Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs

We previously reported that human Rev1 (hRev1) bound to a parallel-stranded G-quadruplex (G4) from the c-MYC promoter with high affinity. We have extended those results to include other G4 motifs, finding that hRev1 exhibited stronger affinity for parallel-stranded G4 than either anti-parallel or hy...

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Autores principales: Ketkar, Amit, Smith, Lane, Johnson, Callie, Richey, Alyssa, Berry, Makayla, Hartman, Jessica H, Maddukuri, Leena, Reed, Megan R, Gunderson, Julie E C, Leung, Justin W C, Eoff, Robert L
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2021
Materias:
Genome Integrity, Repair and Replication
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7913688/
https://www.ncbi.nlm.nih.gov/pubmed/33555350
http://dx.doi.org/10.1093/nar/gkab041
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author Ketkar, Amit
Smith, Lane
Johnson, Callie
Richey, Alyssa
Berry, Makayla
Hartman, Jessica H
Maddukuri, Leena
Reed, Megan R
Gunderson, Julie E C
Leung, Justin W C
Eoff, Robert L
author_facet Ketkar, Amit
Smith, Lane
Johnson, Callie
Richey, Alyssa
Berry, Makayla
Hartman, Jessica H
Maddukuri, Leena
Reed, Megan R
Gunderson, Julie E C
Leung, Justin W C
Eoff, Robert L
author_sort Ketkar, Amit
collection PubMed
description We previously reported that human Rev1 (hRev1) bound to a parallel-stranded G-quadruplex (G4) from the c-MYC promoter with high affinity. We have extended those results to include other G4 motifs, finding that hRev1 exhibited stronger affinity for parallel-stranded G4 than either anti-parallel or hybrid folds. Amino acids in the αE helix of insert-2 were identified as being important for G4 binding. Mutating E466 and Y470 to alanine selectively perturbed G4 binding affinity. The E466K mutant restored wild-type G4 binding properties. Using a forward mutagenesis assay, we discovered that loss of hRev1 increased G4 mutation frequency >200-fold compared to the control sequence. Base substitutions and deletions occurred around and within the G4 motif. Pyridostatin (PDS) exacerbated this effect, as the mutation frequency increased >700-fold over control and deletions upstream of the G4 site more than doubled. Mutagenic replication of G4 DNA (±PDS) was partially rescued by wild-type and E466K hRev1. The E466A or Y470A mutants failed to suppress the PDS-induced increase in G4 mutation frequency. These findings have implications for the role of insert-2, a motif conserved in vertebrates but not yeast or plants, in Rev1-mediated suppression of mutagenesis during G4 replication.
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spelling pubmed-79136882021-03-03 Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs Ketkar, Amit Smith, Lane Johnson, Callie Richey, Alyssa Berry, Makayla Hartman, Jessica H Maddukuri, Leena Reed, Megan R Gunderson, Julie E C Leung, Justin W C Eoff, Robert L Nucleic Acids Res Genome Integrity, Repair and Replication We previously reported that human Rev1 (hRev1) bound to a parallel-stranded G-quadruplex (G4) from the c-MYC promoter with high affinity. We have extended those results to include other G4 motifs, finding that hRev1 exhibited stronger affinity for parallel-stranded G4 than either anti-parallel or hybrid folds. Amino acids in the αE helix of insert-2 were identified as being important for G4 binding. Mutating E466 and Y470 to alanine selectively perturbed G4 binding affinity. The E466K mutant restored wild-type G4 binding properties. Using a forward mutagenesis assay, we discovered that loss of hRev1 increased G4 mutation frequency >200-fold compared to the control sequence. Base substitutions and deletions occurred around and within the G4 motif. Pyridostatin (PDS) exacerbated this effect, as the mutation frequency increased >700-fold over control and deletions upstream of the G4 site more than doubled. Mutagenic replication of G4 DNA (±PDS) was partially rescued by wild-type and E466K hRev1. The E466A or Y470A mutants failed to suppress the PDS-induced increase in G4 mutation frequency. These findings have implications for the role of insert-2, a motif conserved in vertebrates but not yeast or plants, in Rev1-mediated suppression of mutagenesis during G4 replication. Oxford University Press 2021-02-08 /pmc/articles/PMC7913688/ /pubmed/33555350 http://dx.doi.org/10.1093/nar/gkab041 Text en © The Author(s) 2021. Published by Oxford University Press on behalf of Nucleic Acids Research. http://creativecommons.org/licenses/by/4.0/ This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Genome Integrity, Repair and Replication
Ketkar, Amit
Smith, Lane
Johnson, Callie
Richey, Alyssa
Berry, Makayla
Hartman, Jessica H
Maddukuri, Leena
Reed, Megan R
Gunderson, Julie E C
Leung, Justin W C
Eoff, Robert L
Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs
title Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs
title_full Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs
title_fullStr Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs
title_full_unstemmed Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs
title_short Human Rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized G-quadruplex motifs
title_sort human rev1 relies on insert-2 to promote selective binding and accurate replication of stabilized g-quadruplex motifs
topic Genome Integrity, Repair and Replication
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7913688/
https://www.ncbi.nlm.nih.gov/pubmed/33555350
http://dx.doi.org/10.1093/nar/gkab041
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