EC:2.7.10.2 - FACTA Search

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primer extension experiments showed that the argR gene, encoding the arginine repressor in Salmonella typhimurium, is transcribed from a single promoter that is negatively regulated by arginine. A repressor overproducing strain was constructed and the repressor was purified to homogeneity. Gel filtration, sedimentation and cross-linking studies established that the native repressor is a hexamer of identical 17,000 Mr subunits. Gel retardation experiments indicate that the apparent dissociation constant for repressor/carAB operator is 6 x 10(-12) M. These experiments showed that arginine is essential for binding of the repressor to the DNA and that pyrimidine nucleotides have no significant effect on this binding. These results indicate that the effect of pyrimidines on expression of the arginine sensitive "downstream" carAB promoter is not directly mediated by the arginine repressor. These experiments also suggest that a single hexamer binds to the carAB operator, which carries two previously defined "ARG box" sequences that characterize operators for arg genes. Gel retardation experiments with DNA fragments carrying the individual ARG boxes showed that both boxes are required for effective binding of the hexameric repressor to the operator, indicating that the ARG boxes comprise a single binding site for the repressor. Analysis of the potential secondary structure of the arginine repressor does not reveal any of the recognizable structural motifs common to a number of DNA-binding proteins. A combination of DNase I, premethylation interference, depurination and hydroxyl radical footprinting techniques were employed to characterize the interactions of the repressor with the carAB operator, with the results suggesting that the repressor predominantly interacts with A.T residues in this region. Comparative DNA sequence analysis of the known arginine operators of enteric bacteria further indicates that the specificity of interaction may be based more on the precise distance between two defined A.T-rich regions rather than on the specific nucleotide sequence.
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PMID:Characterization of the arginine repressor from Salmonella typhimurium and its interactions with the carAB operator. 158 85

The 12 genes which in E. coli K-12 constitute the arginine regulon are organized in nine transcriptional units all of which contain in their 5' non-coding region two 18 bp partially conserved imperfect palindromes (ARG boxes) which are the target sites for binding of the repressor, a hexameric protein. In vitro binding experiments with purified repressor (a gift from W. K. Maas) were performed on the operator sites of four genes, argA, argD, argF, argG, and of two operons, carAb and the bipolar argECBH cluster. A compilation of results obtained by DNase I and hydroxyl radical footprinting clearly indicates that in each case the repressor binds symmetrically to four helical turns covering adjacent pairs of boxes separated by 3 bp, but to one face of the DNA only. Methylation protection experiments bring to light major base contacts with four highly conserved G residues symmetrically distributed in four consecutive major grooves. Symmetrical contacts in the minor groove with A residues have also been identified. Stoichiometry experiments suggest that a single hexameric repressor molecule binds to a pair of adjacent ARG boxes. Although the wild-type operator consists of a pair of adjacent ARG boxes separated by 3 bp (except argR where there are only 2 bp), repressor can bind to a single box but with a greatly reduced affinity. Therefore, adjacent boxes behave co-operatively with respect to the Arg repressor binding, in the sense that the presence of one box largely stimulates the binding of the properly located second box. The optimal distance separating two boxes is 3 bp, but one bp more or less does not abolish this stimulation effect. However, it is completely abolished by the introduction of two or more additional bp unless a full helical turn is introduced. Large variations in the in vivo repression response between individual arginine genes or a wild-type gene and cognate Oc type mutants are not reflected by similar differences in the in vitro binding results where only small differences are observed. The significance of this lack of correlation is discussed.
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PMID:Arginine regulon of Escherichia coli K-12. A study of repressor-operator interactions and of in vitro binding affinities versus in vivo repression. 164 Apr 56

