scholarly journals DNA polymerase stalling at structured DNA constrains the expansion of Short Tandem Repeats

2020 ◽  
Author(s):  
Pierre Murat ◽  
Guillaume Guilbaud ◽  
Julian E. Sale
Keyword(s):  
Dna Synthesis ◽  
Dna Polymerase ◽  
Dna Sequences ◽  
Short Tandem Repeats ◽  
Tandem Repeats ◽  
Dna Structures ◽  
The Impact ◽  
Eukaryotic Genomes ◽  
Polymerase Slippage ◽  
Short Tandem

AbstractBackgroundShort tandem repeats (STRs) contribute significantly to de novo mutagenesis, driving phenotypic diversity and genetic disease. Although highly diverse, their repetitive sequences induce DNA polymerase slippage and stalling, leading to length and sequence variation. However, current studies of DNA synthesis through STRs are restricted to a handful of selected sequences, limiting our broader understanding of their evolutionary behaviour and hampering the characterisation of the determinants of their abundance and stability in eukaryotic genomes.ResultsWe perform a comprehensive analysis of DNA synthesis at all STR permutations and interrogate the impact of STR sequence and secondary structure on their genomic representation and mutability. To do so, we developed a high-throughput primer extension assay that allows monitoring of the kinetics and fidelity of DNA synthesis through 20,000 sequences comprising all STR permutations in different lengths. By combining these measurements with population-scale genomic data, we show that the response of a model replicative DNA polymerase to variously structured DNA is sufficient to predict the complex genomic behaviour of STRs, including abundance and mutational constraints. We demonstrate that DNA polymerase stalling at DNA structures induces error-prone DNA synthesis, which constrains STR expansion.ConclusionsOur data support a model in which STR length in eukaryotic genomes results from a balance between expansion due to polymerase slippage at repeated DNA sequences and point mutations caused by error-prone DNA synthesis at DNA structures.

scholarly journals APOBEC mutagenesis is low in most types of non-B DNA structures, unlike other types of cancer mutagenesis

2021 ◽  
Author(s):  
Gennady V Ponomarev ◽  
Bulat Fatykhov ◽  
Vladimir A Nazarov ◽  
Ruslan Abasov ◽  
Evgeny Shvarov ◽  
...  
Keyword(s):  
Short Tandem Repeats ◽  
Tandem Repeats ◽  
Somatic Mutations ◽  
Direct Repeats ◽  
Uv Mutagenesis ◽  
Dna Structures ◽  
G Quadruplex ◽  
The Impact ◽  
Very High ◽  
Short Tandem

While somatic mutations are known to be enriched in genome regions with non-canonical DNA secondary structure, the impact of particular mutagens still needs to be elucidated. Here, we demonstrate that in human cancers, the APOBEC mutagenesis is not enriched in direct repeats, mirror repeats, short tandem repeats, and G-quadruplexes, and even decreased below its level in B-DNA for cancer samples with very high APOBEC activity. In contrast, we observe that the APOBEC-induced mutational density is positively associated with APOBEC activity in inverted repeats (cruciform structures), where the impact of cytosine at the 3'-end of the hairpin loop is substantial. Surprisingly, the APOBEC-signature mutation density per TC motif in the single-stranded DNA of a G-quadruplex (G4) is lower than in the four-stranded part of G4 and in B-DNA. The APOBEC mutagenesis, as well as the UV-mutagenesis in melanoma samples are absent in Z-DNA regions, due to depletion of their mutational signature motifs.

Molecular mechanisms for maintenance of G-rich short tandem repeats capable of adopting G4 DNA structures

2006 ◽  
Vol 598 (1-2) ◽  
pp. 120-131 ◽  
Author(s):  
Hitoshi Nakagama ◽  
Kumiko Higuchi ◽  
Etsuko Tanaka ◽  
Naoto Tsuchiya ◽  
Katsuhiko Nakashima ◽  
...  
Keyword(s):  
Short Tandem Repeats ◽  
Molecular Mechanisms ◽  
Tandem Repeats ◽  
Dna Structures ◽  
G4 Dna ◽  
Short Tandem

scholarly journals Short Tandem Repeats as a High-Resolution Marker for Capturing Recent Orangutan Population Evolution

