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1.
Effect of chemical modification of horseradish peroxidase lysine epsilon-amino groups by propionic, butyric, valeric, succinic anhydrides and trinitrobenzolsulfonic acid (TNBS) on catalytic properties of the enzyme is investigated. All the preparations of modified peroxidase have 100% peroxidase activity for o-dianizidine at pH 7.0, which indicates the absence of lysine epsilon-amino group in the enzyme active site. pH-dependencies of modified peroxidase relative activity are studied; modification by anhydrides of monobasic acids is not found to result in changes of the relative activity pH-profile, while modification by succinic anhydride widens it. Absorption and circular dichoism spectra of native and modified peroxidase within 260--270 nm are obtained, some changes in the enzyme tertiary structure after its epsilon-amino groups modification are observed. Modification of four epsilon-amino groups by buturic and succinic anhydrides and of three epsilon-amino groups by TNBS is found to increase the regidity of protein surrounding of heme, and modification of six epsilon-amino groups by TNBS results in more unwrapped enzyme structure as compared with its native molecule.  相似文献   

2.
Human serum albumin has been modified with 2,4,6-trinitrobenzenesulphonic acid and picryl chloride in low ratios of reagents/albumin. The derivatives have been investigated by spectrophotometry and by thin layer chromatography of the hydrolysates in order to assess the specificity of the reagents. The same reaction conditions were used to modify albumin previously complexed with bilirubin in the ratio of 1:1. The affinity of bilirubin to the modified albumins was estimated by an improved perozidase method. It is concluded that TNBS and picryl chloride react almost quantity with epsilon-amino groups of lysine on the albumin molecule. The results also suggest that at least on TNBS reactive amino group and at least one picryl chloride reactive amino group are located in or near the high-affinity bilirubin binding site.  相似文献   

3.
The binding of [3H]dihydrostreptomycin to the 70-S ribosome or to the 30-S subunit has been investigated in the presence of neomycin by the Millipore filtration or the equilibrium dialysis procedure. It was observed that dihydrostreptomycin binds equally well to the 30-S subunit and the 70-S ribosome, and that neomycin stimulates the binding of dihydrostreptomycin to the ribosome by increasing the association constant and not by creating new binding sites. Specific removal of protein S1 from the 30-S subunit neither affected the binding of dihydrostreptomycin to the ribosome nor the stimulation of dihydrostreptomycin binding by neomycin.  相似文献   

4.
Periodate-oxidized ADP and ATP (oADP and oATP) are substrates and affinity reagents for creatine kinase from rabbit skeletal muscle. oADP and oATP modified a lysine epsilon-amino group in the nucleotide-binding site of the enzyme. Complete inactivation is observed upon binding 2 moles oADP per 1 mole of the enzyme dimer. Modification with oADP is described by a liner dependence of the log of enzyme activity on time, testifying to a pseudo-first-order of the reaction. The reaction rate constant (ki = 8.10(3) min-1) and dissociation constant for the reversible enzyme-oADP complex (Kd = 62 microM) were determined. ADP protected the enzyme from inactivation and covalent binding of the analog, whereas oADP covalently bound to the enzyme was phosphorylated by phosphocreatine. The data obtained allow to suggest that the epsilon-amino group of a lysine residue of the active site is located in close proximity to ribose of ATP and ADP forming a complex with the enzyme. This group seems essential for correct orientation of the nucleotide polyphosphate chain in the enzyme active center, but take no immediate part in the transphosphorylation process.  相似文献   

5.
The involvement of nucleotides adjacent to the termination codons in tRNA during the suppression of termination has been formulated as the 'context theory' by Bossi and Roth (1980) [Nature (Lond.) 286, 123-127]. The finding that U-U-G functions as an initiator codon has revived the discussion on the participation of the nucleotides flanking the initiator triplet in the decoding of initiator tRNA (context theory of initiation by the ribosome). We compared the capacity of oligonucleotides cognate to the anticodon loop of formylmethionine tRNA, such as A-U-G, A-U-G-A and U-A-U-G-A, to enhance the formation of the 30-S and 70-S ribosomal initiation complexes. Three different methods were used to determine the apparent binding constants and the stoichiometries of the respective complexes: adsorption of the complexes to nitrocellulose filters, equilibrium dialysis, and velocity sedimentation. We found that in the 30-S ribosomal initiation complex and in the presence of initiation factor 2 and GTP, formylmethionyl-tRNA is preferentially decoded by more than three mRNA bases. With the 70-S ribosome, however, once initiation factor 2 had been released, A-U-G represented the most effective codon to direct the formylmethionyl-tRNA to the peptidyl site. An extended initiator sequence may either give additional stability to the 30-S initiation complex or may allow for an ambiguity by one base pair in the decoding of the initiator tRNA.  相似文献   

