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1.
The reactions of rabbit muscle pyruvate kinase with 5′-p-fluorosulfonylbenzoyl adenosine (5′-FSBA) and 5′-p-fluorosulfonylbenzoyl guanosine (5′-FSBG) from pH 7.0 to 8.0 exhibit biphasic inactivation kinetics. These reactions are characterized by three events: a fast reaction yielding partially active enzyme (with 67% of its original activity for the 5′-FSBA reaction and 45% for the 5′-FSBG reaction) which is reactivated by dithiothreitol, and two slower reactions yielding fully inactive enzymes; the product of only one of the two slower reactions is reactivated by dithiothreitol. These reactions are termed fast dithiothreitol-sensitive, slow dithiothreitol-sensitive, and dithiothreitol-insensitive inactivations. The rates of all three phases of the reactions with 5′-FSBA and 5′-FSBG increase as the pH is raised. The 5′-FSBG reaction can be described in terms of initial reaction with a single ionizable group of pKa 7.80, 8.60, and 7.94 for the fast dithiothreitol-sensitive, slow dithiothreitol-sensitive, and dithiothreitol-insensitive reactions, respectively; pH-independent rate constants of 0.173, 0.133, and 0.0165 min?1 are calculated for these three phases of the overall reaction. The pH dependence of the dithiothreitol-insensitive inactivation by 5′-FSBA coincides with that for 5′-FSBG, but the data for the dithiothreitol-sensitive reactions with 5′-FSBA indicate that the reaction in each phase occurs at more than one site over the pH range tested. Differential protection by ligands against inactivation by 5′-FSBA and 5′-FSBG at pH 7.4 and 8.0 indicates that, for the fast dithiothreitol-sensitive reactions, the cysteine residues participating in the two reactions are not identical, although in both cases modification has been attributed to formation of a disulfide. For 5′-FSBA, the partial inactivation appears to result from modification of cysteine residues at the noncatalytic nucleotide site, whereas for 5′-FSBG the inactivation is due to modification within the catalytic metal-nucleotide site. Reaction with 5′-FSBG seems to occur at the same locus for both the fast and slow dithiothreitol-sensitive phases, with the rate difference being ascribable to negative cooperativity among subunits. For the slow dithiothreitol-sensitive inactivation by 5′-FSBA, protection by Mg2+ and by Mg2+ plus ADP suggests that the targets of modification include the active-site cysteine that is modified by 5′-FSBG. The dithiothreitol-insensitive inactivation, shown to be due to reaction of 5′-FSBA with a tyrosine, may result from reaction of both nucleotide analogs with the same residue, although differential protection by the natural ligands suggests that 5′-FSBA and 5′-FSBG bind to two subsites within the active site. 相似文献
2.
J G Howe J Yanov L Meyer K Johnston J W Hershey 《Archives of biochemistry and biophysics》1978,191(2):813-820
Antisera specific for protein synthesis initiation factors IF1, IF2, and IF3 were prepared by immunizing rabbits. When crude cell lysates are analyzed by double immunodiffusion or by immunoelectrophoresis, each antiserum forms a single precipitin line antigenically identical to its cognate factor. The antisera do not crossreact with other initiation factors or with ribosomal proteins. A radioimmune assay was developed for each initiation factor by using the specific antisera and radioactive factors prepared by reductive alkylation with [14C]formaldehyde. The assays detect as little as 10 to 30 ng of factor. Initiation factor concentrations were measured in crude Escherichin coli MRE600 extracts prepared from cells grown exponentially in a rich medium. The three initiation factors are present in approximately stoichiometric amounts and comprise about 1% of the cell protein. The molar ratio of initiation factors to ribosomes is about 0.15, which corresponds to the concentration of native ribosomal subunits. 相似文献
3.
