Add to ORKGDNA is naturally dynamic and can self-assemble into alternative secondary structures including the intercalated motif (i-motif), a four-stranded structure formed in cytosine-rich DNA sequences. Until recently, i-motifs were thought to be unstable in physiological cellular environments. Studies demonstrating their existence in the human genome and role in gene regulation are now shining light on their biological relevance. Herein, we review the effects of epigenetic modifications on i-motif structure and stability, and biological factors that affect i-motif formation within cells. Furthermore, we highlight recent progress in targeting i-motifs with structure-specific ligands for biotechnology and therapeutic purposes
The overall goal of this thesis was to investigate the environmental conditions that induce i-Motif ...
Numerous studies have been published stressing the importance of finding ligands that can bind speci...
The cytosine (C)-rich sequences that can fold into tetraplex structures known as i-motif are prevale...
19 pags., 7 figs.The i-motif represents a paradigmatic example of the wide structural versatility of...
DNA i-motif is an intercalated quadruplex structure formed by association of hemi- protonated C•CH+ ...
International audiencei-Motifs of DNA (hereafter, i-DNA), known in vitro for nearly three decades, a...
Under certain conditions, specific DNA sequences have the potential to adopt noncanonical secondary ...
Although the canonical right-handed B-DNA is the predominant form of DNA in cells, DNA can adopt oth...
Cytosine-rich DNA can fold into four-stranded intercalated structures called i-motifs (iMs) under ac...
Background Non-canonical DNA secondary structures can be formed by sequences that are widely distri...
i-Motifs (iMs) are four-stranded DNA structures that form at cytosine (C)-rich sequences in acidic c...
i-Motifs are alternative DNA secondary structures formed in cytosine-rich sequences. Particular exam...
International audiencei-Motif (the name stems from “intercalated”), also known as i-DNA, is a pH-dep...
The possible role of DNA i-motif structures in telomere biology and in the transcriptional regulatio...
It is well known that B-form DNA is not the only structure formed in the genome. In addition to the ...
The overall goal of this thesis was to investigate the environmental conditions that induce i-Motif ...
Numerous studies have been published stressing the importance of finding ligands that can bind speci...
The cytosine (C)-rich sequences that can fold into tetraplex structures known as i-motif are prevale...
19 pags., 7 figs.The i-motif represents a paradigmatic example of the wide structural versatility of...
DNA i-motif is an intercalated quadruplex structure formed by association of hemi- protonated C•CH+ ...
International audiencei-Motifs of DNA (hereafter, i-DNA), known in vitro for nearly three decades, a...
Under certain conditions, specific DNA sequences have the potential to adopt noncanonical secondary ...
Although the canonical right-handed B-DNA is the predominant form of DNA in cells, DNA can adopt oth...
Cytosine-rich DNA can fold into four-stranded intercalated structures called i-motifs (iMs) under ac...
Background Non-canonical DNA secondary structures can be formed by sequences that are widely distri...
i-Motifs (iMs) are four-stranded DNA structures that form at cytosine (C)-rich sequences in acidic c...
i-Motifs are alternative DNA secondary structures formed in cytosine-rich sequences. Particular exam...
International audiencei-Motif (the name stems from “intercalated”), also known as i-DNA, is a pH-dep...
The possible role of DNA i-motif structures in telomere biology and in the transcriptional regulatio...
It is well known that B-form DNA is not the only structure formed in the genome. In addition to the ...
The overall goal of this thesis was to investigate the environmental conditions that induce i-Motif ...
Numerous studies have been published stressing the importance of finding ligands that can bind speci...
The cytosine (C)-rich sequences that can fold into tetraplex structures known as i-motif are prevale...