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1.
Gentamicin nucleotidyltransferase-catalyzed reaction of (Sp)-[alpha-17O]dATP with tobramycin produced 2"-(2'-deoxyadenosine 5'-[17O]phosphoryl)tobramycin. The configuration at phosphorus in this product was shown to be Rp by chemical degradation to chiral [17O, 18O]dAMP using a stereochemically defined procedure, and determination of the configuration at phosphorus in this product. Periodate-base treatment of 2"-(2'-deoxyadenosine 5'-[17O]phosphoryl)tobramycin followed by NaBH4 reduction produced (2-glyceryl)-[17O]dAMP, which upon snake venom phosphodiesterase-catalyzed hydrolysis in H(2)18O produced [17O,18O] dAMP. The configuration at phosphorus in this product was shown to be S by enzymatic phosphorylation to [17O,18O]dATP, adenylylcyclase (Bordetella pertussis)-catalyzed cyclization to 3',5'-cyclic [17O,18O]dAMP, and 31P NMR analysis of the ethyl esters. Since snake venom phosphodiesterase-catalyzed hydrolyses proceed with retention of configuration at phosphorus, (Sp)-[17O,18O]dAMP must have been produced from (Rp)-(2-glyceryl)-[17O]dAMP; and since the chemical degradation to the latter compound did not involve cleavage of any bonds to phosphorus, the initial enzymatic product must have been (Rp)-2"-(2'-deoxyadenosine 5'-[17O]phosphoryl)tobramycin. Therefore, nucleotidyl transfer catalyzed by gentamicin nucleotidyl-transferase proceeds with inversion of configuration at phosphorus, and the reaction mechanism involves an uneven number of phosphotransfer steps. Inasmuch as this is an uncomplicated two-substrate group transfer reaction, the mechanism probably involves direct nucleotidyl transfer from the nucleoside triphosphate to the aminoglycoside. The B. pertussis adenylylcyclase reaction was shown to proceed with inversion at phosphorus, as has been established for other adenylylcyclases.  相似文献   

2.
Guinea pig liver mitochondrial phosphoenolpyruvate carboxykinase catalyzes the conversion of (Rp)-guanosine 5'-(3-thio[3-18O]triphosphate) and oxalacetate to (Sp)-[18O] thiophosphoenolpyruvate , GDP, and CO2 by a mechanism that involves overall inversion in the configuration of the chiral [18O]thiophosphate group. This result is most consistent with a single displacement mechanism in which the [18O]thiophosphoryl group is transferred from (Rp)-guanosine 5'-(3-thio[3-18O]triphosphate) bound at the active site directly to enolpyruvate generated at the active site by the decarboxylation of oxalacetate. In particular, this result does not indicate the involvement of a covalent thiophosphoryl-enzyme on the reaction pathway.  相似文献   

3.
A simplified method is described for the enzymatic synthesis and purification of [alpha-32P]ribo- and deoxyribonucleoside triphosphates. The products are obtained at greater than 97% radiochemical purity with yields of 50--70% (relative to 32Pi) by a two-step elution from DEAE-Sephadex. All reactions are done in one vessel as there is no need for intermediate product purifications. This method is therefore suitable for the synthesis of these radioactive compounds on a relatively large scale. The sequential steps of the method involve first the synthesis of [gamma-32P]ATP and the subsequent phosphorylation of nucleoside 3' monophosphate with T4 polynucleotide kinase to yield nucleoside 3', [5'-32P]diphosphate. Hexokinase is used after the T4 reaction to remove any remaining [gamma-32P]ATP. Nucleoside 3',[5'-32P]diphosphate is treated with nuclease P-1 to produce the nucleoside [5'-32P]monophosphate which is phosphorylated to the [alpha-32P]nucleoside triphosphate with pyruvate kinase and nucleoside monophosphate kinase. Adenosine triphosphate used as the phosphate donor for [alpha-32P]deoxynucleoside triphosphate syntheses is readily removed in a second purification step involving affinity chromatography on boronate-polyacrylamide. [alpha-32P]Ribonucleoside triphosphates can be similarly purified when deoxyadenosine triphosphate is used as the phosphate donor.  相似文献   

