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We report here the cloning of the arginine repressor gene argR of Bacillus stearothermophilus and the characterization and purification to homogeneity of its product. The deduced amino acid sequence of the 16.8-kDa ArgR subunit shares 72% identity with its mesophilic homologue AhrC of Bacilus subtilis . Sequence analysis of B. stearothermophilus ArgR and comparisons with mesophilic arginine repressors suggest that the thermostable repressor comprises an N-terminal DNA-binding and a C-terminal oligomerization and arginine-binding region. B. stearothermophilus ArgR has been overexpressed in E. coli and purified as a 48.0-kDa trimeric protein. The repressor inhibits the expression of a B. stearothermophilus argC–lacZ fusion in E. coli cells. In the presence of arginine, the purified protein binds tightly and specifically to the argC operator, which largely overlaps the argC promoter. The purified B. stearothermophilus repressor proved to be very thermostable with a half-life of approximately 30 min at 90°C, whereas B. subtilis AhrC was largely inactivated at 65°C. Moreover, ArgR operator complexes were found to be remarkably thermostable and could be formed efficiently at up to 85°C, well above the optimal growth temperature of the moderate thermophile B. stearothermophilus . This pronounced resistance of the repressor–operator complexes to heat treatment suggests that the same type of regulatory mechanism could operate in extreme thermophiles.  相似文献   
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The arginine repressor (ArgR) is a hexameric DNA-binding protein that plays a multifunctional role in the bacterial cell. Here, we present the 2.5 A structure of apo-ArgR from Bacillus stearothermophilus and the 2.2 A structure of the hexameric ArgR oligomerization domain with bound arginine. This first view of intact ArgR reveals an approximately 32-symmetric hexamer of identical subunits, with six DNA-binding domains surrounding a central oligomeric core. The difference in quaternary organization of subunits in the arginine-bound and apo forms provides a possible explanation for poor operator binding by apo-ArgR and for high affinity binding in the presence of arginine.  相似文献   
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A genomic DNA fragment encoding aminoacylase activity of the eubacterium Bacillus stearothermophilus was cloned into Escherichia coli. Transformants expressing aminoacylase activity were selected by their ability to complement E. coli mutants defective in acetylornithine deacetylase activity, the enzyme that converts N-acetylornithine to ornithine in the arginine biosynthetic pathway. The 2.3-kb cloned fragment has been entirely sequenced. Analysis of the sequence revealed two open reading frames, one of which encoded the aminoacylase. B. stearothermophilus aminoacylase, produced in E. coli, was purified to near homogeneity in three steps, one of which took advantage of the intrinsic thermostability of the enzyme. The enzyme exists as homotetramer of 43-kDa subunits as shown by cross-linking experiments. The deacetylating capacity of purified aminoacylase varies considerably depending on the nature of the amino acid residue in the substrate. The enzyme hydrolyzes N-acyl derivatives of aromatic amino acids most efficiently. Comparison of the predicted amino acid sequence of B. stearothermophilus aminoacylase with those of eubacterial acetylornithine deacylase, succinyldiaminopimelate desuccinylase, carboxypeptidase G2, and eukaryotic aminoacylase I suggests a common origin for these enzymes.  相似文献   
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Summary We used the hybrid plasmid pAS8 in order to conduct the genetic analysis of RP4 plasmid. The presence of two replicons in the hybrid plasmid permitted to expand the spectrum of deletion mutants of RP4 isolated, which are capable to autonomous replication. The shortening of the hybrid plasmid was achieved by P22 transduction, by induction of deletion mutants using mitomycin C, as well as by selection of Tra- mutants on the basis of resistance of cells to P-specific phages. These techniques have lead to isolation of clones possessing different combinations of plasmid resistance determinants.Comparison of phenotypic characteristics of deletion plasmids pAS9, pAS10, pAS11, pAS12 and pAS10-2 permitted to propose the map for pAS8 plasmid with the following sequence of markers: trakan-ColE1-amp-tet...Heteroduplex analysis of deletion mutants of pAS8 permitted to construct a physical map and to elaborate in greater detail the functional map of RP4 plasmid. The correlation between the ability of mutants to replicate in polA (TS) strain at nonpermissive conditions and the length of the deleted segment permitted to map rep genes of RP4 on a region with coordinates 9.8–17.3 kb. A relationship between the manifestation of incompatibility of mutants with Inc P-1 plasmids and the length of deletions points out that inc genes are located on DNA region with coordinates 2.1–9.8 kb. The analysis of replication of deletion mutants and the manifestation of incompatibility just as of the data about the size of appropriate deletions permitted to make the conclusion about the functional and genetic independence of the replication control and incompatibility control in RP4 plasmid.  相似文献   
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The degree of sequence conservation of arginine repressor proteins (ArgR) and of the cognate operators (tandem pairs of 18 bp imperfect palindromes, ARG boxes) in evolutionarily distant bacteria is unusually high, and the global mechanism of ArgR-mediated regulation appears to be similar. However, here we demonstrate that the arginine repressor from the hyperthermophilic bacterium Thermotoga neapolitana (ArgR(Tn)) exhibits characteristics that clearly distinguish this regulator from the well-studied homologues from Escherichia coli, Bacillus subtilis and B.stearothermophilus. A high-resolution contact map of ArgR(Tn) binding to the operator of the biosynthetic argGHCJBD operon of Thermotoga maritima indicates that ArgR(Tn) establishes all of its strong contacts with a single ARG box-like sequence of the operator only. Protein array and electrophoretic mobility-shift data demonstrate that ArgR(Tn) has a remarkable capacity to bind to arginine operators from Gram-negative and Gram-positive bacteria, and to single ARG box-bearing targets. Moreover, the overall effect of L-arginine on the apparent K(d) of ArgR(Tn) binding to various cognate and heterologous operator fragments was minor with respect to that observed with diverse bacterial arginine repressors. We demonstrate that this unusual behaviour for an ArgR protein can, to a large extent, be ascribed to the presence of a serine residue at position 107 of ArgR(Tn), instead of the highly conserved glutamine that is involved in arginine binding in the E.coli repressor. Consistent with these results, ArR(Tn) was found to behave as a superrepressor in E.coli, inhibiting growth in minimal medium, even supplemented with arginine, whereas similar constructs bearing the S107Q mutant allele did not inhibit growth. We assume that ArgR(Tn), owing to its broad target specificity and its ability to bind single ARG box sequences, might play a more general regulatory role in Thermotoga  相似文献   
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The nucleotide (nt) sequence of the Escherichia coli argE gene, encoding the acetylornithine deacetylase (AO) subunit, has been established and corresponds to a 43-kDa (M(r) 42,320) polypeptide. The enzyme has been purified to near homogeneity and it appears to be a dimer consisting of two 43-kDa subunits. The amino acid sequence deduced from the nt sequence was compared to that of the subunit of E. coli succinyldiaminopimelate desuccinylase (the dapE gene product involved in the diaminopimelate pathway for lysine biosynthesis), since both enzymes share functional and biochemical features. Significant similarity covering the entire sequence allows us to infer a common origin for both deacylases. This homology extends to the Pseudomonas sp. G2 carboxypeptidase (G2CP); this or a functionally related enzyme may be responsible for the minor AO activity found in organisms relying on ornithine acetyltransferase for ornithine biosynthesis.  相似文献   
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