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The onset of morphological differentiation in Streptomyces lividans is intrinsically delayed in comparison to Streptomyces coelicolor, but can be advanced by adding extra copper to the medium. Copper-specific chelators block aerial hyphae formation in both strains illustrating the crucial role of copper in morphogenesis. The S. coelicolor ram cluster was isolated as a clone that complements the copper-dependent differentiation of S. lividans. The S. lividans ram cluster was cloned and shown to be 99.6% identical to the S. coelicolor clone. The difference in development between S. lividans and S. coelicolor could neither be related to functional differences between the two ram clusters nor to differences in the transcription level. In both strains the low level of ramAB transcription correlated with aerial mycelium formation and was coupled to the upstream ORF ramS. An increased ramAB expression level in S. lividans by the introduction of an extra copy of ram stimulated the development. In S. lividans disruption of ramABR resulted in the inability to produce aerial hyphae. Conversely, the identical mutant of S. coelicolor retained its developmental capacities, indicating the presence of a ram-independent developmental route that is not present or not activated in S. lividans. Aerial hyphae and spore formation in the S. lividans ramABR mutant was restored when grown near wild-type strains, suggesting that the ram gene products are involved in transport of a factor essential for normal development. In addition, an elevated copper concentration in the medium also relieved the developmental block of these mutants. These findings suggest that higher copper concentrations render this ram-associated factor obsolete.

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Heterologous expression of c-type cytochromes in the periplasm of Escherichia coli often results in low soluble product yield, apoprotein formation, or protein degradation. We have expressed cytochrome c from Methylophilus methylotrophus in E. coli by coexpression of the gene encoding the cytochrome (cycA) with the host-specific cytochrome c maturation elements, within the ccmA-H gene cluster. Aerobic cultures produced up to 10 mg holoprotein per liter after induction with IPTG. In the absence of the maturation factors E. coli failed to produce a stable haem protein. Cytochrome c" isolated from the natural host was compared with the recombinant protein. No structural differences were detected using SDS-PAGE, UV-Visible spectroscopy, differential scanning calorimetry, and (1)H-NMR spectroscopy. The success in expressing the mature cytochrome c in E. coli allows the engineering of the cycA gene by site-directed mutagenesis thereby providing an ideal method for producing mutant protein for studying the structure/function relationship.

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The [Cu(I)-Cu(II)] half-met form of the dinuclear copper site of tyrosinase has been probed by continuous wave electron paramagnetic resonance (EPR) and hyperfine sublevel correlation (HYSCORE) spectroscopy in the presence and absence of inhibitors. In all cases the EPR spectrum is indicative of a d(x(2)-y(2)) ground state for the unpaired electron. From the cross-peaks observed in the HYSCORE spectra, proton hyperfine coupling constants were obtained that are compatible with a hydroxide ion in an equatorial coordination position of the paramagnetic copper. After changing the water solvent to D(2)O or after addition of the inhibitors p-nitrophenol or L-mimosine, the proton signals disappear. The relevance of these findings for understanding the catalytic cycle is discussed.

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Cytochrome c" from Methylophilus methylotrophus is an unusual monohaem protein that undergoes a major redox-linked spin-state transition: one of the two axial histidines bound to the iron in the oxidised form is detached upon reduction and a proton is taken up. A 3.5-kb DNA fragment, containing the gene encoding cytochrome c" (cycA), has been cloned and sequenced. The cytochrome c" gene codes for a pre-protein with a typical prokaryotic 20-residue signal sequence, suggesting that the protein is synthesised as a precursor which is processed during its secretion into the periplasm. The C-terminus of cytochrome c" has homology with the corresponding region of an oxygen-binding haem protein (SHP) from phototrophically grown Rhodobacter sphaeroides. SHP is similar in size and in the location of its haem-binding site. Immediately downstream from cytochrome c" a second open reading frame (ORF) codes for a 23-kDa protein with similarity to the cytochrome b-type subunit of Ni-Fe hydrogenase. The possibility of coordinated expression of cycA and this ORF is discussed.

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The gene for plastocyanin from the cyanobacterium Phormidium laminosum was successfully expressed in Escherichia coli. Expression of the gene for cytochrome f resulted in the production of holocytochrome f in the periplasmic space of E. coli, but the yield was low. Expression in Paracoccus denitrificans yielded no holoprotein. When the region encoding the cytochrome f leader sequence was replaced with more typical bacterial leader sequences (those from the P. laminosum plastocyanin gene and the Paracoccus versutus cytochrome c-550 gene), much higher yields were consistently obtained in both species. Overexpressed proteins were compared to those isolated from P. laminosum and found to be identical in mass, isoelectric point, redox midpoint potential and (for plastocyanin) 1H-NMR spectrum.