4.
Adenosine 5'-(S)-[16O,17O,18O]phosphate was pyrophosphorylated by the combined action of adenylate kinase and pyruvate kinase. The isotopomers of adenosine 5'-[alpha-16O,17O,18O]triphosphate were hydrolysed by venom 5'-nucleotide phosphodiesterase (Crotalus adamanteus) in H2(17)O. Analysis by 31P nuclear magnetic resonance spectroscopy of the resulting adenosine 5'-[16O,17O,18O]phosphate, after cyclization and esterification, showed that the hydrolysis occurs with retention of configuration at phosphorus. The most likely explanation of this observation is that the enzymic hydrolysis involves a double displacement at phosphorus with a covalent nucleotidyl--enzyme intermediate on the reaction pathway.  相似文献   

5.
Mung-bean (Phaseolus aureus) nuclease has been found to cleave the Sp diastereoisomer of 5'-O-thymidyl 3'-O-(2'-deoxyadenosyl)phosphorothioate, (Sp)-d[Ap(S)T], in 18O-labelled water with inversion of configuration at phosphorus to give (Sp)-thymidine 5'-[16O, 18O]phosphorothioate, the stereochemistry of which was deduced by methylation to (Rp,Sp)-thymidine 5'-S-methyl-O-methyl-[16O,18O]phosphorothioate and 31P-n.m.r. analysis. This result is consistent with a mechanism involving a direct 'in-line' attack of water on DNA for the nuclease-catalysed reaction without the involvement of a covalent nucleotidylated-enzyme intermediate.  相似文献   

6.
Herpes simplex virus type I (HSV-I)-induced thymidine kinase has been shown to catalyze phosphoryl transfer from adenosine 5'-[gamma-(S)-16O,17O,18O]triphosphate to thymidine with inversion of configuration at phosphorus. The simplest interpretation of this result is that phosphoryl transfer occurs by a single in-line group transfer between ATP and thymidine within the ternary enzyme complex.  相似文献   

7.
2-Azidoadenosine was synthesized from 2-chloroadenosine by sequential reaction with hydrazine and nitrous acid and then bisphosphorylated with pyrophosphoryl chloride to form 2-azidoadenosine 3',5'-bisphosphate. The bisphosphate was labeled in the 5'-position using the exchange reaction catalyzed by T4 polynucleotide kinase in the presence of [gamma-32P]ATP. Polynucleotide kinase from a T4 mutant which lacks 3'-phosphatase activity (ATP:5'-dephosphopolynucleotide 5'-phosphotransferase, EC 2.7.1.78) was required to facilitate this reaction. 2-Azidoadenosine 3',5'-[5'-32P]bisphosphate can serve as an efficient donor in the T4 RNA ligase reaction and can replace the 3'-terminal adenosine of yeast tRNAPhe with little effect on the amino acid acceptor activity of the tRNA. In addition, we show that the modified tRNAPhe derivative can be photochemically cross-linked to the Escherichia coli ribosome.  相似文献   

8.
S P Harnett  G Lowe  G Tansley 《Biochemistry》1985,24(25):7446-7449
RNA ligase from bacteriophage T4 infected Escherichia coli catalyzes the activation of adenosine 3',5'-bisphosphate (representing the donor oligonucleotide) by adenosine 5'-[(S)-alpha-17O,alpha,alpha-18O2]triphosphate with retention of configuration at P alpha. Since single-step enzyme-catalyzed nucleotidyl transfer reactions proceed with inversion, this stereochemical result provides support for a double displacement mechanism involving an adenylyl-enzyme intermediate as proposed previously from isotope exchange experiments.  相似文献   

9.
(Rp)- and (Sp)-5'-O-thymidyl 3'-O-thymidyl [18O]phosphates have been synthesized by reaction of the respective (Sp)- and (Rp)-phosphorothioate precursors with N-bromosuccinimide in dioxane and H218O. Stereochemical analysis of the product derived from the (Rp)-phosphorothioate by digestion with snake venom phosphodiesterase in H217O and examination of the isotopic chirality of the resulting thymidine 5'-[16O,17O,18O]phosphate demonstrate that the replacement reaction has proceeded with inversion of configuration at phosphorus. Inspection of the 31P NMR spectrum of the methyl esters prepared from (Sp)-5'-O-thymidyl 3'-O-thymidyl [18O]phosphate confirms that the replacement reaction has proceeded with very little if any racemization. This spectrum also allows the assignment of the absolute configuration of these methyl triesters. (Rp)-5'-O-Thymidyl 3'-O-thymidyl [18O]phosphate has been used to demonstrate that the stereochemical course of the hydrolytic reaction catalyzed by nuclease P1 from Penicillium citrum proceeds with inversion of configuration at phosphorus and therefore probably does not involve the participation of a covalent enzyme intermediate.  相似文献   