Further sequence analysis of the phage lambda receptor site. Possible implications for the organization of the lamB protein in Escherichia coli K12 总被引:18,自引:0,他引:18
We present the DNA sequence alterations due to seven lamB missense mutations yielding resistance to phages lambda and K10. They reveal five different amino acid positions in the LamB protein. Three positions (245, 247 and 249) define a new region required for phage adsorption. The two other positions (148 and 152) belong to a region where mutations to phage resistance has already been detected. These two regions are hydrophilic and could belong to turns of the protein located at the surface of the cell. All the missense mutational alterations to phage resistance sequenced in the LamB protein correspond to 10 sites located in four different segments of the polypeptide chain. We discuss their location in terms of the notion of phage receptor site and of a working model for the organization of this protein in the outer membrane of Escherichia coli. 相似文献
4.
Transcriptional control of IS1 transposition in Escherichia coli 总被引:5,自引:0,他引:5
5.
The structure of Satellite tobacco necrosis virus (STNV) has been determined to 3.0 Å resolution by X-ray crystallography. Electron density maps were obtained with phases based on one heavy-atom derivative and several cycles of phase refinement using the 60-fold non-crystallographic symmetry in the particle. A model for one protein subunit was built using a computer graphics display. The subunit is constructed mainly of a β-roll structure forming two β-sheets, each of four antiparallel strands. The N-termini of the subunits form bundles of three α-helices extending into the RNA region of the virus at the 3-fold axis. The topology of the polypeptide chain is the same as, and the conformation clearly similar to, that of the shell domains of the Tomato bushy stunt virus (TBSV) and Southern bean mosaic virus (SBMV) protein subunits. The subunit packing in the T = 1 STNV structure is, however, significantly different from the packing of these T = 3 viruses: parts of some of the structural elements facing the RNA in TBSV and SBMV are utilized for subunit-subunit contacts in STNV. No RNA structure is obvious in the present icosahedrally averaged electron density maps. The protein surface facing the RNA contains mainly hydrophilic residues, especially lysine and arginine. 相似文献
6.
Catabolite repression is not involved in the regulation of catalase gene expression. The presence of glucose in minimal salts media and LB medium did not affect the basal levels of catalase but did enhance catalase synthesis following induction with either hydrogen peroxide or ascorbate. The cofactor for catabolite gene activator protein, cAMP, did not affect either the basal levels or the rate or extent of catalase synthesis. Catalase synthesis occurred normally in an adenylate cyclase mutant where β-galactosidase, a catabolite-sensitive enzyme was not synthesized. 相似文献
7.
Refined structure of alkaline phosphatase from Escherichia coli at 2.8 A resolution 总被引:24,自引:0,他引:24
J M Sowadski M D Handschumacher H M Murthy B A Foster H W Wyckoff 《Journal of molecular biology》1985,186(2):417-433
The structure of alkaline phosphatase from Escherichia coli has been determined to 2.8 A resolution. The multiple isomorphous replacement electron density map of the dimer at 3.4 A was substantially improved by molecular symmetry averaging and solvent flattening. From these maps, polypeptide chains of the dimer were built using the published amino acid sequence. Stereochemically restrained least-squares refinement of this model against native data, starting with 3.4 A data and extending in steps to 2.8 A resolution, proceeded to a final overall crystallographic R factor of 0.256. Alkaline phosphatase-phosphomonoester hydrolase (EC 3.1.3.1) is a metalloenzyme that forms an isologous dimer with two reactive centers 32 A apart. The topology of the polypeptide fold of the subunit is of the alpha/beta class of proteins. Despite the similarities in the overall alpha/beta fold with other proteins, alkaline phosphatase does not have a characteristic binding cleft formed at the carboxyl end of the parallel sheet, but rather an active pocket that contains a cluster of three functional metal sites located off the plane of the central ten-stranded sheet. This active pocket is located near the carboxyl ends of four strands and the amino end of the antiparallel strand, between the plane of the sheet and two helices on the same side. Alkaline phosphatase is a non-specific phosphomonoesterase that hydrolyzes small phosphomonoesters as well as the phosphate termini of DNA. The accessibility calculations based on the refined co-ordinates of the enzyme show that the active pocket barely accommodates inorganic phosphate. Thus, the alcoholic or phenolic portion of the substrate would have to be exposed on the surface of the enzyme. Two metal sites, M1 and M2, 3.9 A apart, are occupied by zinc. The third site, M3, 5 A from site M2 and 7 A from site M1, is occupied by magnesium or, in the absence of magnesium, by zinc. As with other zinc-containing enzymes, histidine residues are ligands to zinc site M1 (three) and to zinc site M2 (one). Ligand assignment and metal preference indicate that the crystallographically found metal sites M1, M2 and M3 correspond to the spectroscopically deduced metal sites A, B and C, respectively. Arsenate, a product analog and enzyme inhibitor, binds between Ser102 and zinc sites M1 and M2. The position of the guanidinium group of Arg 166 is within hydrogen-bonding distance from the arsenate site.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
8.