6.
Lysine epsilon-amino groups of human factor H were selectively converted to guanidino groups by treatment with 0.1 M O-methylisourea at pH 10.4. Guanidination resulted in a dose-dependent decrease in the capacity of the regulatory protein to accelerate decay dissociation of P-stabilized amplification C3 convertase sites, to serve as a co-factor for cleavage of cell-bound C3b by I, and to compete for binding of 125I-untreated H to C3b. Modification of approximately 75% lysine epsilon-amino groups suppressed 97% of H functional activity. Biochemical analysis of native H demonstrated a total carbohydrate content of 18.5% (w/w) and the presence in the molecule of 11 biantennary oligosaccharidic chains of the N-acetyl-lactosaminic type. Total desialation of H by using Clostridium perfringens neuraminidase, and total deglycosylation of desialated H by using beta-endo-N-acetylglucosaminidase resulted in a 1.5- to 2-fold increase in H activity on a weight basis. Deglycosylation did not alter the capacity of H to discriminate between activating and nonactivating surfaces of the alternative pathway. Thus, lysine residues are important determinants of the binding capacity of H for cell-bound C3b, whereas the carbohydrate portion of the molecule is not required for the regulatory function of the protein on the amplification C3 convertase.  相似文献   

7.
Role of lysine residues in the colchicine binding site and in the assembly-disassembly process was examined. It was observed that at 4 degrees C (pH 7.5-8, 8 +/- 1) lysine residues and the N-terminal methionine residue of tubulin were all buried within the molecule. Evidence indicates that epsilon-amino groups of lysine residues of tubulin are shared by both the colchicine binding site and the polymerisation process.  相似文献   

8.
Glucagon was acylated at position 12 using conditions favoring reaction with the epsilon-amino group of lysine. The N epsilon-acetyl, N epsilon-hexanoyl, and N epsilon-decanoyl derivatives were prepared and purified. Secondary structure as measured by circular dichroism was lower in all derivatives than in glucagon, both in 95% methanol and in 25 mM sodium dodecyl sulfate at pH 2 and pH 12. N epsilon-Acetyl glucagon was less active than the native hormone in a radioreceptor assay and higher concentrations of this derivative were required to stimulate the adenylate cyclase activity of rat liver plasma membranes. The maximal extent of cyclase activation by this derivative was less than that found with the native hormone. N epsilon-Hexanoyl glucagon and N epsilon-decanoyl glucagon had greater activity than N epsilon-acetyl glucagon in receptor binding as well as in adenylate cyclase activation, although these two derivatives were not as active as the native hormone. N epsilon-hexanoyl glucagon and N epsilon-decanoyl glucagon were more potent in receptor binding than in adenylate cyclase activation. From these results it appears that the positive charge of the epsilon-amino groups may have a specific role in obtaining maximal biological activity, while the acyl groups contribute to the nonspecific hydrophobic interactions between the hormone and its receptor. In addition, a possible relationship between stabilization of the amphipathic helix in solution and the activity of these and other N epsilon-derivatives of glucagon is discussed.  相似文献   

9.
Paromomycin binds specifically to a single type of binding site on the 70-S streptomycin-sensitive Escherichia coli ribosome. This site is different from that of dihydrostreptomycin since paromomycin binds to streptomycin-resistant ribosomes and sine dihydrostreptomycin does not compete for paromomycin binding. Paromomycin binding, unlike dihydrostreptomycin binding, is independent of changes in ribosome concentration but influenced by magnesium ion concentration. Moreover, paromomycin does not bind to the 30-S subunit of the streptomycin-sensitive ribosome, except in the presence of dihydrostreptomycin, which probably induces the conformational changes necessary for a paromomycin binding site. This induction does not occur with streptomycin-resistant ribosomes. Neither antibiotic binds to the 50-S subunit. In general, binding of the one antibiotic increases the number of sites available for binding of the other. Both antibiotics exhibit marked non-specific binding at high antibiotic/ribosome ratios. Competition studies have enabled the classification of other aminoglycosides according to their ability to compete for the paromomycin and dihydrostreptomycin binding sites. Derivatives structurally related to paromomycin compete for its binding, the degree of competition being related to antibacterial activity, but do not compete for dihydrostreptomycin binding; they, on the contrary, increase the number of dihydrostreptomycin binding sites. Neither gentamicin nor kanamycin derivatives, which induce a high level of misreading, nor kasugamycin and spectinomycin, which do not induce misreading, compete for paromomycin or dihydrostreptomycin binding sites. Other sites may be involved in the binding of these aminoglycosides and in inducing misreading.  相似文献   