In the arginine regulon of Escherichia coli K12 each of the eight operator sites consists of two 18-base-pair-long palindromic sequences called ARG boxes. In the operator sites for the structural genes of the regulon the two ARG boxes are separated by three base-pairs, in the regulatory gene argR they are separated by two base-pairs. The hexameric arginine repressor, the product of argR, binds to the two ARG boxes in an operator in the presence of L-arginine. From the results of various kinds of in vitro footprinting experiments with the ARG boxes of argF and argR (DNase I protection, hydroxyl radical, ethylation and methylation interference, methylation protection) it can be concluded that: (1) the repressor binds simultaneously to two adjacent ARG boxes; (2) that it binds on one face of the double helix; and (3) that it forms contacts with the major and minor grooves of each ARG box, but not with the central three base-pairs. The repressor can bind also to a single ARG box, but its affinity is about 100-fold lower than for two ARG boxes. From gel retardation experiments with 3H-labeled repressor and 32P-labeled argF operator DNA, it is concluded that the retarded DNA-protein complex contains no more than one repressor molecule per operator site and that most likely one hexamer binds to two ARG boxes. The bound repressor was shown to induce bending of argF operator DNA. The bending angle calculated from the results of gel retardation experiments is about 70 degrees and the bending center was located within the region encompassing the ARG boxes. The main features that distinguish the arginine repressor from other repressors studied in E. coli are its hexameric nature and the simultaneous binding of one hexameric molecule to two palindromic ARG boxes that are close to each other.
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PMID:Binding of the arginine repressor of Escherichia coli K12 to its operator sites. 164 Apr 57

The control region of the carAB operon, encoding carbamoylphosphate synthetase, comprises two tandem promoters (P1, upstream and P2, downstream) located 67 base-pairs apart and repressed respectively by pyrimidines and arginine. RNA polymerase and pure arginine repressor bind to the P2 region in mutually exclusive ways. Repressor protects the two adjacent palindromic ARG boxes overlapping P2 against DNase I. Binding of RNA polymerase to P1 is abnormal; the region protected against DNase I is shifted upstream by about 20 nucleotides with respect to the position expected from the transcription startpoint. This pattern is not due to interference with polymerase binding at P2, since it is observed also in the presence of repressor and on an isolated P1 region. Binding of RNA polymerase is relatively weak and heparin-sensitive suggesting that, in vivo, an ancillary factor is required to promote the formation of an open complex. S1 nuclease mapping experiments show that the simultaneous presence of pyrimidines and arginine represses the downstream arginine-specific promoter (P2) more efficiently than arginine alone. This effect is not due to a direct regulatory interaction between pyrimidines and P2, since it is not observed when P1 is inactivated by insertion mutations or partial deletion. It has been shown that transcription initiated at P1 can proceed even when arginine represses P2. We therefore suggest that P2 operator-arginine repressor complex is destabilized by RNA polymerase binding at P1 or transcription from P1. We describe a novel technique to select for expression-down mutants in a lac fusion context.
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PMID:Molecular interactions in the control region of the carAB operon encoding Escherichia coli carbamoylphosphate synthetase. 306 19

A reciprocal translocation between chromosomes 9 and 22 creates the Philadelphia (Ph1) chromosome in chronic myelogenous leukemia. This translocation results in the fusion of the ABL and the BCR genes to form a BCR/ABL fusion gene, the product of which has a greatly increased protein tyrosine kinase activity in comparison with the normal ABL protein. The chromosome 22 translocation breakpoints are concentrated within a 5.8-kilobase region named the major break-point cluster region (Mbcr). Gel mobility shift and DNase I footprinting assays have defined binding sites for three proteins, BIF 1-3 (BCR intron factors 1-3), lying within a 427-base pair fragment of the Mbcr. This 427-base pair fragment functions as a transcriptional silencer with both the BCR as well as a heterologous promoter. The silencing is position- and orientation-independent. The transcriptional effects are greatest in chronic myelogenous leukemia cells, decreased in HeLa and B-cells, and absent in T-lymphocytes. Gel mobility shift assays show a corresponding difference in pattern when the T-lymphocyte nuclear extract is compared with other cell lines. The Mbcr appears to contain a novel group of transcriptional silencers that share a common binding motif with a recently described suppressor in the mouse Adh-1 gene.
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PMID:A novel transcriptional suppressor located within a downstream intron of the BCR gene. 814 70