John W. Chase Janet B. Murphy Robert F. Whittier Elke Lorensen John J. Sninsky 《Journal of molecular biology》1983,164(2):193-211
The ssb-1 gene encoding a mutant Escherichia coli single-stranded DNA-binding protein has been cloned into plasmid pACYC184. The amount of overproduction of the cloned ssb-1 gene is dependent upon its orientation in the plasmid. In the less efficient orientation, 25-fold more mutant protein is produced than in strains carrying only one (chromosomal) copy of the gene: the other orientation results in more than 60-fold overproduction of this protein. Analysis of the effects of overproduction of the ssb-1 encoded protein has shown that most of the deficiencies associated with the ssb-1 mutation when present in single gene copy, including temperature-sensitive conditional lethality and deficiencies in amplified synthesis of RecA protein and ultraviolet light-promoted induction of prophage λ+, are reversed by increased production of ssb-1 mutant protein. These results provide evidence in vivo that SSB protein plays an active role in recA-dependent processes. Homogenotization of a nearby genetic locus (uvrA) was identified in the cloning of the ssb-1 mutant gene. This observation has implications in the analysis of uvrA? mutant strains and will provide a means of transferring ssb? mutations from plasmids to the chromosome. On a broader scale, the observation may provide the basis of a general strategy to transfer mutations between plasmids and chromosomes. 相似文献
9.
A strong correlation exists between the relative frequencies of occurrence of the amino acids in bulk Escherichia coli protein and their genetic map positions when the latter are indexed against the position of the origin of DNA synthesis. The greater the production of the amino acid, the closer its operon is to the origin. 相似文献
10.
The secondary attachment site for bacteriophage lambda in the proA/B gene of Escherichia coli 总被引:5,自引:0,他引:5
We have determined the nucleotide sequence of a secondary λ attachment site in , a site that accounts for 3% of lysogens isolated from Escherichia coli strains deleted for the primary site. Direct sequence analysis of the transducing bacteriophages carrying the left and right att junctions, as well as the recombinant pro+ phage reveals that the site shares an 11-nucleotide interrupted homology with the core sequence of the primary site. We have compared the att site with other secondary attachment sites to gain insights into the structural features important for λ integration. 相似文献
11.
12.
Nucleotide sequence of the genes involved in phosphate transport and regulation of the phosphate regulon in Escherichia coli 总被引:30,自引:0,他引:30
M Amemura K Makino H Shinagawa A Kobayashi A Nakata 《Journal of molecular biology》1985,184(2):241-250
The pstA(=phoT), pstB and phoU genes are situated at 84 minutes on the Escherichia coli genetic map. All of them are involved in the negative regulation of the phosphate regulon, and all of them except for phoU are required for the binding-protein-mediated, highly specific phosphate transport. We have determined the DNA sequence of about 4 X 10(3) bases of chromosomal segment containing these genes. Four translational reading frames (TRFs) were detected in the region. We attempted to assign the TRFs to the mutant alleles. Plasmids were constructed so that each contained only one of the TRFs, downstream from the lac promoter, to be used for the complementation tests. By this test, TRF-2, TRF-3 and TRF-4 were identified with the pstA(=phoT), pstB and phoU genes, respectively. Alkaline phosphatase-constitutive mutations of the two strains in our collection were complemented by the plasmid with the TRF-1 region. Therefore, we propose to designate the allele phoW. The order of the genes in this region has been established to be phoS-phoW-pstA(=phoT)-pstB-phoU counterclockwise on the E. coli genetic map. 相似文献
13.
