Structural arrangement of the decoding site of Escherichia coli ribosomes as revealed from the data on affinity labelling of ribosomes by analogs of mRNA--derivatives of oligoribonucleotides.

Using derivatives of oligoribonucleotides bearing an active group at the 5'- or 3'-end, the affinity modification of Escherichia coli ribosomes has been investigated in model complexes imitating various steps of initiation and elongation with a different extent of approximation to the real protein-synthesizing system. The protein environment of the ribosome decoding site is determined. The S3, S4, S9, L2, L7/L12 proteins belong to the 5'-region of the decoding site, and the S5, S7, S9, L1, L16 proteins to the 3'-region. In the process of translation the template moves along the external side of the 30 S subunit, from the L1 ridge to the L7/L12 stalk. The structural arrangement of the decoding site or its nearest environment depends on the functional state of ribosomes in the process of translation.

Structural arrangement of tRNA binding sites on Escherichia coli ribosomes, as revealed from data on affinity labelling with photoactivatable tRNA derivatives.

A systematic study of protein environment of tRNA in ribosomes in model complexes representing different translation steps was carried out using the affinity labelling of the ribosomes with tRNA derivatives bearing aryl azide groups scattered statistically over tRNA guanine residues. Analysis of the proteins crosslinked to tRNA derivatives showed that the location of the derivatives in the aminoacyl (A) site led to the labelling of the proteins S5 and S7 in all complexes studied, whereas the labelling of the proteins S2, S8, S9, S11, S14, S16, S17, S18, S19, S21 as well as L9, L11, L14, L15, L21, L23, L24, L29 depended on the state of tRNA in A site. Similarly, the location of tRNA derivatives in the peptidyl (P) site resulted in the labelling of the proteins L27, S11, S13 and S19 in all states, whereas the labelling of the proteins S5, S7, S9, S12, S14, S20, S21 as well as L2, L13, L14, L17, L24, L27, L31, L32, L33 depended on the type of complex. The derivatives of tRNA(fMet) were found to crosslink to S1, S3, S5, S7, S9, S14 and L1, L2, L7/L12, L27. Based on the data obtained, a general principle of the dynamic functioning of ribosomes has been proposed: (i) the formation of each type of ribosomal complex is accompanied by changes in mutual arrangement of proteins - 'conformational adjustment' of the ribosome - and (ii) a ribosome can dynamically change its internal structure at each step of initiation and elongation; on the 70 S ribosome there are no rigidly fixed structures forming tRNA-binding sites (primarily A and P sites).

Affinity labeling at the A-site of Escherichia coli ribosomes by a non-hydrolyzable gamma-amide analog of GTP.

gamma-Amides of GTP and affinity and photoaffinity derivatives of gamma-amides of GTP: gamma-anilide of GTP, gamma-(4-azido)anilide of GTP, gamma-[N-(4-azidobenzyl)-N-methyl]amide of GTP, gamma[4-N-(2-chloroethyl)-N-methylaminobenzyl]amide of GTP and gamma-[4-N-(2-oxoethyl)-N-methylaminobenzyl]amide of GTP substituted efficiently for GTP in the EF-Tu-dependent transfer of aminoacyl-tRNA to the ribosome but, in contrast to GTP, they were not hydrolyzed in this process. They represent a new class of non-hydrolyzable GTP analogs with preserved gamma-phosphodiester bond. The radioactive analog of GTP: gamma-[4-N-(2-chloroethyl)-N-methylamino[14C]benzyl]amide of GTP was used as an affinity labeling probe for the identification of components of the GTPase center formed in the EF-Tu-dependent transfer reaction of aminoacyl-tRNA to the ribosomal A-site. Within a six-component complex of poly(U)-programmed E. coli ribosomes with elongation factor Tu, Phe-tRNA(Phe) (at the A-site), tRNA(Phe) (at the P-site) and the [14C]GTP analog, mainly the ribosomal 23S RNA and to a lesser extent the ribosomal proteins L17, L21, S16, S21 and the ribosomal 16S RNA were labeled by the reagent. No significant modification of EF-Tu was detected.

[Affinity modification of Escherichia coli ribosomes with the non-hydrolyzed GTP analog, gamma-[4-N-(2-chloroethyl)-N-methylaminobenzyl]amide of GTP]. / Affinnaia modifikatsiia ribosom Escherichia coli negidrolizuemym analogom GTP--gamma-[4-N-(2-khloroétil)-N-metilaminobenzil]amidom GTP.