10.
30-S ribosomal subunits are inactivated by iodination for both enzymic fMet-tRNA and non-enzymic Phe-tRNA binding activities. This inactivation is due to modification of the protein moiety of the ribosome. Reconstitutions were performed with 16-S RNA and mixtures of total protein isolated from modified subunits and purified proteins isolated from unmodified subunits. This allowed identification of the individual proteins which restore tRNA binding activity. S3, S14 and S19 were identified as proteins involved in fMet-tRNA binding. S1, S2, S3, S14 and S19 were identified as proteins involved in Phe-tRNA binding. Modified particles shown normal sedimentation constants and complete protein compositions both before and after reconstitution. This suggests that the loss of activity is due to modification of one or more of the actual binding sites located on the 30-S subunit and that restoration of activity is due to structural correction at this site rather than to correction of an assembly defect.  相似文献   

11.
Pyridoxal-5-phosphate (in a lesser degree, pyridoxal) interacts with both non-protonated and protonated exposed epsilon-amino groups of lysine residues and with alpha-amino groups in human serum albumin and pancreatic ribonuclease A. The reaction of Schiff base formation proceeds within a wide pH range--from 3.0 to 12.0. At a great pyridoxal-5-phosphate excess in ribonuclease A in neutral or slightly acidic aqueous media all the ten epsilon-amino groups of lysine residues and the alpha-amino groups of Lys-1 become modified. The formation of aldimine bonds of pyridoxal-5-phosphate with protonated amino groups in acidic media is determined by ionization of its phenol hydroxyl and phosphate residues. Acetaldehyde, propionic aldehyde and pyridine aldehyde interact only with non-protonated amino groups of the proteins. The equilibrium constants of pyridoxal-5-phosphate and other aldehydes binding to proteins and amino acids were determined. The rate constants of Schiff base formation for pyridoxal-5-phosphates with some amino acids and primary sites of proteins for direct and reverse reactions were calculated.  相似文献   

12.
Recent X-ray and cryo-EM studies of 70S ribosome complexes containing different types of messenger RNAs (mRNA) and transfer RNA (tRNA) have been reviewed. Changes of the mRNA path on the ribosome at initiation and elongation states have been described. Authors suggested, that the specific region of ribosomal 30S subunit ("platform") is a ribosome binding site of regulatory domains of mRNA which locates on the non-translated 5'-end of the mRNA.  相似文献   

13.
Ribosomal protein S4 represses synthesis of the four ribosomal proteins (including itself) in the Escherichia coli alpha operon by binding to a nested pseudoknot structure that spans the ribosome binding site. A model for the repression mechanism previously proposed two unusual features: (i) the mRNA switches between conformations that are "active" or "inactive" in translation, with S4 as an allosteric effector of the inactive form, and (ii) S4 holds the 30 S subunit in an unproductive complex on the mRNA ("entrapment"), in contrast to direct competition between repressor and ribosome binding ("displacement"). These two key points have been experimentally tested. First, it is found that the mRNA pseudoknot exists in an equilibrium between two conformers with different electrophoretic mobilities. S4 selectively binds to one form of the RNA, as predicted for an allosteric effector; binding of ribosomal 30 S subunits is nearly equal in the two forms. Second, we have used S4 labeled at a unique cysteine with either of two fluorophores to characterize its interactions with mRNA and 30 S subunits. Equilibrium experiments detect the formation of a specific ternary complex of S4, mRNA pseudoknot, and 30 S subunits. The existence of this ternary complex is unambiguous evidence for translational repression of the alpha operon by an entrapment mechanism.  相似文献   

