María Vera scite author profile

The MS2-MCP system allows imaging multiple steps of the mRNA life cycle with high temporal and spatial resolution. However for short-lived mRNAs, the tight binding of the MS2 coat protein (MCP) to the MS2 binding sites (MBS) protects the RNA from being efficiently degraded, confounding the study of mRNA regulation. Here, we describe a reporter system (MBSV6) with reduced affinity for the MCP, allowing mRNA degradation while preserving single molecule detection determined by smFISH or live imaging. Constitutive mRNAs (MDN1 and DOA1) or highly-regulated mRNAs (GAL1 and ASH1) endogenously tagged with MBSV6 in S. cerevisiae degrade normally. As a result, rapidly turning over mRNAs were imaged throughout their complete life cycle. MBSV6 provided single molecule detection in live mammalian cells. The MBSV6 reporter revealed that coordinated recruitment of mRNAs at specialized structures such as P-bodies during stress did not occur and that degradation was heterogeneously distributed in the cytoplasm.

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Clustering of Missense Mutations in the C-Terminal Region of Factor H in Atypical Hemolytic Uremic Syndrome

Pérez-Caballero

González-Rubio

Gallardo

et al. 2001

The American Journal of Human Genetics

270

205

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Hemolytic-uremic syndrome (HUS) is a microvasculature disorder leading to microangiopathic hemolytic anemia, thrombocytopenia, and acute renal failure. Most cases of HUS are associated with epidemics of diarrhea caused by verocytotoxin-producing bacteria, but atypical cases of HUS not associated with diarrhea (aHUS) also occur. Early studies describing the association of aHUS with deficiencies of factor H suggested a role for this complement regulator in aHUS. Molecular evidence of factor H involvement in aHUS was first provided by Warwicker et al., who demonstrated that aHUS segregated with the chromosome 1q region containing the factor H gene (HF1) and who identified a mutation in HF1 in a case of familial aHUS with normal levels of factor H. We have performed the mutational screening of the HF1 gene in a novel series of 13 Spanish patients with aHUS who present normal complement profiles and whose plasma levels of factor H are, with one exception, within the normal range. These studies have resulted in the identification of five novel HF1 mutations in four of the patients. Allele HF1 Delta exon2, a genomic deletion of exon 2, produces a null HF1 allele and results in plasma levels of factor H that are 50% of normal. T956M, W1183L, L1189R, and V1197A are missense mutations that alter amino acid residues in the C-terminal portion of factor H, within a region--SCR16-SCR20--that is involved in the binding to solid-phase C3b and to negatively charged cellular structures. This remarkable clustering of mutations in HF1 suggests that a specific dysfunction in the protection of cellular surfaces by factor H is a major pathogenic condition underlying aHUS.

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Intracellular mRNA transport and localized translation

Das

Vera

Gandin

et al. 2021

Nat Rev Mol Cell Biol

241

165

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Expression of a novel non-coding mitochondrial RNA in human proliferating cells

et al. 2007

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Previously, we reported the presence in mouse cells of a mitochondrial RNA which contains an inverted repeat (IR) of 121 nucleotides (nt) covalently linked to the 5′ end of the mitochondrial 16S RNA (16S mtrRNA). Here, we report the structure of an equivalent transcript of 2374 nt which is over-expressed in human proliferating cells but not in resting cells. The transcript contains a hairpin structure comprising an IR of 815 nt linked to the 5′ end of the 16S mtrRNA and forming a long double-stranded structure or stem and a loop of 40 nt. The stem is resistant to RNase A and can be detected and isolated after digestion with the enzyme. This novel transcript is a non-coding RNA (ncRNA) and several evidences suggest that the transcript is synthesized in mitochondria. The expression of this transcript can be induced in resting lymphocytes stimulated with phytohaemagglutinin (PHA). Moreover, aphidicolin treatment of DU145 cells reversibly blocks proliferation and expression of the transcript. If the drug is removed, the cells re-assume proliferation and over-express the ncmtRNA. These results suggest that the expression of the ncmtRNA correlates with the replicative state of the cell and it may play a role in cell proliferation.

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María Vera

An improved MS2 system for accurate reporting of the mRNA life cycle

Clustering of Missense Mutations in the C-Terminal Region of Factor H in Atypical Hemolytic Uremic Syndrome

Intracellular mRNA transport and localized translation

Expression of a novel non-coding mitochondrial RNA in human proliferating cells

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