In Escherichia coli K12, formation of the enzymes of arginine biosynthesis are controlled by arginine, with complete repression during growth with added arginine, severe repression (about 95%) during growth without added arginine and complete derepression during arginine-limited growth. In E. coli B, the degree of repression is not correlated with arginine concentrations. Under all conditions of growth enzyme formation is repressed, with repression being somewhat less in a medium with arginine than in a medium without arginine. These differences in repressibility between the two strains have been shown previously to be due to the presence of different alleles of argR, the gene for the arginine repressor. Here we have compared the binding of the two repressors to the operator sites of argF (ARG boxes). In DNase I footprinting and gel retardation experiments with argF ARG boxes we have shown that the arginine repressor of E. coli K12 bound to arginine (ArgRK-arg) has a greater affinity than the arginine repressor of E. coli B bound to arginine (ArgRB-arg), whereas free ArgRB (ArgRBf) has a much stronger affinity than free ArgRK (ArgRKf). The stronger binding of ArgRBf can explain the repression seen in E. coli B during arginine-limited growth and indicates that ArgRBf, but not ArgRKf, is able to repress enzyme synthesis under physiological conditions. The weaker repression of E. coli B than of E. coli K12 seen in the presence of arginine can be explained by the lower affinity of ArgRB-arg for operator sites as compared to ArgRK-arg. Another contributing cause for the weaker repression is the reduction of ArgRBf concentration due to autoregulation of the gene for the repressor. Thus the combined effects of repression by ArgRBf, but not ArgRKf, with the weaker repression by ArgRB-arg as compared to ArgRK-arg, convert the arginine dependent regulation in E. coli K12 to arginine independent regulation in E. coli B.
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PMID:Explanation for different types of regulation of arginine biosynthesis in Escherichia coli B and Escherichia coli K12 caused by a difference between their arginine repressors. 828 43

We have previously reported the initial characterization of a catabolic operator site (O[rocA]) for the Bacillus subtilis arginine repressor/activator protein AhrC. Here, we present the characterization by gel retardation and DNase I footprinting of both O(rocA) and a second catabolic operator site, O(rocD). Both operator sites encompass a single recognition site, an ARG box, located immediately upstream of the transcriptional start points, a unique positioning for a transcriptional activator protein. Although there is considerable sequence homology between the two catabolic operator sites, they vary significantly, around twofold, in their apparent affinities for the protein (K'd approximately 90 nM for O[rocA] and approximtaely 190nM for O[rocD]). This difference may result from the lower match to the ARG box consensus of the O(rocD) site. Both catabolic operators show evidence for co-operative binding with respect to protein concentration. Determination of the sequences of two AhrC catabolic operator sites, in combination with the three such biosynthetic sites, has allowed the derivation of an improved B. subtilis ARG box consensus sequence, CATGAATAAAAATg/tCAAg/t. This is not identical to the Escherichia coli consensus operator for the AhrC homologue, ArgR, which may explain the only partial cross-functioning of these proteins in vivo. The O(rocA) site is adjacent to a sharp, stable bend located 5' to the catabolic operator. Circular permutation analysis has been used to determine the relative angle of bend (approximately 50 degrees), its location and the effect of adding magnesium ions and/or AhrC protein. Protein binding increases the relative bend angle to approximately 85 degrees. Bending is shown to be associated with a number of A-tracts in the upstream sequence. However, altering the phasing of the A-tracts has little effect on the affinity for AhrC. Truncation and competition experiments have been used to investigate the possible role of sequences flanking the operator on affinity. Very surprisingly, the affinity of the O(rocA) site appears to increase in the presence of excess, specific competitor fragment, i.e. the system shows anti-competitive effects. Competition is restored at high molar excesses of specific fragment over the protein. We propose a novel model for the assembly of a higher affinity form of AhrC at operator sites that is consistent with both the apparent co-operativity of binding and the anti-competitive effects. These data suggest that the molecular interactions occurring between the prokaryotic arginine-regulatory proteins and their operators may be more complex than is generally appreciated.
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PMID:Operator interactions by the Bacillus subtilis arginine repressor/activator, AhrC: novel positioning and DNA-mediated assembly of a transcriptional activator at catabolic sites. 938 88