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The 600 MHz 1H NMR spectrum of tyrosinase (31 kDa) of Streptomyces antibioticus in the oxidized, chloride-bound form is reported. The downfield part of the spectrum (15-55 ppm) exhibits a large number of paramagnetically shifted signals. The paramagnetism is ascribed to a thermally populated triplet state. The signals derive from six histidines binding to the metals through their Nepsilon atoms. There is no evidence for endogenous bridges. The exchange coupling, -2J, amounts to 298 cm(-1). In the absence of chloride the peaks broaden. This is ascribed to a slowing down of the electronic relaxation. The exchange coupling decreases to -2J=103 cm(-1).

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In Streptomyces coelicolor A3(2), two genes, tuf1 and tuf3, encode the apparent polypeptide chain elongation factors EF-Tu1 and EF-Tu3, respectively. While tuf1 appears to code for the major EF-Tu, the function of tuf3 is unknown. To assess the role of EF-Tu3, tuf3 was subjected to mutational and transcriptional analyses. Replacement of the 5'-half of tuf3 by an antibiotic resistance cassette had no detectable effect on phenotype, indicating that tuf3 is not essential for growth or differentiation. The transcription start site of tuf3 was located approximately 195 nt upstream of the translation start site. The sequence of the tuf3 promoter (Ptuf3) resembles the consensus for the major class of eubacterial promoters, and Ptuf3 was recognized preferentially by an RNA polymerase fraction enriched in sigma hrdB, the principal sigma factor of S. coelicolor. Nuclease S1 mapping failed to reveal tuf3 transcripts during growth of S. coelicolor in liquid culture, consistent with the apparent absence of EF-Tu3 in total protein extracts of the same strain. However, tuf3 transcription was observed in cultures of S. coelicolor M145 shortly after nutritional shiftdown (which resulted in the disappearance of tuf1 transcripts) and after addition of serine hydroxamate, both of which induce the stringent response. Transcription of tuf3 was also observed in transition-phase and stationary-phase cultures of S. coelicolor J1681, a strain deleted for bldA (which specifies a tRNA(Leu) for the rare leucine codon UUA). In all of these examples, transcription of tuf3 followed the production of ppGpp, consistent with the hypothesis that tuf3 is subject to positive stringent control.

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The C-terminal loop of the blue copper protein amicyanin, which contains three of the four active site ligands, has been replaced with a CuA binding loop. The purple protein produced has visible and EPR spectra identical to those of a CuA centre. Recent evidence strongly suggests that the CuA centre of cytochrome c oxidase and the A centre of nitrous oxide reductase are similar and are both binuclear. It therefore follows that the purple amicyanin mutant created here also possesses a binuclear CuA centre.

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The genes for the beta, beta', and seven sigma factor subunits of RNA polymerase, for elongation factors EF-Tu1 and EF-Tu3, and for six rRNA operons were mapped on the combined genetic and physical map of the Streptomyces coelicolor chromosome. Like the previously mapped tRNA genes, the RNA polymerase and rRNA genes map to scattered positions. The lack of rRNA operons in the immediate vicinity of the origin of replication (oriC) and the absence of tRNA genes in any of the rRNA operons are novel features of the Streptomyces chromosome.

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Transcription start sites and processing sites of the Streptomyces coelicolor A3(2) rrnA operon have been investigated by a combination of in vivo and in vitro transcription analyses. The data from these approaches are consistent with the existence of four in vivo transcription sites, corresponding to the promoters P1-P4. The transcription start sites are located at -597, -416, -334 and -254 relative to the start of the 16S rRNA gene. Two putative processing sites were identified, one of which is similar to a sequence reported earlier in S. coelicolor and other eubacteria. The P1 promoter is likely to be recognized by the RNA polymerase holoenzyme containing sigma hrdB, the principal sigma factor in S. coelicolor. P2 also shares homology with the consensus for vegetative promoters, but has a sequence overlapping the consensus -35 region that is also present in the -35 regions of P3 and P4. The -35 sequence common to P2, P3 and P4 is not similar to any other known consensus promoter sequence. In fast-growing mycelium, P2 appears to be the most frequently used promoter. Transcription from all of the rrnA promoters decreased during the transition from exponential to stationary phase, although transcription from P1 and P2 ceased several hours before that from P3 and P4.