Substituted gamma-amides of GTP viz. GTP gamma-[4-N-(2-chloro- and gamma-[4-N-(2-hydroxyethyl)-N-methylaminobenzyl]amide (CIRCH2NHpppG and OHRCH2NHpppG, resp.) were shown to be unhydrolisable GTP analogues in the EF-Tu-dependent GTP-ase reaction of ribosomes. The reactive analogue, CIRCH2NHpppG, was used for affinity labelling within the 70S ribosome.poly(U).tRNAPhe(P-site).Phe-tRNAPhe.EF-Tu.CIR[14C]CH2.NHpppG complex. Both 50S and 30S subunits were thus labelled but 50S subunit was modified considerably more than 30C subunit. Labelled were proteins L17, L21, S16, S21, and rRNA of both subunits, 23C rRNA within 50C subunit being labelled preferentially as compared with 50C proteins. No labelling of EF-Tu within the complex was detected.

[mRNA-binding site of ribosomes at different stages of translation. II. Affinity modification of Escherichia coli ribosomes bya benzylidene derivative of AUGU6 in pre- and post-translation complexes]. / Issledovanie mRNK-sviazyvaiushchei oblasti ribosomy na raznykh étapakh transliatsii. II. Affinnaia modifikatsiia ribosom Escherichia coli benzilidenovym proizvodnym AUGU6 v sostave pre- i posttranslokatsionnykh kompleksov.

Affinity labeling of E. coli ribosomes with the 2',3'-O-[4-(N-2-chloroethyl)-N-methyl-amino]benzylidene derivative of AUGU6 (AUGU6-[14C]CHRCl) was studied within the pretranslocational complex ribosome.AUGU6[14C]CHRCl.tRNA(fMet)(P-site).fMetPhe-tR NA(Phe)(A-site) and posttranslocational complex ribosome.AUGU6[14C]CHRCl.fMetPhe-tRNA(Phe)(P-site). Both 30S and 50S subunits were labeled within these complexes, but the extent of 30S subunit modification was 6-8-fold higher than those for 50S subunit. Ribosomal proteins of both subunits were found to be labeled preferentially. Proteins S1, S5, S11, L1 were identified to be crosslinked with AUGU6[14C]CHRCl within the pretranslocational complex and S7--within the posttranslocational complex from the data of two-dimensional electrophoresis in the polyacrylamide gel.

[Photoaffinity modification of Escherichia coli ribosomes by fMet-tRNAf Met derivatives in the 70S initiation complex]. / Issledovanie fotoaffinnoi modifikatsii ribosom Escherichia coli proizvodnymi fMet-tRNKf Met v sostave 70S kompleksa initsiatsii.

Photoaffinity labeling of E. coli ribosomes within the 70S initiation complex was studied by using photoreactive derivatives of fMet-tRNAfMet bearing arylazidogroups scattered statistically over guanosine residues. It is shown that fMet-azido-tRNAfMet-II bearing 2 moles of the reagent residues per mole of tRNA (modified in the conditions of stability of tRNA tertiary structure) is fully active in aminoacylation and in the factor-dependent binding with ribosomes to form the 70S initiation complex. Functional activity of fMet-azido-tRNAfMet-I bearing also 2 moles of the reagent residues per mole of tRNA (but modified in conditions of lability of tRNA tertiary structure) decreases up to approximately 45% in aminoacylation and up to 70% in IF-2 X GTP-dependent binding to the ribosomes. Irradiation of complexes 70S ribosome-MS2-RNA-fMet-azido-tRNAfMet results in covalent linking of the tRNA derivative to the ribosomes. Both subunits are labeled, the 30S to a larger extent than 50S. It is shown that fMet-azido-tRNAfMet-II labels proteins S1, S7, S9, L27 whereas fMet-azido-tRNAfMet-1--proteins S1, S3, S5, S9, S14, L1, L2, L7/L12.

Affinity labelling of Escherichia coli ribosomes with a benzylidene derivative of AUGU6 within initiation and pretranslocational complexes.

Affinity labelling of E. coli ribosomes with the 2',3'-O-[4-(N-2-chloroethyl)-N-methylamino]benzylidene derivative of AUGU6 was studied within the initiation complex (complex I) obtained by using fMet-tRNAMetf and initiation factors and within the pretranslocational complex (complex II) obtained by treatment of complex I with the ternary complex Phe-tRNAPhe.GTP.EF-Tu. Both proteins and rRNA of 30 S as well as 50 S subunits were found to be labelled. Sets of proteins labelled within complexes I and II differ considerably. Within complex II, proteins S13 and L10 were labelled preferentially. On the other hand, within complex I, multiple modification is observed (proteins S4, S12, S13, S14, S15, S18, S19, S20/L26 were found to be alkylated) despite the single fixation of a template in the ribosome by interaction of the AUG codon with fMet-tRNAMetf.

