Neighborhood of 16S rRNA nucleotides U788/U789 in the 30S ribosomal subunit determined by site-directed crosslinking.

Site-specific photo crosslinking has been used to investigate the RNA neighborhood of 16S rRNA positions U788/ U789 in Escherichia coli 30S subunits. For these studies, site-specific psoralen (SSP) which contains a sulfhydryl group on a 17 A side chain was first added to nucleotides U788/U789 using a complementary guide DNA by annealing and phototransfer. Modified RNA was purified from the DNA and unmodified RNA. For some experiments, the SSP, which normally crosslinks at an 8 A distance, was derivitized with azidophenacylbromide (APAB) resulting in the photoreactive azido moiety at a maximum of 25 A from the 4' position on psoralen (SSP25APA). 16S rRNA containing SSP, SSP25APA or control 16S rRNA were reconstituted and 30S particles were isolated. The reconstituted subunits containing SSP or SSP25APA had normal protein composition, were active in tRNA binding and had the usual pattern of chemical reactivity except for increased kethoxal reactivity at G791 and modest changes in four other regions. Irradiation of the derivatized 30S subunits in activation buffer produced several intramolecular RNA crosslinks that were visualized and separated by gel electrophoresis and characterized by primer extension. Four major crosslink sites made by the SSP reagent were identified at positions U561/U562, U920/U921, C866 and U723; a fifth major crosslink at G693 was identified when the SSP25APA reagent was used. A number of additional crosslinks of lower frequency were seen, particularly with the APA reagent. These data indicate a central location close to the decoding region and central pseudoknot for nucleotides U788/U789 in the activated 30S subunit.

Studying functional significance of the sequence 980-1061 in the central domain of human 18S rRNA using complementary DNA probes.

Region 980-1061 in human 18S rRNA has been chosen on the basis of our previous results, indicating that cross-linking sites of the alkylating mRNA analogs are located within this region. In the present study, we have used 10 DNA 15-mers complementary to various overlapping sequences within the 18S rRNA positions 980-1061. Their abilities to bind selectively to the target rRNA sequences were proved by hydrolysis of 18S rRNA within heteroduplexes with the corresponding probes by RNase H. Four sequences (980-994, 987-1001, 1025-1039 and 1032-1046) were found to be well accessible for binding of the respective cDNA probes within 40S subunits. None of the oligomers inhibited tRNA(Phe)-dependent binding of oligo(U) messenger to 40S subunits and binding of Met-tRNA(imet) to 40S subunits in the presence of eIF-2 and nonhydrolysable GTP analog. Nevertheless, two probes (complementary to the 18S rRNA sequences 987-1001 and 1025-1039) being covalently attached to 40S subunits, inhibited translation of poly(U) by human 80S ribosomes in a cell-free system. The same oligomers revealed the most pronounced inhibitory action on the binding of messenger trinucleotide in the complex pAUG.40S.Met-tRNA(imet).eIF-2.GTP. Results of these functional assays demonstrate the importance of the 18S rRNA sequences 987-1001 and 1025-1039 for translation process on human ribosomes, most probably at the initiation step.

[Functional value of 980-1061 sequences of human 18S ribosomal RNA using complementary DNA probes]. / Izuchenie funktsional'noi znachimosti posledovatel'nosti 980-1061 16S ribosomnoi RNA cheloveka s pomoshch'iu komplemtarnykh DNK-zondov.

Region 980-1061 in human 18S rRNA was chosen on the basis of our previous results indicating, that the cross-linking sites of alkylating mRNA analogs are located within this region. In the present study, we have used 10 DNA 15-mers complementary to various overlapping sequences within the 18S rRNA positions 980-1061. Their ability to bind selectively at the desired rRNA sequences was proved by hydrolysis of 18S rRNA within heteroduplexes with the corresponding probes by RNase H. Only four of the probes were able to bind to 40S subunits indicating, that the corresponding 18S rRNA sequences 980-994, 987-1001, 1025-1039 and 1032-1046 are exposed within the subunits. None of the probes inhibited tRNA-dependent binding of oligo(U) messengers to 40S subunits. Nevertheless, two probes (complementary to 18S rRNA sequences 987-1001 and 1025-1039) being covalently attached to 40S subunits, inhibited translation of poly(U) by human 80S ribosomes in a cell-free system. The binding of messenger trinucleotide in the complex pAUG.40S.Met-tRNA.eIF-2.GTP was strongly affected by the same oligomers. Thus 987-1001 and 1025-1039 18S rRNA sequences are supposed to be involved in interaction with mRNA in the course of translation.

