Vladimir Berikov scite author profile

Analysis of mutations in mitochondrial DNA is an important issue in population and evolutionary genetics. To study spontaneous base substitutions in human mitochondrial DNA we reconstructed the mutational spectra of the hypervariable segments I and II (HVS I and II) using published data on polymorphisms from various human populations. An excess of pyrimidine transitions was found both in HVS I and II regions. By means of classification analysis numerous mutational hotspots were revealed in these spectra. Context analysis of hotspots revealed a complex influence of neighboring bases on mutagenesis in the HVS I region. Further statistical analysis suggested that a transient misalignment dislocation mutagenesis operating in monotonous runs of nucleotides play an important role for generating base substitutions in mitochondrial DNA and define context properties of mtDNA. Our results suggest that dislocation mutagenesis in HVS I and II is a fingerprint of errors produced by DNA polymerase gamma in the course of human mitochondrial DNA replication

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Ensemble clustering based on weighted co-association matrices: Error bound and convergence properties

Berikov

Пестунов

2017

Pattern Recognition

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ERANNs: Efficient residual audio neural networks for audio pattern recognition

Verbitskiy

Berikov

Vyshegorodtsev³

2022

Pattern Recognition Letters

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Regression trees for analysis of mutational spectra in nucleotide sequences.

Berikov¹,

Rogozin²

1999

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