Andrey Balakin scite author profile

We have discovered that all known yeast and vertebrate small nucleolar RNAs (snoRNAs), except for the MRP/7-2 RNA, fall into two major classes. One class is defined by conserved boxes C and D and the other by a novel element: a consensus ACA triplet positioned 3 nt before the 3' end of the RNA. A role for the ACA box is snoRNA stability has been established by mutational analysis of a yeast ACA snoRNA (snR 11). Full function of the box depends on the integrity of an adjacent upstream stem. All members of the yeast ACA family are associated with the GAR1 protein. Binding of this or another common small nucleolar ribonucleoprotein particle protein is predicted to be a critical entry point to snoRNA posttranscriptional life, including precise formation of the snoRNA 3' end.

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Antisense snoRNAs: a family of nucleolar RNAs with long complementarities to rRNA

Bachellerie

Michot

Nicoloso

et al. 1995

Trends in Biochemical Sciences

159

126

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Unusual ribosome binding properties of mRNA encoding bacteriophage λ repressor

et al. 1992

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The mRNA encoding repressor cI of phage lambda is the only known E. coli message which starts directly with the initiation AUG codon. The ability of in vitro synthesized cI mRNA fragments (150 or 400 nts) to form ternary initiation complexes has been studied using the toeprint method. In the presence of tRNA(Met)f, these fragments are capable of forming the ternary complexes at the 5'-terminal AUG codon not only with 30S subunits but also with undissociated 70S ribosomes (70S tight couples). In the latter case, no binding at other positions of cI mRNA can be detected at all. The starting region of cI mRNA has a single stranded conformation and is highly enriched in A-residues. This feature of cI mRNA RBS is suggested to be the main factor which allows cI mRNA to form the initiation complex with the ribosome. Unlike 30S subunits, the binding to 70S tight couples is not affected by any of the initiation factors, although it is as efficient as that to 30S subunits supplemented with the factors. 30S subunits prefer to associate with the internal RBSs of the preformed mRNA molecules, provided that they are not sequestered by the secondary structure. In contrast, 70S tight couples tend to avoid extra sequences upstream of the codon directed to the P site and occupy a position as close as possible to the 5'-end of the message. This has been found to be the case both for tRNA(Met)f and for elongator tRNA(Glu)2. The structural features of mRNA RBSs which influence their different binding for 30S subunits and 70S ribosomes are discussed.

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Selection of RNA-Binding Peptides Using mRNA-Peptide Fusions

Barrick

Takahashi

Balakin

et al. 2001

Methods

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Characterization of three new snRNAs fromSaccharomyces cerevisiae: snR34, snR35 and snR36

Samarsky¹,

Balakin²,

Fournier³

1995

Nucl Acids Res

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Genes for three novel snRNAs of Saccharomyces cerevisiae have been isolated, sequenced and tested for essentiality. The RNAs encoded by these genes are designated snR34, snR35 and snR36 respectively and contain 203, 204 and 182 nucleotides. Each RNA is derived from a single copy gene and all three RNAs are believed to be nucleolar, i.e. snoRNAs, based on extraction properties and association with fibrillarin. SnR34 and snR35 contain a trimethylguanosine cap, but this feature is absent from snR36. The novel RNAs lack elements conserved among several other snoRNAs, including box C, box D and long sequence complementarities with rRNA. Genetic disruption analyses showed each of the RNAs to be dispensable and a haploid strain lacking all three RNAs and a previously characterized fourth snoRNA (snR33) is also viable. No differences in the levels of precursors or mature rRNAs were apparent in the four gene knock-out strain. Possible roles for the new RNAs in ribosome biogenesis are discussed.

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Andrey Balakin

The RNA World of the Nucleolus: Two Major Families of Small RNAs Defined by Different Box Elements with Related Functions

Antisense snoRNAs: a family of nucleolar RNAs with long complementarities to rRNA

Unusual ribosome binding properties of mRNA encoding bacteriophage λ repressor

Selection of RNA-Binding Peptides Using mRNA-Peptide Fusions

Characterization of three new snRNAs fromSaccharomyces cerevisiae: snR34, snR35 and snR36

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