10.
Isoleucyl-tRNA synthetase from Escherichia coli catalyzes the activation of [18O2]isoleucine by adenosine 5'-[(R)-alpha-17O]triphosphate with inversion of configuration at phosphorus. Moreover, isoleucyl-tRNA synthetase does not catalyze positional isotope exchange in adenosine 5'-[beta-18O2]triphosphate in the absence of isoleucine or in the presence of the competitive inhibitor isoleucinol, which effectively eliminates the possibility of either adenylyl-enzyme or adenosine metaphosphate intermediates being involved. Together, these observations require that isoleucyl-tRNA synthetase catalyzes the activation of isoleucine by associative "in line" nucleotidyl transfer. The synthesis of adenosine 5'-[(R)-alpha-17O]diphosphate and its conversion to adenosine 5'-[(R)-alpha-17O]triphosphate is described and an explanation provided for the reported differences between the treatment of adenosine 5'-[(S)-alpha-thiodiphosphate] with cyanogen bromide and bromine in [18O]water.  相似文献   

11.
The stereochemical course of the ribosome-dependent GTPase reaction of elongation factor G from Escherichia coli has been determined. Guanosine 5'-(gamma-thio)triphosphate stereospecifically labeled with 17O and 18O in the gamma-position was hydrolyzed in the presence of the elongation factor and ribosomes. The configuration of the product, inorganic [16O, 17O, 18O]thiophosphate ws analyzed by 31P NMR after its stereospecific incorporation into adenosine 5'-(beta-thio)triphosphate. The analysis showed that the hydrolysis proceeds with inversion of configuration at the transferred phosphorus atom. It is therefore likely that the hydrolysis occurs in a single step by direct, in-line transfer of the phosphorus from GDP to a water oxygen, without a phosphoenzyme intermediate.  相似文献   

12.
Methionyl-tRNA synthetase from Escherichia coli catalyses the activation of [18O2]methionine by adenosine 5'-[(R)-alpha 17O]triphosphate with inversion of configuration at P alpha. Furthermore methionyl-tRNA synthetase does not catalyse positional isotope exchange in adenosine 5'-[beta-18O2]triphosphate in the absence of methionine or in the presence of the competitive inhibitor, methioninol, which eliminates the possibility of either adenylyl-enzyme or adenosine metaphosphate intermediates being involved. These observations require that methionyl-tRNA synthetase catalyses the activation of methionine by an associative 'in-line' nucleotidyl transfer mechanism. A kinetic study of positional isotope exchange in adenosine 5'-[beta-18O2]triphosphate in the presence of methionine, Mg2+ and methionyl-tRNA synthetase showed that torsional equilibration (18O exchange into the P alpha--O--P beta bridge) occurs faster than tumbling (18O exchange into P gamma by rotation about the C2 axis of Mg[18O2]PPi), demonstratings that the positional isotope exchange occurs at least in part in the E X Met-AMP X Mg[18O2]PPi complex.  相似文献   

13.
[18O]Adenosine 5'-O-phosphorothioate-O-p-nitrophenyl ester was prepared by saponification of the bis (-O,O-p-nitrophenyl ester) with K18OH. Only the diastereoisomer with the Rp configuration si a substrate for snake venom phosphodiesterase. The asymmetrically labeled [18O]adenosine 5'-O-phosphorothioate formed in this reaction was converted enzymatically to [18O]adenosine 5'-(1-thiodiphosphate) with the Sp configuration. The position of the 18O label, either bridging [1,2-mu-18O] or nonbridging [1-18O] was then determined. The results show that the reaction catalyzed by snake venom phosphodiesterase takes place with retention of configuration at phosphorus. This indicates that the hydrolysis proceeds via a covalent nucleotide enzyme intermediate.  相似文献   