The kinetics of formation and of dissociation of open complexes (RPo) between Escherichia coli RNA polymerase (R) and the lambda PR promoter (P) have been studied as a function of temperature in the physiological range using the nitrocellulose filter binding assay. The kinetic data provide further evidence for the mechanism R + P in equilibrium I1 in equilibrium I2 in equilibrium RPo, where I1 and I2 are kinetically distinguishable intermediate complexes at this promoter which do not accumulate under the reaction conditions investigated. The overall second-order association rate constant (ka) increases dramatically with increasing temperature, yielding a temperature-dependent activation energy in the range 20 kcal (near 37 degrees C) to 40 kcal (near 13 degrees C) (1 kcal = 4.184 kJ). Both isomerization steps (I1----I2 and I2----RPo) appear to be highly temperature dependent. Except at low temperatures (less than 13 degrees C) the step I1----I2, which we attribute to a conformational change in the polymerase with a large negative delta Cp degrees value, is rate-limiting at the reactant concentrations investigated and hence makes the dominant contribution to the apparent activation energy of the pseudo first-order association reaction. The subsequent step I2----RPo, which we attribute to DNA melting, has a higher activation energy (in excess of 100 kcal) but only becomes rate-limiting at low temperature (less than 13 degrees C). The initial binding step R + P in equilibrium I1 appears to be in equilibrium on the time-scale of the isomerization reactions under all conditions investigated; the equilibrium constant for this step is not a strong function of temperature and is approximately 10(7) M-1 under the standard ionic conditions of the assay (40 mM-Tris . HCl (pH 8.0), 10 mM-MgCl2, 0.12 M-KC1). The activation energy of the dissociation reaction becomes increasingly negative at low temperatures, ranging from approximately -9 kcal near 37 degrees C to -30 kcal near 13 degrees C. Thermodynamic (van't Hoff) enthalpies delta H degrees of open complex formation consequently are large and temperature-dependent, increasing from approximately 29 to 70 kcal as the temperature is reduced from 37 to 13 degrees C. The corresponding delta Cp degrees value is approximately -2.4 kcal/deg. We propose that this large negative delta Cp degrees value arises primarily from the burial of hydrophobic surface in the conformational change (I1 in equilibrium I2) in RNA polymerase in the key second step of the mechanism.(ABSTRACT TRUNCATED AT 400 WORDS) 相似文献
14.
15.
Essential interaction between lambdoid phage 21 terminase and the Escherichia coli integrative host factor 总被引:9,自引:0,他引:9
Lambdoid phage 21 requires the Escherichia coli integrative host factor (IHF) for growth. lambda-21 hybrids that have 21 DNA packaging specificity also require IHF. IHF-independent (her) mutants have been isolated. her mutations map in the amino-terminal half of the 21 1 gene. The 1 gene encodes the small subunit of the 21 terminase, and the amino-terminal half of the 1 polypeptide is a functional domain for specifically binding 21 DNA. Hence changes in the DNA-binding domain of terminase, her mutations, render 21 terminase able to function in the absence of IHF. Three of four her mutations studied are trans-dominant. An in vitro system was used to show that packaging of 21 DNA is IHF-dependent. IHF is directly required during the early, terminase-dependent steps of assembly. It is concluded that IHF is a host factor required for function of the 21 terminase. It is proposed, in analogy to the role of IHF in lambda integration, that IHF facilitates proper binding of 21 terminase to phage DNA. Consistent with this proposal, possible IHF-binding sites are present in the 21 cohesive end site. 相似文献
16.
17.