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Two tuf genes are present in Streptomyces coelicolor A3(2), which have been cloned and sequenced. These genes show a high degree of nucleotide sequence identity to the tuf1 and tuf3 genes of Streptomyces ramocissimus: the tuf1 genes are 94% identical, the tuf3 genes 87%. S. coelicolor tuf1 encodes a protein of 396 amino acids, while tuf3 encodes a protein of 391 amino acids.

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We have identified, cloned and sequenced three tuf-like genes from Streptomyces ramocissimus (Sr.), the producer of the antibiotic kirromycin which inhibits protein synthesis by binding the polypeptide chain elongation factor EF-Tu. The tuf-1 gene encodes a protein with 71% amino acid residues identical to the well characterized elongation factor Tu of Escherichia coli (Ec.EF-Tu). The genetic location of tuf-1 downstream of a fus homologue and the in vitro activity of Sr.EF-Tu1 show that tuf-1 encodes a genuine EF-Tu. The putative Sr.EF-Tu2 and Sr.EF-Tu3 proteins are 69% and 63% identical to Ec.EF-Tu. Homologues of tuf-1 and tuf-3 were detected in all five Streptomyces strains investigated, but tuf-2 was found in S. ramocissimus only. The three tuf genes were expressed in E. coli and used to produce polyclonal antibodies. Western blot analysis showed that Sr.EF-Tu1 was present at all times under kirromycin production conditions in submerged and surface-grown cultures of S. ramocissimus and in germinating spores. The expression of tuf-2 and tuf-3 was, however, below the detection level. Surprisingly, Sr.EF-Tu1 was kirromycin sensitive, which excludes the possibility that EF-Tu is involved in the kirromycin resistance of S. ramocissimus.

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The tyrosine-(M)210 of the reaction center of Rhodobacter sphaeroides 2.4.1 has been changed to a tryptophan using site-directed mutagenesis. The reaction center of this mutant has been characterized by low-temperature absorption and fluorescence spectroscopy, time-resolved sub-picosecond spectroscopy, and magnetic resonance spectroscopy. The charge separation process showed bi-exponential kinetics at room temperature, with a main time constant of 36 ps and an additional fast time constant of 5.1 ps. Temperature dependent fluorescence measurements predict that the lifetime of P(*) becomes 4-5 times slower at cryogenic temperatures. From EPR and absorbance-detected magnetic resonance (ADMR, LD-ADMR) we conclude that the dimeric structure of P is not significantly changed upon mutation. In contrast, the interaction of the accessory bacteriochlorophyll BA with its environment appears to be altered, possibly because of a change in its position.

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In Streptomyces coelicolor A3(2) the whiB and whiG genes are essential for sporulation, their deduced products being a possible transcriptional activator and an RNA polymerase sigma factor, respectively. In a survey of DNA from diverse actinomycetes by Southern blotting, all samples tested hybridized with whiB, but only those representing genera capable of producing sporulating aerial mycelium hybridized with whiG. It is postulated that whiB may play a more intimate role in hyphal fragmentation processes (including sporulation) than whiG. The whiB and whiG homologues (whiB-Stv and whiG-Stv) of Streptoverticillium griseocarneum were cloned and sequenced, and subjected to functional tests in S. coelicolor whiB and whiG mutants. The genes were closely similar, but not identical, to their S. coelicolor counterparts at the DNA and deduced protein levels, and both Stv. griseocarnum gene products could function well in S. coelicolor. However, studies with hybrid transcription units suggested that the promoter region of whiB-Stv is somewhat inefficient in S. coelicolor.

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Covalent modification of proteins by phosphate transfer reactions constitutes a major mechanism of regulation in higher eukaryotes. Recently, phosphorylation of eukaryotic elongation factors has been described. Analysis of Escherichia coli proteins revealed several of them to be phosphorylated. Various lines of evidence lead us to conclude that one of these proteins is identical to elongation factor (EF) Tu, which can be phosphorylated in vivo at one of its threonine residues. Structural analysis showed that one fragment of the phosphorylated EF-Tu is highly resistant to tryptic digestion. Phosphorylation of eubacterial EF-Tu is not restricted to the E. coli factor but could also be demonstrated for Thermus thermophilus HB8 EF-Tu. Overexpression of tufA did not increase the number of EF-Tu molecules to be phosphorylated. This may indicate that a constant but limited amount of EF-Tu is modified, possibly for a specific function. Phosphorylation of EF-Tu could also be demonstrated in vitro. Upon analysis of subcellular fractions the highest kinase activity was found in the ribosomal fraction of E. coli. Protein sequencing of both the in vivo and in vitro phosphorylated protein revealed position 382 as the modified threonine residue.