2021 ◽  
Vol 1 ◽  
Author(s):  
Alina-Alexandra Voicu ◽  
Michael Krützen ◽  
Tugce Bilgin Sonay
Keyword(s):  
Population Genetics ◽  
Genetic Variation ◽  
Short Tandem Repeats ◽  
Tandem Repeats ◽  
Demographic History ◽  
Population Variation ◽  
Local Adaptations ◽  
A Genome ◽  
The Impact ◽  
Short Tandem

The genus Pongo is ideal to study population genetics adaptation, given its remarkable phenotypic divergence and the highly contrasting environmental conditions it’s been exposed to. Studying its genetic variation bears the promise to reveal a motion picture of these great apes’ evolutionary and adaptive history, and also helps us expand our knowledge of the patterns of adaptation and evolution. In this work, we advance the understanding of the genetic variation among wild orangutans through a genome-wide study of short tandem repeats (STRs). Their elevated mutation rate makes STRs ideal markers for the study of recent evolution within a given population. Current technological and algorithmic advances have rendered their sequencing and discovery more accurate, therefore their potential can be finally leveraged in population genetics studies. To study patterns of population variation within the wild orangutan population, we genotyped the short tandem repeats in a population of 21 individuals spanning four Sumatran and Bornean (sub-) species and eight Southeast Asian regions. We studied the impact of sequencing depth on our ability to genotype STRs and found that the STR copy number changes function as a powerful marker, correctly capturing the demographic history of these populations, even the divergences as recent as 10 Kya. Moreover, gene ontology enrichments for genes close to STR variants are aligned with local adaptations in the two islands. Coupled with more advanced STR-compatible population models, and selection tests, genomic studies based on STRs will be able to reduce the gap caused by the missing heritability for species with recent adaptations.

scholarly journals DNA polymerase stalling at structured DNA constrains the expansion of short tandem repeats

2020 ◽  
Vol 21 (1) ◽  
Author(s):  
Pierre Murat ◽  
Guillaume Guilbaud ◽  
Julian E. Sale
Keyword(s):  
Dna Polymerase ◽  
Short Tandem Repeats ◽  
Tandem Repeats ◽  
Short Tandem

scholarly journals Histone H3 Lysine 4 Methylation Marks Postreplicative Human Cytomegalovirus Chromatin

2012 ◽  
Vol 86 (18) ◽  
pp. 9817-9827 ◽  
Author(s):  
Alexandra Nitzsche ◽  
Charlotte Steinhäußer ◽  
Katrin Mücke ◽  
Christina Paulus ◽  
Michael Nevels
Keyword(s):  
Dna Replication ◽  
Dna Synthesis ◽  
Histone Modification ◽  
Dna Polymerase ◽  
Human Cytomegalovirus ◽  
Viral Genome ◽  
Histone H3 ◽  
Viral Dna ◽  
The Impact ◽  
Preferential Incorporation

In the nuclei of permissive cells, human cytomegalovirus genomes form nucleosomal structures initially resembling heterochromatin but gradually switching to a euchromatin-like state. This switch is characterized by a decrease in histone H3 K9 methylation and a marked increase in H3 tail acetylation and H3 K4 methylation across the viral genome. We used ganciclovir and a mutant virus encoding a reversibly destabilized DNA polymerase to examine the impact of DNA replication on histone modification dynamics at the viral chromatin. The changes in H3 tail acetylation and H3 K9 methylation proceeded in a DNA replication-independent fashion. In contrast, the increase in H3 K4 methylation proved to depend widely on viral DNA synthesis. Consistently, labeling of nascent DNA using “click chemistry” revealed preferential incorporation of methylated H3 K4 into viral (but not cellular) chromatin during or following DNA replication. This study demonstrates largely selective epigenetic tagging of postreplicative human cytomegalovirus chromatin.

Population Genetics of Y-Chromosome Short Tandem Repeats in Humans

1997 ◽  
Vol 45 (3) ◽  
pp. 265-270 ◽  
Author(s):  
Anna Pérez-Lezaun ◽  
Francesc Calafell ◽  
Mark Seielstad ◽  
Eva Mateu ◽  
David Comas ◽  
...  
Keyword(s):  
Population Genetics ◽  
Y Chromosome ◽  
Short Tandem Repeats ◽  
Tandem Repeats ◽  
Short Tandem
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