14.
The three stereoisomers of P1,P4-bis(5'-adenosyl)-1,4-dithiotetraphosphate have been synthesized and their 31P NMR spectra investigated. The effect of temperature on the circular dichroic spectrum of the (Sp,Sp)-stereoisomer shows that unstacking of the molecule occurs as the temperature is raised. Treatment of the (Sp,Sp)-stereoisomer with cyanogen bromide in [18O]water leads to substitution of sulfur by 18O with predominant retention of configuration at P1 and P4. (Sp,Sp)-P1,P4-Bis(5'-adenosyl)-1[thio-18O2],4[thio-18O2]tetraphosphate was synthesized and on treatment with cyanogen bromide in [17O]water gave (Rp,Rp)-P1,P4-bis(5'-adenosyl)-1[17O,18O2],4[17O,18O2]tetraphosphate. Hydrolysis by unsymmetrical Ap4A phosphodiesterase from lupin seeds gave (Rp)-5'-[16O,17O,18O]AMP. The reaction therefore proceeds with inversion of configuration at phosphorus, indicating that the enzyme-catalyzed displacement by water occurs by a direct "in-line" mechanism.  相似文献   

15.
Adenosine 3':5'-cyclic phosphorothioate, Sp-diastereomer was hydrolyzed by cyclic phosphodiesterase from beef heart in the presence of [18O]water to [18O]adenosine 5'-phosphorothioate. This was phosphorylated by myokinase and pyruvate kinase to [18O]adenosine 5'-(1-thiotriphosphate),Sp-diastereomer. The position of 18O was determined to be in a nonbridging position. This result indicates that the hydrolysis proceeded with inversion of configuration at phosphorus.  相似文献   

16.
A P Gupta  S J Benkovic 《Biochemistry》1984,23(24):5874-5881
(Sp)-2'-Deoxyadenosine 5'-O-[1-17O,1-18O,1,2-18O]triphosphate has been synthesized by desulfurization of (Sp)-2'-deoxyadenosine 5'-O-(1-thio[1,1-18O2]diphosphate) with N-bromosuccinimide in [17O]water, followed by phosphorylation with phosphoenolpyruvate-pyruvate kinase. A careful characterization of the product using high-resolution 31P NMR revealed that the desulfurization reaction proceeded with approximately 88% direct in-line attack at the alpha-phosphorus and 12% participation by the beta-phosphate to form a cyclic alpha,beta-diphosphate. The latter intermediate underwent hydrolysis by a predominant nucleophilic attack on the beta-phosphate. This complexity of the desulfurization reaction, however, does not affect the stereochemical integrity of the product but rather causes a minor dilution with nonchiral species. The usefulness of the (Sp)-2'-deoxyadenosine 5'-O-[1-17O,1-18O,1,2-18O]triphosphate in determining the stereochemical course of deoxyribonucleotidyl-transfer enzymes is demonstrated by using it to delineate the stereochemical course of the 3'----5'-exonuclease activity of DNA polymerase I. Upon incubation of this oxygen-chiral substrate with Klenow fragment of DNA polymerase I in the presence of poly[d(A-T)] and Mg2+, a quantitative conversion into 2'-deoxyadenosine 5'-O-[16O,17O,18O]monophosphate was observed. The stereochemistry of this product was determined to be Rp. Since the overall template-primer-dependent conversion of a deoxynucleoside triphosphate into the deoxynucleoside monophosphate involves incorporation into the polymer followed by excision by the 3'----5'-exonuclease activity and since the stereochemical course of the incorporation reaction is known to be inversion, it can be concluded that the stereochemical course of the 3'----5'-exonuclease is also inversion.  相似文献   

17.
Polynucleotide kinase (bacteriophage-T4-infected Escherichia coli B) catalyses the transfer of the [gamma-16O,17O,18O]phosphoryl group from 5'[gamma(S)-16O,17O,18O]ATP to 3'-AMP with inversion of configuration at the phosphorus atom. The simplest interpretation of this observation is that the [gamma-16O,17O,18O]phosphoryl group is transferred directly from ATP to the co-substrate by an 'in-line' mechanism.  相似文献   