14.
The binding of labeled initiation factor IF-1 to ribosomal particles has been studied in relation to the mode of action of this factor in the dissociation of 70-S ribosomes. It is demonstrated that IF-1 interacts specifically with active 70-S tight couples and free 30-S subunits. The binding of IF-1 to both 70-S and 30-S particles is not influenced by the Mg2+ concentration and the affinity of the factor for both particles is about the same. The interaction of IF-1 with these particles is highest at low Tris-HCl concentrations. Under these conditions IF-1 shows a slight dissociating activity. Using 3H-labeled IF-1 and 14C-labeled IF-3 the formation of a 30-S-subunit.IF-1 . IF-3 complex from 70-S ribosomes is demonstrated. Our studies show that IF-3 enhances the binding of IF-1 to the 30-S subunit. In contrast to IF-1, which binds about equally well to 70-S and 30-S particles in the absence of IF-3, 14C-labeled IF-3 binds predominantly to the 30-S subunit. This finding confirms the view that IF-3 acts as an anti-association factor. On the other hand, IF-1 enhances the supply of 30-S subunits in the presence of IF-3 by acting on the 30-S moiety of the 70-S ribosome.  相似文献   

15.
The spatial organization of template polynucleotides on the ribosome and the dynamics of their interaction with 30 S subunits have been studied by fluorescence spectroscopy. The topography of the mRNA in the ribosome has been determined using singlet-singlet energy transfer. This method has allowed us to estimate distances between donors and acceptors of energy which have been linked to the terminal residues of template polynucleotides (poly- and oligo(U) and oligo(A] and 16 S RNA or to SH-groups of ribosomal proteins S1 and S8. The dynamics of mRNA-ribosome interaction have been investigated by the fluorescence stopped-flow technique. It has been shown that the binding to the 30 S subunit of poly(U) with length much shorter (16 nucleotides) than that covered by the ribosome is greatly enhanced by protein S1. However, the final position of oligo(U)16 on the 30 S subunit, which probably includes the ribosomal decoding site, proves to be quite different from that occupied by oligo(U)16 on a free protein S1. Interaction of oligo- and poly(U) with the 30 S subunit occurs in at least two steps: the first one is as fast as the interaction of poly(U) with free S1, whereas the second step represents a first-order reaction. Therefore, the second step may reflect some rearrangement of the template in the ribosome after its primary binding. It is suggested that protein S1 in some cases may fulfill the role of a transient binding site for mRNA in the course of its interaction with the ribosome. The general shape of the template in the mRNA binding region of the ribosome has been studied using various synthetic ribopolynucleotides and has been shown to be similar. It can be represented by a loop(s) or "U-turn(s)". On the basis of estimation of distances from the ends of poly(U) to some well-localized points on the 30 S ribosomal surface, a tentative model of mRNA path through the ribosome is proposed.  相似文献   

16.
Initiation factor 3 (IF-3) has been labelled using dansyl (1-dimethylaminonaphthalene-5-sulphonyl) chloride under conditions designed to preserve the biological activity of the factor. The sites of modification of the IF-3 have been determined by peptide mapping and sequencing: about six lysines (73, 80, 91, 96, 99, 112) react in various proportions. However, if an IF-3 molecule bears more than one dansyl group on average then its activity is lost. The extent of incorporation is proportional to the amount of dansyl chloride used in the reaction. Spectrofluorimetric analysis of the dansyl-IF-3 leads to the following conclusions. (a) The motion of the dansyl label does not change greatly upon binding to the 30-S subunit. (b) The label is not close enough to any tryptophan group of the ribosome in the 30-S-subunit . IF-3 complex to allow energy transfer. (c) The IF-3 chain is folded so as to bring the tyrosine groups close to the dansyl-binding sites. (d) The stoichiometry of the binding of IF-3 to 30-S ribosomal subunits is close to 1:1 and the binding constant is 2 x 10(7) M-1. IF-3 also binds non-covalently the fluorescent indicator 8-anilinonaphthalene 1-sulphonate (ANS) with an apparent binding constant of approximately 8000 M-1. An interaction between ANS and poly(A-U-G), both bound to IF-3, was demonstrated. Combining these results with those for dansyl-IF-3 leads to a model for the interaction between IF-3 and the 30-S subunit involving a combination of 'hydrophobic' and electrostatic attraction between the factor and ribosomal RNA.  相似文献   

