Sara Fontalva scite author profile

Sara Fontalva

3Publications

10Citation Statements Received

273Citation Statements Given

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170

261

Affiliations

Centro Andaluz de Biología Molecular y Medicina Regenerativa, Institute of Biomedicine of Seville, Universidad de Sevilla

Publications

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Human prefoldin modulates co-transcriptional pre-mRNA splicing

Payán-Bravo

Fontalva

Peñate

et al. 2021

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Prefoldin is a heterohexameric complex conserved from archaea to humans that plays a cochaperone role during the co-translational folding of actin and tubulin monomers. Additional functions of prefoldin have been described, including a positive contribution to transcription elongation and chromatin dynamics in yeast. Here we show that prefoldin perturbations provoked transcriptional alterations across the human genome. Severe pre-mRNA splicing defects were also detected, particularly after serum stimulation. We found impairment of co-transcriptional splicing during transcription elongation, which explains why the induction of long genes with a high number of introns was affected the most. We detected genome-wide prefoldin binding to transcribed genes and found that it correlated with the negative impact of prefoldin depletion on gene expression. Lack of prefoldin caused global decrease in Ser2 and Ser5 phosphorylation of the RNA polymerase II carboxy-terminal domain. It also reduced the recruitment of the CTD kinase CDK9 to transcribed genes, and the association of splicing factors PRP19 and U2AF65 to chromatin, which is known to depend on CTD phosphorylation. Altogether the reported results indicate that human prefoldin is able to act locally on the genome to modulate gene expression by influencing phosphorylation of elongating RNA polymerase II, and thereby regulating co-transcriptional splicing.

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Human prefoldin modulates co-transcriptional pre-mRNA splicing

Payán-Bravo

Peñate

Cases

et al. 2020

Preprint

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Prefoldin is a heterohexameric complex conserved from archaea to humans that plays a cochaperone role during the cotranslational folding of actin and tubulin monomers. Additional functions of prefoldin in the cell nucleus have been described, including a positive contribution to transcription elongation and chromatin dynamics in yeast. Here we show that prefoldin depletion provoked transcriptional alterations across the genome of human cells. Severe pre-mRNA splicing defects were also detected, particularly under serum stimulation conditions. We found a significant impairment of co-transcriptional splicing during transcription elongation, that explains why the expression of long genes with a high number of introns was affected the most. We detected prefoldin binding to the gene body of transcribed genes and found that its lack caused significant decrease in the levels of Ser2 phosphorylation of the RNA polymerase II carboxiterminal domain. Moreover, lack of prefoldin reduced the association of splicing factor U2AF65 with chromatin, an association that is known to be dependent on Ser2 phosphorylation. Considered altogether the reported results indicate that human prefoldin is able to modulate gene expression by influencing phosphorylation of elongating RNA polymerase II, and thereby regulating co-transcriptional splicing efficiency.

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Transcription and FACT facilitate the restoration of replication-coupled chromatin assembly defects

Barrientos-Moreno

Maya-Miles

Murillo-Pineda

et al. 2023

Sci Rep

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Genome duplication occurs through the coordinated action of DNA replication and nucleosome assembly at replication forks. Defective nucleosome assembly causes DNA lesions by fork breakage that need to be repaired. In addition, it causes a loss of chromatin integrity. These chromatin alterations can be restored, even though the mechanisms are unknown. Here, we show that the process of chromatin restoration can deal with highly severe chromatin defects induced by the absence of the chaperones CAF1 and Rtt106 or a strong reduction in the pool of available histones, and that this process can be followed by analyzing the topoisomer distribution of the 2µ plasmid. Using this assay, we demonstrate that chromatin restoration is slow and independent of checkpoint activation, whereas it requires the action of transcription and the FACT complex. Therefore, cells are able to “repair” not only DNA lesions but also chromatin alterations associated with defective nucleosome assembly.

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Sara Fontalva

Human prefoldin modulates co-transcriptional pre-mRNA splicing

Human prefoldin modulates co-transcriptional pre-mRNA splicing

Transcription and FACT facilitate the restoration of replication-coupled chromatin assembly defects

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