[Structural elements of 80S ribosomes located near the 5'-region of the mRNA-binding center]. / Strukturnye élementy 80S ribosomy, raspolozhennye vblizi 5'-oblasti mRNK-sviazyvaiushchego tsentra.

Affinity labeling of 80S ribosomes with 4-(N-2-chloroethyl-N-methylamino)benzylmethylphosphoramides of oligoribonucleotides [32P]AUGUn--mRNA analogs--was studied in three model complexes: 80S.ClRCH2N(CH3)-pAUGU6.Met(Phe)2-trRNA(Phe), 80S.ClRCH2N(CH3)pAUGU3.MetPhe-tRNA(Phe), and 80S.ClRCH2N(CH3)-pAUG.Met- tRNA(Met). Two of these complexes imitate the posttranslocational state of 80S ribosomes. Small subunits were labeled preferentially; both 18S rRNA and ribosomal proteins were modified by the mRNA analogs. The relative modification extents of proteins and rRNA depended on the length of the reagent oligoribonucleotide moiety. Extension of the latter resulted in decrease in the relative extent of 18S rRNA modification from 95 a to 16% (for proteins, increase from 5 to 84%, respectively). Fragments of 18S rRNA containing cross-linking sites were identified using blot hybridization. In all cases, fragment 976-1164 was found to be modified. In the case of ClRCH2N(CH3)pAUGU6, labeling occurred also within fragments 593-673 and 1748-1869. Analysis of the modified proteins revealed that proteins S14/S15 were labeled with all three reagents and were the single target of modification with ClRCH2N(CH3)pAUGU6. Proteins S3/S3a, S6, and S16/S18 were modified only with ClRCH2N(CH3)pAUGU3; protein S20 only with ClRCH2N(CH3)pAUG; and proteins S5 and S17 were labeled with both reagents (n = 0, 3).

Structural arrangement of the codon-anticodon interaction area in human placenta ribosomes. Affinity labelling of the 40S subunits by derivatives of oligoribonucleotides containing the AUG codon.

Using the derivatives of the oligoribonucleotides pAUGUn and AUGUnC (n = 0; 3) bearing an alkylating group at either the 5' or 3' end, respectively (mRNA analogues), the affinity labelling of the human placenta 40S ribosomal subunits has been investigated in model initiation complexes obtained in the presence of the ternary complex eIF-2.GTP.Met-tRNA(fMet). The regions of 18S rRNA and ribosomal proteins labelled with these mRNA analogues were identified. The sites of covalent attachment of the pAUGUn derivatives with a reactive group at the 5' end were located between 18S rRNA positions 976 and 1164. The derivative of AUGU3C with an alkylating group at the 3' end modified 18S rRNA mainly at the 593-673 region. The main targets of the 3' end derivative of AUGC were located between positions 1610 and 1869. The proteins S3/S3a, S6, S7 and S14/S15 were modified by both types of the oligoribonucleotide derivatives regardless of the point of the reactive group attachment to the oligonucleotide moiety. The proteins S2 and S4 were modified by both the 3' end derivative of AUGC and 5' end derivative of pAUGU3; and the protein S8 was modified by the 3' end derivative of AUGC. The proteins S5 and S9 were labelled by the 5' end derivative of pAUGU3, and the protein S17 was modified by the 5' end derivative of pAUG.