17.
Ribosome dissociation factor has been found in wheat germ acetone powder extracts. Further purification of the crude extract by pH and ammonium sulfate fractionations, DEAE-cellulose and CM-Sephadex column chromatography has resulted in the separation of two active fractions. The possibility that ribosome dissociation activity exhibited by either fraction is due to a protease or nuclease is considered unlikely, based on results of experiments involving ribosome dissociation kinetics, subunit structural integrity, and treatment with a serine protease inhibitor. Wheat germ ribosome dissociation factor is not species-specific. Dissociation factor from both fractions will promote the dissociation of Escherichia coli 70-S as well as Artemia salina 80-S ribosomes. Although both dissociation factor activities show the same dependence on K+ and Mg2+ for optimal activity, the two activities exhibit significant differences in their sensitivity to sulfhydryl reagents and heat, and in their dependence on incubation temperature for activity. Certain properties of both factors suggest that neither factor is initiation factor eIF-3; however, the possibility that one or both factors are subunits of initiation factor eIF-3 remains to be determined.  相似文献   

18.
Sulfhydryl-alkylating reagents are known to inactivate the NAD glycohydrolase and ADP-ribosyltransferase activities of the S1 subunit of pertussis toxin, a protein which contains two cysteines at positions 41 and 200. It has been proposed that NAD can retard alkylation of one of the two cysteines of this protein (Kaslow, H.R., and Lesikar, D.D. (1987) Biochemistry 26, 4397-4402). We now report that NAD retards the ability of these alkylating reagents to inactivate the S1 subunit. In order to determine which cysteine is protected by NAD, we used site-directed mutagenesis to construct analogs of the toxin with serines at positions 41 and/or 200. Sulfhydryl-alkylating reagents reduced the ADP-ribosyltransferase activity of the analog with a single cysteine at position 41; NAD retarded this inactivation. In contrast, sulfhydryl-alkylating reagents did not inactivate analogs with serine at position 41. An analog with alanine at position 41 possessed substantial ADP-ribosyltransferase activity. We conclude that alkylation of cysteine 41, and not cysteine 200, inactivates the S1 subunit of pertussis toxin, but that the sulfhydryl group of cysteine 41 is not essential for the ADP-ribosyltransferase activity of the toxin. These results suggest that the region near cysteine 41 contributes to features of the S1 subunit important for ADP-ribosyltransferase activity. Using site-directed mutagenesis, we found that changing aspartate 34 to asparagine, arginine 39 to lysine, and glutamine 42 to glutamate had little effect on ADP-ribosyltransferase activity. However, substituting an asparagine for the histidine at position 35 markedly decreased, but did not eliminate, ADP-ribosyltransferase activity. Chou-Fasman analysis predicted no significant modifications in secondary structure of the S1 peptide with the change of histidine 35 to asparagine. Thus, histidine 35 may interact with a substrate of the S1 subunit without being essential for catalysis.  相似文献   

19.
Mapping the lacZ ribosome binding site by RNA footprinting   总被引:6,自引:0,他引:6  
G J Murakawa  D P Nierlich 《Biochemistry》1989,28(20):8067-8072
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20.
Photoreactive derivatives of the Bowman-Birk trypsin-chymotrypsin inhibitor (BBI) from soybeans and of CI, the trypsin-chymotrypsin inhibitor from chick peas, were prepared by selective modification of the epsilon-amino groups of lysine residues with 2-nitro-4(5)-azidophenylsulfenyl chlorides (2,4(5)-NAPS-C1). The ultraviolet absorption spectra of the photolabeled inhibitors indicated that three out of the five lysines of BBI and one of the seven lysines of CI were modified. The inhibitory activity of the modified inhibitors towards trypsin and chymotrypsin was not reduced even after photolysis. The specific lysine residues that constitute the trypsin-inhibitory sites of BBI and CI did not react with the photoreactive reagents. Further modification of the photoreactive derivatives of BBI and CI with maleic anhydride, directed towards the trypsin-reactive sites, resulted in almost complete loss of the trypsin-inhibiting activity without reducing the ability to inhibit chymotrypsin. A pronounced potentiation effect (approximately 2x) of the chymotrypsin inhibiting activity was noted for 2,5-NAPS-CI and it was retained even after maleylation followed by photolysis, raising the possibility of exposure of an additional chymotrypsin inhibitory site in CI.  相似文献   

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