An RNA trapping mechanism in Alphavirus mRNA promotes ribosome stalling and translation initiation.

During translation initiation, eukaryotic initiation factor 2 (eIF2) delivers the Met-tRNA to the 40S ribosomal subunit to locate the initiation codon (AUGi) of mRNA during the scanning process. Stress-induced eIF2 phosphorylation leads to a general blockade of translation initiation and represents a key antiviral pathway in mammals. However, some viral mRNAs can initiate translation in the presence of phosphorylated eIF2 via stable RNA stem-loop structures (DLP; Downstream LooP) located in their coding sequence (CDS), which promote 43S preinitiation complex stalling on the initiation codon. We show here that during the scanning process, DLPs of Alphavirus mRNA become trapped in ES6S region (680-914 nt) of 18S rRNA that are projected from the solvent side of 40S subunit. This trapping can lock the progress of the 40S subunit on the mRNA in a way that places the upstream initiator AUGi on the P site of 40S subunit, obviating the participation of eIF2. Notably, the DLP structure is released from 18S rRNA upon 60S ribosomal subunit joining, suggesting conformational changes in ES6Ss during the initiation process. These novel findings illustrate how viral mRNA is threaded into the 40S subunit during the scanning process, exploiting the topology of the 40S subunit solvent side to enhance its translation in vertebrate hosts.

Cryo-EM structure of Hepatitis C virus IRES bound to the human ribosome at 3.9-Å resolution.

Hepatitis C virus (HCV), a widespread human pathogen, is dependent on a highly structured 5'-untranslated region of its mRNA, referred to as internal ribosome entry site (IRES), for the translation of all of its proteins. The HCV IRES initiates translation by directly binding to the small ribosomal subunit (40S), circumventing the need for many eukaryotic translation initiation factors required for mRNA scanning. Here we present the cryo-EM structure of the human 40S ribosomal subunit in complex with the HCV IRES at 3.9 Å resolution, determined by focused refinement of an 80S ribosome-HCV IRES complex. The structure reveals the molecular details of the interactions between the IRES and the 40S, showing that expansion segment 7 (ES7) of the 18S rRNA acts as a central anchor point for the HCV IRES. The structural data rationalizes previous biochemical and genetic evidence regarding the initiation mechanism of the HCV and other related IRESs.

A zebrafish model of dyskeratosis congenita reveals hematopoietic stem cell formation failure resulting from ribosomal protein-mediated p53 stabilization.

Dyskeratosis congenita (DC) is a bone marrow failure disorder characterized by shortened telomeres, defective stem cell maintenance, and highly heterogeneous phenotypes affecting predominantly tissues that require high rates of turnover. Here we present a mutant zebrafish line with decreased expression of nop10, one of the known H/ACA RNP complex genes with mutations linked to DC. We demonstrate that this nop10 loss results in 18S rRNA processing defects and collapse of the small ribosomal subunit, coupled to stabilization of the p53 tumor suppressor protein through small ribosomal proteins binding to Mdm2. These mutants also display a hematopoietic stem cell deficiency that is reversible on loss of p53 function. However, we detect no changes in telomere length in nop10 mutants. Our data support a model of DC whereupon in early development mutations involved in the H/ACA complex contribute to bone marrow failure through p53 deregulation and loss of initial stem cell numbers while their role in telomere maintenance does not contribute to DC until later in life.

[Region 1112-1123 in the central domain of 18S rRNA in 40S subunits of plant ribosomes: accessibility for complementary interactions and the functional role].

The binding of the 18S RNA of the 40S subunits of wheat germ ribosomes to an oligodeoxyribonucleotide complementary to the 1112-1123 region of the central domain of this RNA molecule has been studied. The selective binding of this oligomer to the complementary RNA fragment and the inhibition of the translation of uncapped chimeric RNA containing enhancer sequences in the 5'-untranslated region upstream of the reporter sequence coding for beta-glucuronidase has been shown in a cell-free protein-synthesizing system. The use of a derivative of the aforementioned oligomer containing an alkylating group at the 5' end allowed for the demonstration that the 1112-1123 region of 18S RNA can form a heteroduplex with the complementary sequence of the oligomer. The data obtained show that the 1112-1123 region in loop 27 of the central domain of 18S RNA of 40S ribosomal subunits is exposed on the subunit surface and probably participates in the cap-independent binding of the subunits to mRNA due to the complementary interaction with the enhancer sequences.

Compositional properties and thermal adaptation of 18S rRNA in vertebrates.