[Study of the mRNA-binding region of ribosomes at different steps of translation. II. Affinity modification of Escherichia coli ribosomes by benzylidene derivative of AUGU6 in the 70S initiation complex]. / Issledovanie mRNK-sviazyvaiushchei ioblasti ribosomy na raznykh étapakh transliatsii. II. Affinnaia modifikatsiia ribosom Escherichia coli benzilidenovym proizvodnym AUGU6 v 70S komplekse initsiatsii.

2',3'-O-(4-[N-(2-chloroethyl)-N-methylamino]) benzylidene derivative of AUGU6 was used for identification of the proteins in the region of the mRNA-binding centre of E. coli ribosomes. This derivative alkylated ribosomes (preferentially 30S ribosomal) with high efficiency within the 70S initiation complex. In both 30S and 50S ribosomal subunits proteins and rRNA were modified. Specificity of the alkylation of ribosomal proteins and rRNA with the reagent was proved by the inhibitory action of AUGU6. Using the method of two-dimensional electrophoresis in polyacrylamide gel the proteins S4, S12, S13, S14, S15, S18, S19 and S20/L26 which are labelled by the analog of mRNA were identified.

GTP interacts with the gamma-subunit of eukaryotic initiation factor eIF-2.

Eukaryotic initiation factor eIF-2 is an oligomeric protein consisting of three different subunits. During initiation of protein synthesis eIF-2 interacts with GTP, Met-tRNAf and 40 S ribosomal subunit. By affinity labeling with a photo-reactive GTP analogue it was shown that in the binary complex [eIF-2 X GTP] GTP is in contact with the gamma-subunit of eIF-2.

[Affinity modification of Escherichia coli ribosomes near the acceptor tRNA-binding site]. / Affinnaia modifikatsiia ribosom Escherichia coli vblizi aktseptornogo tRNK-sviazyvaiushchego uchastka.

It was shown that Phe-tRNA Phe derivatives bearing arylazidogroups scattered statistically on N7 guanosine residues retain the ability to EF-Tu-dependent binding to E. coli ribosomes. UV-irradiation of the corresponding complex with the derivative of Phe-tRNA Phe located at A-site results in a specific modification of both ribosomal subunits to an approximately equal extent. It was found that proteins S9, S15, S16, S17, S18, S19 and L8/L9, L13, L15, L27 are labelled at A-site.

[Photoaffinity modification of Escherichia coli ribosomes near the tRNA-binding centers by tRNAPhe derivatives carrying arylazido groups on guanosine residues]. / Fotoaffinnaia modifikatsiia ribosom Escherichia coli vblizi tRNK-sviazyvaiushchikh tsentrov proizvodnymi tRNKPhe, nesushchimi arilazidogruppy na ostatkakh guanozina.

Photoreactive derivatives of tRNAPhe (E. coli) bearing arylazido groups scattered statistically over guanosine residues (azido-tRNA) were applied for affinity labelling of E. coli ribosomes in elongation factor-dependent or factor-free model systems mimicking different steps of elongation. It is shown that UV-irradiation of the corresponding complexes of ribosomes with tRNA derivatives results in labelling of both subunits, the 30S one is labelled preferentially. In all experiments only ribosomal proteins were labelled. Comparison of the sets of proteins labelled by tRNA derivatives in different states at P-site allowed us to draw important conclusions concerning the influence of peptidyl moiety and of the occupancy of the A-site with aminoacyl- or peptidyl-tRNA on the arrangement of tRNA located at the P-site. Three of the 30S proteins--S11, S13 S19--are labelled with tRNA derivatives located at P-site in all states.

The effect of aminoacyl- or peptidyl-tRNA at the A-site on the arrangement of deacylated tRNA at the ribosomal P-site.

Photoreactive derivatives of E. coli tRNAPhe bearing arylazido groups on guanine residues (azido-tRNA) were used for affinity labelling of E. coli ribosomes in the region of the P-site when the A-site was either free or occupied by aminoacyl- or peptidyl-tRNA. Corresponding complexes of azido-tRNA with ribosomes and poly(U) were obtained both nonenzymatically and with the use of elongation factors. UV-irradiation of the complexes resulted in labelling of ribosomal proteins (preferentially of 30 S subunit). Proteins S9 and S21 were labelled only when the A-site was free; S14 - only when it was occupied; S11, S13, S19 - in both cases; S5, S7, S12, S20 - in some states.