[Affinity modification of 40S ribosomal subparticles from human placenta with mRNA analogs--AUGUnC oligoribonucleotide analogs with an alkylating group at the 3'-end]. / Affinnaia modifikatsiia 40S ribosomnykh subchastits iz platsenty cheloveka analogami mRNK--proizvodnymi oligoribonukleotidov AUGUnC s alkiliruiushchei gruppoi na 3'-kontse.

Using 2',3'-O-[4-N-(2-chloroethyl)-N-methylamino]benzylidene derivatives of AUGUn[32P]pC (mRNA analogues), affinity labelling of human placenta 40S ribosomal subunits has been investigated in model initiation complexes obtained in the presence of the ternary complex eIF-2.GTP.Met-tRNA(fMet). The regions of 18S rRNA labelled with these mRNA analogues were identified. The main targets of 18S rRNA alkylation by the derivative of AUG[32P]pC were located within positions 1610-1747 and 1748-1869. The site of covalent attachment of AUGU3[32P]pC derivative to 18S rRNA was found within positions 593-673. Taking into account the data on labelling of human placenta ribosomes with the same derivatives of oligourydilates obtained previously, the conclusion was made that the arrangement of the codon U3 in the mRNA-binding centre of the initiation complex 40S.AUGU3[32P]pC derivative.eIF-2.GTP.Met-TPHK(fMet) differs from the arrangement of the same codon at the A-site of the complex imitating the pretranslocation state of ribosomes.

Interaction of human and Escherichia coli tRNA(Phe) with human 80S ribosomes in the presence of oligo- and polyuridylate templates.

Human placenta and Escherichia coli Phe-tRNA(Phe) and N-AcPhe-tRNA(Phe) binding to human placenta 80S ribosomes was studied at 13 mM Mg2+ and 20 degrees C in the presence of poly(U), (pU)6 or without a template. Binding properties of both tRNA species were studied. Poly(U)-programmed 80S ribosomes were able to bind charged tRNA at A and P sites simultaneously under saturating conditions resulting in effective dipeptide formation in the case of Phe-tRNA(Phe). Affinities of both forms of tRNA(Phe) to the P site were similar (about 1 x 10(7) M-1) and exceeded those to the A site. Affinity of the deacylated tRNA(Phe) to the P site was much higher (association constant > 10(10) M-1). Binding at the E site (introduced into the 80S ribosome by its 60S subunit) was specific for deacylated tRNA(Phe). The association constant of this tRNA to the E site when A and P sites were preoccupied with N-AcPhe-tRNA(Phe) was estimated as (1.7 +/- 0.1) x 10(6) M-1. In the presence of (pU)6, charged tRNA(Phe) bound loosely at the A and P sites, and the transpeptidation level exceeded the binding level due to the exchange with free tRNA from solution. Affinities of aminoacyl-tRNA to the A and P sites in the presence of (pU)6 seem to be the same and much lower than those in the case of poly(U). Without a messenger, binding of the charged tRNA(Phe) to 80S ribosomes was undetectable, although an effective transpeptidation was observed suggesting a very labile binding of the tRNA simultaneously at the A and P sites.

[Affinity modification of the 40S subparticle from human placenta with derivatives of pAUG and pAUGU3]. / Affinnaia modifikatsiia 40S subchastits iz platsenty cheloveka proizvodnymi pAUG i pAUGU3.

Affinity labeling of 40S subunits from human placenta with 4-(N-2-chloroethyl-N-methylamino)benzylmethyl-[32P]phosphoamide s of oligoribonucleotides pAUG and pAUGU3 was studied. Covalent attachment of these derivatives to 40S subunits within the complexes with 40S subunits, formed in the presence of Met-tRNAf.eIF-2.GTP, was detected. Both rRNA and ribosomal proteins were modified. Fragments of 18S rRNA, containing sites of the reagent attachment were identified: 1058-1164 for pAUG derivative and 976-1057--for pAUG and pAUGU3 ones. The data obtained allowed to conclude that the presence of the neighbouring codon at the A-site, regardless of the presence of the tRNA in it, affects significantly the arrangement of the trinucleotide template in the codon-anticodon interaction region. The large subunit does not cause significant alterations in the structural organization of the codon-anticodon interaction region.