EcoA and EcoE: alternatives to the EcoK family of type I restriction and modification systems of Escherichia coli 总被引:19,自引:0,他引:19
The genes (hsd A) encoding EcoA, a restriction and modification system first identified in Escherichia coli 15T-, behave in genetic crosses as alleles of the genes (hsd K) encoding the archetypal type I restriction and modification system of E. coli K12. Nevertheless, molecular experiments have failed to detect relatedness between the A and K systems. We have cloned the hsd A genes and have identified, on the basis of DNA homology, related genes (hsd E) conferring a new specificity to a natural isolate of E. coli. We show that the overall organization of the genes encoding EcoA and EcoE closely parallels that for EcoK. Each enzyme is encoded by three genes, of which only one, hsdS, confers the specificity of DNA interaction. The three genes are in the same order as those encoding EcoK, i.e. hsdR, hsdM and hsdS and, similarly, they include a promoter between hsdR and hsdM from which the M and S genes can be transcribed. The evidence indicates that EcoA and EcoE are type I restriction and modification enzymes, but they appear to identify an alternative family to EcoK. For both families, the hsdR polypeptide is by far the largest, but the sizes of the other two polypeptides are reversed, with the smallest polypeptide of EcoK being the product of hsd S, and the smallest for the EcoA family being the product of hsdM. Physiologically, the A restriction and modification system differs from that of K and its relatives, in that A-specific methylation of unmodified DNA is particularly effective. 相似文献
18.
Linked multiple mutation is observed after treatment of Escherichia coli with methyl methanesulfonate, N-methyl-N′-nitro-N-nitrosoguanidine, ethyl methanesulfonate, and N-ethyl-N-nitro-N-nitrosoguanidine but not ultraviolet light. Induction of linked multiple mutations requires the uvrE+ gene product indicating the involvement of the mismatch repair system. The observation of linked multiple mutations is not due to mutagenesis occurring in a subpopulation of cells. Growing point mutagenesis also occurs after treatment with these mutagens but not with ultraviolet light. It is likely that the excess of mutations observed with these mutagens at growing points is at least partly a relative effect, rather than one due to an absolute increase of reactivity at the DNA growing point region. This relative effect may result from the operation of an inducible repair mechanism which removes O6-alkylguanine residues from the DNA distal to the bacterial growing point. The adaptive response, first described by Robins &; Cairns (1979) prefers O6-methylguanine over O6-ethylguanine. 相似文献
19.
Various hybrid plasmids carrying a portion of the gene for the gamma subunit of the H+-ATPase of Escherichia coli complemented five mutants defective in the enzyme in a genetic test, indicating that the mutants are defective in the gamma subunit. Since the nucleotide sequence of genomic DNA carried on the plasmids is known, the defective site(s) of the mutants could be located within the gene for the gamma subunit as follows: KF10 and NR70, KF1, and KF12 and KF13 have a mutation causing a defect(s) in amino acid residues 1 to 82, 83 to 167, and 168 to 287, respectively, of the gamma subunit. The biochemical properties of all these mutants except NR70 were analyzed in terms of proton permeability of the membranes and assembly of F1. Results suggested that KF1 and KF10 have defective F1 without at least the alpha and beta subunits on their membranes, whereas KF12 and KF13 have F1's of rather similar structure to that of the wild type. Attempts were made to purify F1 oF KF12 as a single complex. Although the F1 complex dissociated during purification, active alpha and beta subunits of KF12 were partially purified. On the basis of these biochemical and genetic results, it is suggested that structural alterations in the primary sequence of the gamma subunit corresponding to residues 1 to 167 cause more extensive defects in the assembly of F1 than alteration in the sequence of residues 168 to 287. 相似文献
20.
S. Gudis M. Hyodo H. Eberle 《Biochemical and biophysical research communications》1975,62(4):1003-1010
Using a DNA temperature sensitive initiation mutant to synchronize the replication and cell division cycle, we have compared proteins which are synthesized during a period of DNA arrest with those synthesized after return to permissive temperature. This work has led to the identification of a DNA-binding protein of 60–65,000 molecular weight (SDS-gel electrophoresis) whose synthesis appears to be triggered by the initiation event. 相似文献