[Study of the ribosome mRNA-binding region during different stages of translation. I. Functional activity of mRNA analogs, AUGU6 and its benzylidene derivatives, in ribosome-dependent protein synthesis]. / Issledovanie mRNK-sviazyvaiushchei oblasti ribosomy na raznykh étapakh transliatsii. I. Funktsional'naia aktivnost' analogov mRNK--AUGU6 i ego benzilidenovykh proizvodnykh--v ribosomnozavisimom belkovom sinteze.

Hexaribouridylic acid, prepared by digestion of poly(U) with cobra venom endonuclease, and trinucleotide AUG synthesized chemically by triester approach were joined by RNA-ligase to yield a nonaribonucleotide AUGU6 bearing the initiation codon at its 5'-terminus. 2',3'-O-(4-[N-(2-chloro(or hydroxy) ethyl-N-Methylamino])- benzylidene residues were introduced at the 3'-terminus of oligonucleotide AUGU6 and its benzylidene derivatives AUGU6CHRCl or AUGU6CHROH were obtained. The mRNA analogs synthesized were tested for their template activity in the formation of 70S initiation complex. AUGU6, AUGU6CHRC1 and AUGU6CHROH were shown to stimulate factor-dependent binding of fMet-tRNA to ribosomes. The effect of benzylidene fragment on the template activity of AUGU6CHROH in the course of translation process was studied. It was shown that AUGU6CHROH stimulates synthesis of di- and tripeptides with the same efficiency as AUGU6.

Interaction of elongation factor EF-Tu with gamma-amides of GTP and beta-amides of GDP bearing the azidoaryl group or the chloroethylaminoaryl group placed at the terminal phosphate.

New types of azidoaryl analogs of GTP: gamma-(4-azido)anilide of GTP (I), gamma-(n-(4-azidobenzyl)-N-methyl)amide of GTP (II) and of GDP: beta-(4-azido)anilide of GDP (III), beta-(N-(4-azidobenzyl)-N-methyl)amide of GDP (IV) have been synthesized by treatment of the nucleotide in aqueous solution with N-cyclohexyl-N-beta-(4-methylmorpholinium)-ethylcarbodiimide p-toluene sulfonate and the respective amine. The analog of GTP bearing at the gamma-phosphate an alkylating 2-chloroethylamino group: gamma-(4-N-(2-chloroethyl)-N-methylaminobenzyl)amide of GTP (V) was prepared by the method described previously for the preparation of the analog of ATP (Knorre, D.G., Kurbatov, V.A. and Samukov, V.V. (1976) FEBS Lett. 70, 105-108). Azidoaryl analogs of GTP and GDP as well as the chloroethylaminoaryl analog of GTP compete with GDP in the formation of the binary complex EF-Tu.GDP with the respective Ki values 3.9.10(-7) M (I), 2.9.10(-8)M (II), 6.9.10(-7)M (III), 5.0.10(-7)M (IV) and 3.8.10(-8)M (V) relative to GDP. The dissociation constants of the complexes of the radioactively-labeled GTP analogs I, II and V with elongation factor Tu were calculated to be 8.5.10(-6)M, 3.4.10(-7)M and 4.6.10(-8)M, respectively, or approx. 1740-, 70- and 9-times greater than that of GDP. GTP analogs I, II and V were found to substitute GTP in the stimulation of EF-Tu-dependent binding of aminoacyl-tRNA to the ribosome-mRNA complex.

[Interaction of rabbit muscle creatine kinase with a reactive ATP derivative-ATP gamma-4(N-2-chloroethyl-N-methyl-amino)-benzylamidate]. / Vzaimodei kreatinkinazy iz myshts krolika s reaktsionnosposobnym proizvodnym ATP-4-(N-2-khlorztil-N-metilamino)-benzil-gamma-amidom ATP.

The interaction of AGP gamma-4(N-2-chloroethyl-N-methyl-amino)-benzylamidate with rabbit muscle creatine kinase was studied. ATP gamma-4-(N-2-hydroxyethyl-N-methyl-amino)-benzylamidate acts as competitive inhibitor of creatine kinase. The Km value for ATP and the Ki value for the gamma-analog have been determined. A complete inactivation is observed when 1 mole of the reagent binds per 1 mole of the enzyme. The modification of the second subunit of creatine kinase is achieved at higher concentrations of the reactive ATP analog. The reactive ATP derivative is shown to be an affinity reagent for this enzyme. The possibility of interaction between the subunits of creatine kinase is discussed.