Zakharia M. Frenkel scite author profile

Zakharia M. Frenkel

3Publications

91Citation Statements Received

51Citation Statements Given

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Affiliations

ORT Braude College, University of Haifa, Carmel (Israel)

Publications

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Nucleosome Positioning Pattern Derived from Oligonucleotide Compositions of Genomic Sequences

Rapoport

Frenkel

Trifonov

2011

Journal of Biomolecular Structure and Dynamics

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Availability of nucleosome positioning pattern(s) is crucial for chromatin studies. The matrix form of the pattern has been recently derived (I. Gabdank, D. Barash, E. N. Trifonov. J Biomol Struct Dyn 26, 403-412 (2009), and E. N. Trifonov. J Biomol Struct Dyn 27, 741-746 (2010)). In its simplified linear form it is described by the motif CGRAAATTTYCG. Oligonucleotide components of the motif (say, triplets GRA, RAA, AAA, etc.) would be expected to appear in eukaryotic sequences more frequently. In this work we attempted the reconstruction of the bendability patterns for 13 genomes by a novel approach-extension of highest frequency trinucleotides. The consensus of the patterns reconstructed on the basis of trinucleotide frequencies in 13 eukaryotic genomes is derived: CRAAAATTTTYG. It conforms to the earlier established sequence motif. The reconstruction, thus, attests to the universality of the nucleosome DNA bendability pattern.

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Nucleosome DNA sequence structure of isochores

2011

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BackgroundSignificant differences in G+C content between different isochore types suggest that the nucleosome positioning patterns in DNA of the isochores should be different as well.ResultsExtraction of the patterns from the isochore DNA sequences by Shannon N-gram extension reveals that while the general motif YRRRRRYYYYYR is characteristic for all isochore types, the dominant positioning patterns of the isochores vary between TAAAAATTTTTA and CGGGGGCCCCCG due to the large differences in G+C composition. This is observed in human, mouse and chicken isochores, demonstrating that the variations of the positioning patterns are largely G+C dependent rather than species-specific. The species-specificity of nucleosome positioning patterns is revealed by dinucleotide periodicity analyses in isochore sequences. While human sequences are showing CG periodicity, chicken isochores display AG (CT) periodicity. Mouse isochores show very weak CG periodicity only.ConclusionsNucleosome positioning pattern as revealed by Shannon N-gram extension is strongly dependent on G+C content and different in different isochores. Species-specificity of the pattern is subtle. It is reflected in the choice of preferentially periodical dinucleotides.

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Apoptotic cleavage of DNA in human lymphocyte chromatin shows high sequence specificity

Bettecken

Frenkel

Altmüller

et al. 2012

Journal of Biomolecular Structure and Dynamics

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Apoptotic digestion of human lymphocyte chromatin results in the appearance of large amounts of nucleosome size DNA fragments. Sequencing of these fragments and analysis of the distribution of bases around the apoptotic nucleases' cutting sites revealed a rather strong consensus sequence, not observed earlier. The consensus TAAAgTAcTTTA is characterized by complementary symmetry, resembling prokaryotic restriction sites. This consensus also possesses three TA dinucleotide steps, separated by five bases (corresponding to a half-period of the DNA double helix), suggesting strong bending of the DNA at the cut sites which is perhaps required for cutting.

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