is characterized.Abbreviations ASD Aspartate semialdehyde dehydrogenase - ASK Aspartokinase - AVG Aminoethoxyvinylglycine     

Transport activity of FhuA, FhuC, FhuD, and FhuB derivatives in a system free of polar effects, and stoichiometry of components involved in ferrichrome uptake

The Escherichia colifhu operon, composed of the fhuA, C, D, and B genes, is essential for the utilization of ferric siderophores of the hydroxamate type and for the uptake of the antibiotic albomycin. We have had difficulty studying the effects of missense mutations in individual plasmid-encoded transport genes because appropriate test strains were not found: all isolated chromosomal mutations in either one of the fhu genes (with a complete loss of function) negatively influenced the expression of other fhu genes in the operon. In order to analyze Fhu mutant proteins in a system free of polar effects, we constructed a plasmid-encoded gene cassette system by introducing unique restriction sites that allowed precise cloning of individual fhu genes. The fhu cassette operon expressed in a chromosomal fhu deletion mutant enabled us to evaluate the transport activity of mutated FhuA, FhuC, FhuD or FhuB derivatives. In addition, we found that transport across the outer membrane (via FhuA, TonB, ExbB, D) rather than transport across the cytoplasmic membrane (via FhuC, D, B) was rate limiting. The stoichiometry of the components involved in the uptake of iron(III) hydroxamates seems to be important for proper functioning. Received: 20 October 1997 / Accepted: 22 December 1997     

Evolution of the plastid ribosomal RNA operon in a nongreen parasitic plant: Accelerated sequence evolution,altered promoter structure,and tRNA pseudogenes

The nucleotide sequence of a 7.4 kb region containing the entire plastid ribosomal RNA operon of the nongreen parasitic plant Epifagus virginiana has been determined. Analysis of the sequence indicates that all four rRNA genes are intact and almost certainly functional. In contrast, the split genes for tRNA^Ile and tRNA^Ala present in the 16S-23S rRNA spacer region have become pseudogenes, and deletion upstream of the 16S rRNA gene has removed a tRNA^Val gene and most of the promoter region for the rRNA operon. The rate of nucleotide substitution in 16S and 23S rRNAs is several times higher in Epifagus than in tobacco, a related photosynthetic plant. Possible reasons for this, including relaxed translational constraints, are discussed.