In order to investigate the influence of temperature on the GC level of the paired sequences of ribosomal 18S RNAs in vertebrates, we have studied their base composition in cold- and warm-blooded vertebrates using a stem-by-stem comparison. We observed that a number of stems of 18S ribosomal RNAs (rRNAs) are variable among species and that the majority of such stems are GC richer in warm-blooded than in cold-blooded vertebrates. We also constructed the secondary structures of the 18S rRNAs of a polar fish, a marsupial, and a monotreme to compare them with those of temperate/tropical fishes and of eutherians, respectively. In these cases, differences similar to those already mentioned were found. We conclude that there is a correlation between stem stability and body temperature even within the relatively limited temperature range of vertebrates.

Heat shock response of Babesia gibsoni heat shock protein 70.

mRNA and protein expression profiles for heat shock protein 70 (Hsp70) of Babesia gibsoni (BgHsp70) exposed to either high or low temperatures, were examined by quantitative real-time reverse transcription-polymerase chain reaction and Western blotting. In the present study, a commercially available anti-human Hsp70 antibody that could recognize recombinant BgHsp70 was used. BgHsp70 was detected in the parasites cultured under standard conditions at 37 C by Western blotting and immunostaining of thin smears of infected erythrocytes. These results suggested that BgHsp70 was expressed constitutively at the erythrocyte stage. BgHsp70 levels were elevated when the parasites were incubated at 42 C for 1 hr. In contrast, its mRNA amount was decreased and its protein amount was unchanged when the parasites were incubated at 32 C for 1 hr. Moreover, the level of parasitemia of B. gibsoni incubated at either 42 C or 32 C was almost the same as that at 37 C. These results indicated that the exposure of B. gibsoni to elevated temperatures might result in increased expression of BgHsp70 and that the exposure of the intraerythrocytic parasites to decreased temperatures might not induce the overexpression of BgHsp70.

Analysis of ribosomal shunting during translation initiation in eukaryotic mRNAs.

In eukaryotes, translation initiation involves recruitment of ribosomal subunits at either the 5' m7G cap structure or at an internal ribosome entry site (IRES). For most mRNAs, the initiation codon is located some distance downstream, necessitating ribosomal movement to this site. Although the mechanistic details of this movement remain to be fully resolved, it appears to be nonlinear for some mRNAs (i.e., ribosomal subunits appear to bypass [shunt] segments of the 5' leader as they move to the initiation codon). This chapter describes various experimental approaches to assess ribosomal shunting and to identify mRNA elements (shunt sites) that facilitate shunting. In addition, we provide an overview of approaches that can be used to investigate the mechanism used by individual shunt sites, along with a detailed protocol for investigating putative base pairing interactions between shunt sites and 18S rRNA.

The 18S rRNA is basically composed of two tandem quasirepeats. Insights into the evolution of some innate immunity receptors.

The gene encoding the 18S rRNA is an ancient molecule and its basic structure has been highly conserved from fish to mammals. Recently, we compared the nucleotide sequences of the human 18S rRNA and the human formyl peptide receptor 1 mRNA and concluded that selected segments of the two sequences exhibit similarities that are unlikely to be due simply to chance. Other data suggest the existence of nonrandom similarities between the 18S rRNA and the chemokine CXC receptor 4 mRNA. Therefore we advance the hypothesis that some groups of genes encoding 7-transmembrane G-coupled receptors of immunological interest may be evolutionarily related to the 18S gene. In this article we analyze the base-sequence architecture of the human 18S rRNA in terms of similarities between selected segments within the molecule. The method of study was based on the recording of the positions of 7- to 11-base oligonucleotide repeats, followed by a probabilistic analysis of the random occurrence of the repeats. Herein we show that most of the 18S rRNA molecule appears to be composed of two long tandem quasirepeats. We hypothesize that an ancestral gene structure composed of a chain of about 850 nucleotides duplicated to form a two-unit tandem repeat. Then the two units diverged as a consequence of independent nucleotide mutations, deletions, and insertions, but still retaining recognizable homologies. In addition, further nonduplicated shorter segments were added to build up the complete sequence.

Validation of housekeeping genes as internal control for studying gene expression in rice by quantitative real-time PCR.

For accurate and reliable gene expression results, normalization of real-time PCR data is required against a control gene, which displays highly uniform expression in living organisms during various phases of development and under different environmental conditions. We assessed the gene expression of 10 frequently used housekeeping genes, including 18S rRNA, 25S rRNA, UBC, UBQ5, UBQ10, ACT11, GAPDH, eEF-1alpha, eIF-4a, and beta-TUB, in a diverse set of 25 rice samples. Their expression varied considerably in different tissue samples analyzed. The expression of UBQ5 and eEF-1alpha was most stable across all the tissue samples examined. However, 18S and 25S rRNA exhibited most stable expression in plants grown under various environmental conditions. Also, a set of two genes was found to be better as control for normalization of the data. The expression of these genes (with more uniform expression) can be used for normalization of real-time PCR results for gene expression studies in a wide variety of samples in rice.