Functional topography of human ribosomes as studied by affinity labeling with reactive mRNA analogs.

Derivatives of 5'-32P labeled (pU)3 an (pU)6 bearing 4-(N-2-chloroethyl-N-methylamino)benzylmethylamine residue attached to 5'-phosphate via phosphamide bond and (Up)5U[32P]pC and (Up)11U[32P]pC bearing 4-(N-2-chloroethyl-N-methylamino)benzyl residue attached to 3'-end via benzylidene bond were applied for the affinity labeling of 80S ribosomes from human placenta in the presence of a cognate tRNA. The derivatives of 32P-labeled pAUG and pAUGU3 analogous to the 5'-phosphamides of (pU)n were used for affinity labeling of 40S subunits in the presence of ternary complex eIF-2.GTP.Met-tRNA(f). The sites of the reagents' attachment to 18S ribosomal RNA were identified by blot-hybridization of the modified 18S rRNA with restriction fragments of the corresponding rDNA. They were found to be located within positions 976-1057 for (pU)6 and pAUGU3 derivatives and within 976-1164 for (pU)3 and pAUG ones. The sites of 18S rRNA modification with the derivatives of (Up)5UpC and (Up)11UpC were found within positions 1610-1869 at 3'-end of the molecule. All the sites identified here are located presumably within highly conserved parts of the eukaryotic small subunit rRNA secondary structure.

[Segments of 18S rRNA, located in the area of the mRNA-binding center of ribosomes from human placenta]. / Uchastok 18S rRNK, lokalizovannyi v oblasti mRNK-sviazyvaiushchego tsentra ribosom iz platsenty cheloveka.

The affinity labelling of human placenta 80S ribosomes by 4-(N-2-chloroethyl-N-methylamino)benzyl-5'-phosphoramide of hexauridylate has been studied. This mRNA analogue has normal coding properties because its binding to placenta ribosomes significantly increases in the presence of the cognate tRNA(Phe). Incubation of the mRNA analogue in the complex with ribosomes and Phe-tRNAPhe) leads to its covalent attachment exclusively to the small subunit (mainly to 18S rRNA). The reaction site has been shown by hybridisation experiments to be located within positions 975-1055 of 18S rRNA. The identified fragment is located in a highly conserved part of the small subunit rRNA domain II.

[An approach to isolating individual tRNA from the human placenta by affinity chromatography. Isolation of highly purified Phe-tRNA Phe]. / Podkhod k polucheniiu individual'nykh tRNK iz platsenty cheloveka, osnovannyi na metode affinnoi khromatografii. Vydelenie vysokoobogashchennogo preparata Phe-tRNK Phe.

A new approach to isolation of individual tRNAs from eukaryotes based on affinity chromatography is suggested. At first, using a sorbent with oligonucleotide pTGGT attached, the total tRNA with native CCA-ends was obtained. Then by means of a sorbent with oligonucleotide pTTCAG immobilized, which is complementary to a part of the tRNA(Phe) anticodon loop, tRNA(Phe) with the acceptor activity greater than 1000 pmole/unit was isolated.

Identification of a site on 18 S rRNA of human placenta ribosomes in the region of the mRNA binding center.

The affinity labeling of human placenta 80 S ribosomes by 4-(N-2-chloroethyl-N-methylamino)benzyl-5'-phosphamide of hexauridylate was studied. This mRNA analog has normal coding properties because its binding to placenta ribosomes significantly increases in the presence of cognate tRNAPhe. Incubation of the mRNA analog in the complex with the ribosomes and Phe-tRNAPhe leads to its covalent attachment exclusively to the small subunit (mainly to 18 S rRNA). The site of the reaction has been identified by hybridization experiments to be located within positions 975 to 1055 of 18 S rRNA. The identified fragment is located in a highly conserved part of the small subunit rRNA domain II.