Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay

P53, P63, and P73 proteins belong to the P53 family of transcription factors, sharing a common gene organization that, from the P1 and P2 promoters, produces two groups of mRNAs encoding proteins with different N-terminal regions; moreover, alternative splicing events at C-terminus further contribut...

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Autores principales: Monti, Paola, Brazda, Vaclav, Bohálová, Natália, Porubiaková, Otília, Menichini, Paola, Speciale, Andrea, Bocciardi, Renata, Inga, Alberto, Fronza, Gilberto
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7919268/
https://www.ncbi.nlm.nih.gov/pubmed/33672023
http://dx.doi.org/10.3390/genes12020277
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author Monti, Paola
Brazda, Vaclav
Bohálová, Natália
Porubiaková, Otília
Menichini, Paola
Speciale, Andrea
Bocciardi, Renata
Inga, Alberto
Fronza, Gilberto
author_facet Monti, Paola
Brazda, Vaclav
Bohálová, Natália
Porubiaková, Otília
Menichini, Paola
Speciale, Andrea
Bocciardi, Renata
Inga, Alberto
Fronza, Gilberto
author_sort Monti, Paola
collection PubMed
description P53, P63, and P73 proteins belong to the P53 family of transcription factors, sharing a common gene organization that, from the P1 and P2 promoters, produces two groups of mRNAs encoding proteins with different N-terminal regions; moreover, alternative splicing events at C-terminus further contribute to the generation of multiple isoforms. P53 family proteins can influence a plethora of cellular pathways mainly through the direct binding to specific DNA sequences known as response elements (REs), and the transactivation of the corresponding target genes. However, the transcriptional activation by P53 family members can be regulated at multiple levels, including the DNA topology at responsive promoters. Here, by using a yeast-based functional assay, we evaluated the influence that a G-quadruplex (G4) prone sequence adjacent to the p53 RE derived from the apoptotic PUMA target gene can exert on the transactivation potential of full-length and N-terminal truncated P53 family α isoforms (wild-type and mutant). Our results show that the presence of a G4 prone sequence upstream or downstream of the P53 RE leads to significant changes in the relative activity of P53 family proteins, emphasizing the potential role of structural DNA features as modifiers of P53 family functions at target promoter sites.
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spelling pubmed-79192682021-03-02 Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay Monti, Paola Brazda, Vaclav Bohálová, Natália Porubiaková, Otília Menichini, Paola Speciale, Andrea Bocciardi, Renata Inga, Alberto Fronza, Gilberto Genes (Basel) Article P53, P63, and P73 proteins belong to the P53 family of transcription factors, sharing a common gene organization that, from the P1 and P2 promoters, produces two groups of mRNAs encoding proteins with different N-terminal regions; moreover, alternative splicing events at C-terminus further contribute to the generation of multiple isoforms. P53 family proteins can influence a plethora of cellular pathways mainly through the direct binding to specific DNA sequences known as response elements (REs), and the transactivation of the corresponding target genes. However, the transcriptional activation by P53 family members can be regulated at multiple levels, including the DNA topology at responsive promoters. Here, by using a yeast-based functional assay, we evaluated the influence that a G-quadruplex (G4) prone sequence adjacent to the p53 RE derived from the apoptotic PUMA target gene can exert on the transactivation potential of full-length and N-terminal truncated P53 family α isoforms (wild-type and mutant). Our results show that the presence of a G4 prone sequence upstream or downstream of the P53 RE leads to significant changes in the relative activity of P53 family proteins, emphasizing the potential role of structural DNA features as modifiers of P53 family functions at target promoter sites. MDPI 2021-02-15 /pmc/articles/PMC7919268/ /pubmed/33672023 http://dx.doi.org/10.3390/genes12020277 Text en © 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Monti, Paola
Brazda, Vaclav
Bohálová, Natália
Porubiaková, Otília
Menichini, Paola
Speciale, Andrea
Bocciardi, Renata
Inga, Alberto
Fronza, Gilberto
Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay
title Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay
title_full Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay
title_fullStr Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay
title_full_unstemmed Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay
title_short Evaluating the Influence of a G-Quadruplex Prone Sequence on the Transactivation Potential by Wild-Type and/or Mutant P53 Family Proteins through a Yeast-Based Functional Assay
title_sort evaluating the influence of a g-quadruplex prone sequence on the transactivation potential by wild-type and/or mutant p53 family proteins through a yeast-based functional assay
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7919268/
https://www.ncbi.nlm.nih.gov/pubmed/33672023
http://dx.doi.org/10.3390/genes12020277
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