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Recent discoveries of elongation factor-related proteins have considerably complicated the simple textbook scheme of the peptide chain elongation cycle. During growth and differentiation the cycle may be regulated not only by factor modification but also factor replacement. In addition, rare tRNAs may have their own rare factor proteins. A special case is the acquisition of resistance by bacteria to elongation factor-directed antibiotics. Pertinent data from the literature and our own work with Escherichia coli and Streptomyces are discussed. The GTP-binding domain of EF-Tu has been studied extensively, but little molecular detail is available on the interactions with its other ligands or effectors, or on the way they are affected by the GTPase switch signal. A growing number of EF-Tu mutants obtained by ourselves and others are helping us in testing current ideas. We have found a synergistic effect between EF-Tu and EF-G in their uncoupled GTPase reactions on empty ribosomes. Only the EF-G reaction is perturbed by fluoroaluminates.

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The study of the structure/function relationships of the Escherichia coli elongation factor Tu (EF-Tu) via mutagenesis has been hampered by difficulties encountered in separating the mutated factor from other proteins, in particular native EF-Tu. Here we describe a novel system for the purification of EF-Tu mutant species, based on metal-ion affinity chromatography. To facilitate rapid and efficient purification we designed a recombinant EF-Tu with an additional C-terminal sequence of one serine and six histidine residues. A cell extract containing the His-tagged EF-Tu (EF-TuHis) is applied to a Ni(2+)-nitrilotriacetic acid column. EF-TuHis can be selectively eluted with an imidazole containing buffer, yielding a preparation of more than 95% purity, free of wild-type EF-Tu. In-vitro and in-vivo functional analyses show that EF-TuHis resembles the wild-type EF-Tu, which makes this one-step isolation procedure a promising tool for the study of the interactions of mutant EF-Tu with the various components of the elongation cycle. The new isolation procedure was successfully applied for the purification of a mutant EF-TuHis with a Glu substitution for Lys237, a residue possibly involved in the binding of aminoacyl-tRNA.

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In Escherichia coli transcription of the tRNA operon thrU (tufB) and the rRNA operon rrnB is trans-activated by the protein FIS. This protein, which stimulates the inversion of various viral DNA segments, binds specifically to a cis-acting sequence (designated UAS) upstream of the promoter of thrU (tufB) and the P1 promoter of the rrnB operon. There are indications that this type of regulation is representative for the regulation of more stable RNA operons. In the present investigation we have studied UAS-dependent transcription activation of the thrU (tufB) operon in the presence and absence of FIS during a normal bacterial growth cycle and after a nutritional shift-up. In early log phase the expression of the operon rises steeply in wild-type cells, whereafter it declines. Concomitantly, a peak of the cellular FIS concentration is observed. Cells in the stationary phase are depleted of FIS. The rather abrupt increase of transcription activation depends on the nutritional quality of the medium. It is not seen in minimal medium. After a shift from minimal to rich medium, a peak of transcription activation and of FIS concentration is measured. This peak gets higher as the medium gets more strongly enriched. We conclude that a correlation between changes of the UAS-dependent activation of the thrU (tufB) operon and changes of the cellular FIS concentration under a variety of experimental conditions exists. This correlation strongly suggests that the production of FIS responds to environmental signals, thereby trans-activating the operon. Cells unable to produce FIS (fis cells) also show an increase of operon transcription in the early log phase and after a nutritional shift-up, albeit less pronounced than that wild-type cells. Presumably it is controlled by the ribosome feedback regulatory system. cis activation of the operon by the upstream activator sequence is apparent in the absence of FIS. This activation is constant throughout the entire growth cycle and is independent of nutritional factors. The well-known growth rate-dependent control, displayed by exponentially growing cells studied under various nutritional conditions, is governed by two regulatory mechanisms: repression, presumably by ribosome feedback inhibition, and stimulation by trans activation. FIS allows very fast bacterial growth.

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S. coelicolor A3(2) contains six ribosomal RNA operons. Here we describe the cloning of rrnA, rrnC and rrnE, thereby completing the cloning of all operons. Southern hybridisation of genomic DNA with a heterologous probe from the E.coli rrnB 16S rRNA gene showed differences in hybridisation among the six rRNA operon-containing bands. The nucleotide sequence of the 16S rRNA gene and the upstream region of rrnA was determined and compared with the corresponding sequence of rrnD, showing that the 16S rRNA genes are 99% identical. Substantial differences were found, however, in the upstream regions corresponding to the P1 and P2 promoters of rrnD. Southern analysis showed that some of the other rRNA operons of S.coelicolor A3(2) also differed in this part of the upstream region.

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