The major transcription factors controlling arginine metabolism in Escherichia coli and Bacillus subtilis, ArgR and AhrC, respectively, are homologous multimeric proteins that form l -arginine-dependent DNA-binding complexes capable of repressing transcription of the biosynthetic genes (both), activating transcription of catabolic genes (AhrC only) or facilitating plasmid dimer resolution (both). Multimerisation and l -arginine binding are associated with the C-terminal 70-80 residues; the N-terminal regions contain a winged helix-turn-helix DNA-binding domain. We have constructed chimeric genes in which the sequences for the N and C-terminal domains have been swapped. The resultant chimeric proteins and their corresponding native proteins have been analysed for their ability to multimerise and bind DNA operator sites in an L-arginine-dependent fashion. Gel filtration and equilibrium sedimentation analysis are consistent with the formation of hexamers by all four proteins in the presence of L-arginine and at high protein concentrations (>100 nM monomer). The hexamer sedimentation coefficients suggest that there is a reduction in molecular volume upon binding L-arginine, consistent with a conformational change accompanying an allosteric activation of DNA-binding. In the absence of L-arginine or at lower protein concentrations, the hexamers are clearly in rapid equilibrium with smaller subunits, whose dominant species appear to be based on trimers, as expected from the crystal structure of the ArgR C-terminal fragment, with the exception of the ArgR-C chimera, which apparently dissociates into dimers, suggesting that in the intact protein the DNA-binding domains may have a significant dimeric interaction. The hexamer-trimer Kdis in the micromolar range, suggesting that trimers are the principal species at in vivo concentrations.DNA binding by all four proteins has been probed by gel retardation and DNase I footprinting analysis using all three types of naturally occurring operators: biosynthetic sites encompassing two 18 bp ARG boxes separated by 2 bp; biosynthetic sites containing two such boxes and a third 18 bp ARG box at a distance of 100 bp downstream, i.e. within the structural gene; and finally a catabolic operator which contains a single ARG box site. The data show that all four proteins bind to the operators at the expected regions in an L-arginine-dependent fashion. From the apparent affinities of the chimeras for each target site, there is no obvious sequence-specificity associated with the N-terminal domains; rather the data can be interpreted in terms of differential allosteric activation, including DNA binding in the absence of L-arginine.Remarkably, the proteins show apparent "anti-competition" in the presence of excess, specific DNA fragments in gel retardation. This appears to be due to assembly of an activated form of the protein, probably hexamers, on the operator DNA. The data are discussed in terms of the current models for the mode of action of both native proteins.
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PMID:Probing activation of the prokaryotic arginine transcriptional regulator using chimeric proteins. 1036 57

Uridine phosphorylase (UPase) is a key enzyme in the pyrimidine salvage pathway. It reversibly catalyzes the catabolism of uridine to uracil; controls the homeostatic regulation of uridine concentration in plasma and tissues; and plays a role in the intracellular activation of 5-fluorouracil. We cloned the murine UPase gene promoter, a 1703-bp fragment, and determined the transcription initiation sites located at +1 and +92 bp of the cDNA sequence. Through transient expression analysis of the 5'-flanking region of UPase gene, we have evaluated the promoter activity for a series of fragments with 5'- to 3'-deletion in murine breast cancer EMT-6 cells and immortalized murine fibroblast NIH 3T3 cells. Cotransfection of the UPase promoter constructs (from -1619 to -445) containing p53 binding motif with the wild-type p53 construct resulted in a significant reduction of luciferase activity; however, this effect disappeared with the additional deletion of the -445 to -274 sequence to suggest the existence in this promoter region of a putative p53 recognition element. Similar cotransfection in murine embryo fibroblasts p53-/- confirmed the inhibitory role of p53 on the UPase promoter activity. The specificity of the interaction is demonstrated by nuclear protein-specific binding to the putative p53 recognition sequence using gel mobility shift assay and DNase I footprinting analysis. These data indicate the UPase gene is a novel target of p53, and its expression is down-regulated by p53 at the promoter level.
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PMID:p53-dependent suppression of uridine phosphorylase gene expression through direct promoter interaction. 1155 67

In this report, we describe seven mutations, including a novel single base pair substitution in intron 1, of the Bruton's tyrosine kinase (Btk) gene found in 12 Korean patients with X-linked agammaglobulinemia. Various mutations, including three novel genetic alterations, were discovered using single-strand conformation polymorphism analysis and direct DNA sequencing. The effect of the intron 1 point mutation (intron 1 +5G-->A) was further evaluated using reporter constructs. Using luciferase assay experiments, we showed that the transcriptional activity of the mutant was significantly lower than in normal counterparts, indicating that the intronic mutation was functional. In addition, DNase I footprinting analysis showed that a single protected region spanning the position +3 to +15 bp hybridized with a mutant-specific probe, but not with a wild-type probe. EMSA indicated that a distinct nuclear protein has the ability to bind the mutant oligonucleotides to produce a new DNA-protein complex. We also observed decreased expression of Btk proteins in monocytes of patients having the point mutation in intron 1. Taken together with the functional analysis, our results strongly suggest the existence of a novel cis-acting element, which might be involved in the down-regulation of Btk gene transcription. Precise definition of the regulatory defect in the Btk intron 1 may provide valuable clues toward elucidating the pathogenesis of X-linked agammaglobulinemia.
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PMID:Characterization of mutations, including a novel regulatory defect in the first intron, in Bruton's tyrosine kinase gene from seven Korean X-linked agammaglobulinemia families. 1156 24

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