Publications by authors named "Arnau Vina-Vilaseca"

miRNAs are small RNAs that regulate gene expression post-transcriptionally. By repressing the translation and promoting the degradation of target mRNAs, miRNAs may reduce the cell-to-cell variability in protein expression, induce correlations between target expression levels, and provide a layer through which targets can influence each other's expression as "competing RNAs" (ceRNAs). However, experimental evidence for these behaviors is limited.

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In Saccharomyces cerevisiae, deletion of large ribosomal subunit protein-encoding genes increases the replicative lifespan in a Gcn4-dependent manner. However, how Gcn4, a key transcriptional activator of amino acid biosynthesis genes, increases lifespan, is unknown. Here we show that Gcn4 acts as a repressor of protein synthesis.

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High-throughput sequencing has greatly facilitated the discovery of long and short non-coding RNAs (ncRNAs), which frequently guide ribonucleoprotein complexes to RNA targets, to modulate their metabolism and expression. However, for many ncRNAs, the targets remain to be discovered. In this study, we developed computational methods to map C/D box snoRNA target sites using data from core small nucleolar ribonucleoprotein crosslinking and immunoprecipitation and from transcriptome-wide mapping of 2΄-O-ribose methylation sites.

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Trex2 is a keratinocyte-specific 3'-deoxyribonuclease that participates in the maintenance of skin homeostasis after DNA damage. Here, we show that this exonuclease is strongly upregulated in human psoriasis, a hyperproliferative and inflammatory skin disease. Similarly, the imiquimod (IMQ)- and Il23-induced mouse psoriasis was associated with a substantial upregulation of Trex2, which was recruited into fragmented chromatin in keratinocytes that were undergoing impaired proliferation, differentiation, and cell death, indicating an important role in DNA processing.

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The generation of dynamic models of biological processes critically depends on the determination of precise cellular concentrations of biomolecules. Measurements of system-wide absolute protein levels are particularly valuable information in systems biology. Recently, mass spectrometry based proteomics approaches have been developed to estimate protein concentrations on a proteome-wide scale.

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The endocytic compartment is emerging as a functional platform for controlling important cellular processes. We have found that ∼10 to 15% of total KRas, a protein that is frequently mutated in cancer, is present on endosomes, independent of its activation state. The dynamics of GFP-KRas wild-type (WT) and constitutively active or inactive mutants on endosomes were analyzed by fluorescence recovery after photobleaching (FRAP) microscopy.

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Cationic amino acid transporter 1 (CAT-1) is responsible for the bulk of the uptake of cationic amino acids in most mammalian cells. Activation of protein kinase C (PKC) leads to down-regulation of the cell surface CAT-1. To examine the mechanisms of PKC-induced down-regulation of CAT-1, a functional mutant of CAT-1 (CAT-1-HA-GFP) was generated in which a hemagglutinin antigen (HA) epitope tag was introduced into the second extracellular loop and GFP was attached to the carboxyl terminus.

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RNA interference screen previously revealed that a HECT-domain E3 ubiquitin ligase, neuronal precursor cell expressed, developmentally down-regulated 4-2 (Nedd4-2), is necessary for ubiquitination and endocytosis of the dopamine transporter (DAT) induced by the activation of protein kinase C (PKC). To further confirm the role of Nedd4-2 in DAT ubiquitination and endocytosis, we demonstrated that the depletion of Nedd4-2 by two different small interfering RNA (siRNA) duplexes suppressed PKC-dependent ubiquitination and endocytosis of DAT in human and porcine cells, whereas knock-down of a highly homologous E3 ligase, Nedd4-1, had no effect on DAT. The abolished DAT ubiquitination in Nedd4-2-depleted cells was rescued by expression of recombinant Nedd4-2.

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TREX2 is a proofreading 3'-5' exonuclease that can be involved in genome maintenance; however, its biological role remains undefined. To better understand the function and physiologic relevance of TREX2, we generated mice deficient in TREX2 by targeted disruption of its unique coding exon. The knockout mice are viable and do not show relevant differences in growth, survival, lymphocyte development, or spontaneous tumor incidence compared with their wild-type counterparts over a period of up to 2 years.

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