18.
R Iyengar  E Cardemil  P A Frey 《Biochemistry》1986,25(16):4693-4698
Chicken liver mevalonate-5-diphosphate decarboxylase catalyzes the reaction of mevalonate 5-diphosphate (MVADP) with ATP to produce isopentenyl diphosphate, ADP, CO2, and inorganic phosphate. The overall reaction involves an anti elimination of the tertiary hydroxyl and carboxyl groups. To investigate the mechanism for transfer of the terminal phosphoryl group of ATP to the C-3 oxygen of MVADP, we have carried out the reaction using stereospecifically labeled (Sp)-adenosine 5'-O-(3-thio[3-17O2,18O]triphosphate) [( gamma-17O2,18O]ATP gamma S) in place of ATP. The configuration of the [17O,18O]thiophosphate produced was found to be Rp, corresponding to overall inversion of configuration at phosphorus in the thiophosphoryl group transfer step. This result is consistent with the direct transfer of the thiophosphoryl group from (Sp)-[gamma-17O2,18O]ATP gamma S to MVADP at the active site. Our result does not indicate the involvement of a covalent thiophosphoryl-enzyme on the reaction pathway.  相似文献   

19.
NADPH-oxidase-catalyzed superoxide (O2-) formation in membranes of HL-60 leukemic cells was activated by arachidonic acid in the presence of Mg2+ and HL-60 cytosol. The GTP analogues, guanosine 5'-[gamma-thio]triphosphate (GTP[gamma S] and guanosine 5'-[beta,gamma-imido]triphosphate, being potent activators of guanine-nucleotide-binding proteins (G proteins), stimulated O2- formation up to 3.5-fold. The adenine analogue of GTP[gamma S], adenosine 5'-[gamma-thio]triphosphate (ATP[gamma S]), which can serve as donor of thiophosphoryl groups in kinase-mediated reactions, stimulated O2- formation up to 2.5-fold, whereas the non-phosphorylating adenosine 5'-[beta,gamma-imido]triphosphate was inactive. The effect of ATP[gamma S] was half-maximal at a concentration of 2 microM, was observed in the absence of added GDP and occurred with a lag period two times longer than the one with GTP[gamma S]. HL-60 membranes exhibited nucleoside-diphosphate kinase activity, catalyzing the thiophosphorylation of GDP to GTP[gamma S] by ATP[gamma S]. GTP[gamma S] formation was half-maximal at a concentration of 3-4 microM ATP[gamma S] and was suppressed by removal of GDP by creatine kinase/creatine phosphate (CK/CP). The stimulatory effect of ATP[gamma S] on O2- formation was abolished by the nucleoside-diphosphate kinase inhibitor UDP. Mg2+ chelation with EDTA and removal of endogenous GDP by CK/CP abolished NADPH oxidase activation by ATP[gamma S] and considerably diminished stimulation by GTP[gamma S]. GTP[gamma S] also served as a thiophosphoryl group donor to GDP, with an even higher efficiency than ATP[gamma S]. Transthiophosphorylation of GDP to GTP[gamma S] was only partially inhibited by CK/CP. Our results suggest that NADPH oxidase is regulated by a G protein, which may be activated either by exchange of bound GDP by guanosine triphosphate or by thiophosphoryl group transfer to endogenous GDP by nucleoside-diphosphate kinase.  相似文献   

20.
S P Harnett  G Lowe  G Tansley 《Biochemistry》1985,24(12):2908-2915
The activation of L-phenylalanine by yeast phenylalanyl-tRNA synthetase using adenosine 5'-[(S)-alpha-17O,alpha,alpha-18O2]triphosphate is shown to proceed with inversion of configuration at P alpha of ATP. This observation taken together with the lack of positional isotope exchange when adenosine 5'-[beta,beta-18O2]triphosphate is incubated with the enzyme in the absence of phenylalanine and in the presence of the competitive inhibitor phenylalaninol indicates that activation of phenylalanine occurs by a direct "in-line" adenylyl-transfer reaction. In the presence of Zn2+, yeast phenylalanyl-tRNA synthetase also catalyzes the phenylalanine-dependent hydrolysis of ATP to AMP and the synthesis of P1,P4-bis(5'-adenosyl) tetraphosphate (Ap4A). With adenosine 5'-[(S)-alpha-17O,alpha,alpha-18O2]triphosphate, the formation of AMP and Ap4A is shown to occur with inversion and retention of configuration, respectively. It is concluded that phenylalanyl adenylate is an intermediate in both processes, Zn2+ promoting AMP formation by hydrolytic cleavage of the C-O bond and Ap4A formation by displacement at phosphorus of phenylalanine by ATP.  相似文献   

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