Denis V. Bakhmutov scite author profile

Two tick-borne encephalitis (TBE) virus variants were studied: mouse brain-adapted strain EK-328 and its derivate adapted to Hyalomma marginatum ticks. The tick-adapted virus exhibited small-plaque phenotype and slower replication in PEK cells, higher yield in ticks, decreased neuroinvasiveness in mice, increased binding to heparin-sepharose. A total of 15 nucleotide substitutions distinguished genomes of these variants, six substitutions resulted in protein sequence alterations, and two were in 5'NTR. Two amino acid substitutions in E protein were responsible for the observed phenotypic differences. Data obtained during reverse passaging of the tick-adapted virus in vivo and in vitro suggest that TBE virus exists as a heterogeneous population that contains virus variants most adapted to reproduction in either ticks or mammals. Host switch results in a change in the ratio of these variants in the population. Plaque purification of the tick-adapted virus resulted in the prompt emergence of new mutants with different virulence for mammals.

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Mutational robustness and resilience of a replicative cis-element of RNA virus: Promiscuity, limitations, relevance

Prostova

Gmyl

Bakhmutov

et al. 2015

RNA Biology

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Since replication of RNA-viruses is generally a low-fidelity process, it would be advantageous, if specific interactions of their genomic cis-elements with dedicated ligands are relatively tolerant to mutations. The specificity/promiscuity trade-off of such interactions was addressed here by investigating structural requirements of the oriL (also known as the clover leaf-like element), of poliovirus RNA, a replicative cis-element containing a conserved essential tetraloop functionally interacting with the viral protein 3CD. The sequence of this tetraloop and 2 adjacent base-pairs was randomized in the viral genome, and viable viruses were selected in susceptible cells. Strikingly, each position of this octanucleotide in 62 investigated viable viruses could be occupied by any nucleotide (with the exception of one position, which lacked U), though with certain sequence preferences, confirmed by engineering mutant viral genomes whose phenotypic properties were found to correlate with the strength of the cis-element/ligand interaction. The results were compatible with a hypothesis that functional recognition by 3CD requires that this tetraloop should stably or temporarily adopt a YNMG-like (YDU/C, NDany nucleotide, MDA/C) fold. The fitness of "weak" viruses could be increased by compensatory mutations "improving" the tetraloops. Otherwise, the recognition of "bad" tetraloops might be facilitated by alterations in the 3CD protein. The virus appeared to tolerate mutations in its cis-element relaying on either robustness (spatial structure degeneracy) or resilience (a combination of dynamic RNA folding, low-fidelity replication modifying the cis-element or its ligand, and negative selection). These mechanisms (especially resilience involving metastable low-fit intermediates) can also contribute to the viral evolvability.

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A GCUA tetranucleotide loop found in the poliovirus oriL by in vivo SELEX (un)expectedly forms a YNMG-like structure: Extending the YNMG family with GYYA

Melchers

Zoll²,

Tessari³

et al. 2006

RNA

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The cloverleaf structure in the 59-untranslated region of enterovirus RNA that regulates viral RNA replication contains an evolutionarily conserved YNMG tetraloop closed by a Y-G base pair. This loop is believed to interact specifically with the viral protease 3C. To further characterize the specificity of this interaction, the tetraloop and two flanking base pairs of the poliovirus RNA were randomized, and viable viral clones were obtained using in vivo SELEX. Among many different mutants with the canonical YNMG sequences to be described elsewhere, a large-plaque-forming clone contained a deviating uGCUAg sequence. The NMR structure of a small hairpin capped with uGCUAg that we present here shows that the GCUA tetraloop adopts a novel fold, which is highly similar to that of the YNMG tetraloop with common stacking properties and hydrogen-bond interactions including an unusual syn conformation of the adenosine. Thermodynamic studies show moderate stabilities of hairpins with canonical YNMG and the novel GCUA loops, which, together with the similarity of spatial structures, illustrates that the tetraloop structure itself is crucial for the RNA-protein interaction required for the viral replication. A re-evaluation of the ribosomal secondary structure database reveals a hairpin containing a GCUA loop, which covaries with YNMG and is involved in a tertiary interaction, and in the 50S ribosomal subunit from Haloarcula marismortui the structurally comparable apex of stem-loop 35a is a recognition site for protein L2. These observations show a more general occurrence and importance of the so-far unrecognized GYYA hairpin loops.

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Characterization of Mutational Tolerance of a Viral RNA–Protein Interaction

Prostova

Smertina

Bakhmutov

et al. 2019

Viruses

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Replication of RNA viruses is generally markedly error-prone. Nevertheless, these viruses usually retain their identity under more or less constant conditions due to different mechanisms of mutation tolerance. However, there exists only limited information on quantitative aspects of the mutational tolerance of distinct viral functions. To address this problem, we used here as a model the interaction between a replicative cis-acting RNA element (oriL) of poliovirus and its ligand (viral protein 3CD). The mutational tolerance of a conserved tripeptide of 3CD, directly involved in this interaction, was investigated. Randomization of the relevant codons and reverse genetics were used to define the space of viability-compatible sequences. Surprisingly, at least 11 different amino acid substitutions in this tripeptide were not lethal. Several altered viruses exhibited wild-type-like phenotypes, whereas debilitated (but viable) genomes could increase their fitness by the acquisition of reversions or compensatory mutations. Together with our study on the tolerance of oriL (Prostova et al., 2015), the results demonstrate that at least 42 out of 51 possible nucleotide replacements within the two relevant genomic regions are viability-compatible. These results provide new insights into structural aspects of an important viral function as well as into the general problems of viral mutational robustness and evolution.

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