What question did this study set out to answer?

The aim is to explore the roles of i-motifs in genomic regulation and discuss advances and challenges in their study.

March 25, 2026Open Access

The cellular landscape of i-motifs: genomic insights, methodological challenges, and the road ahead

Key Points

The aim is to explore the roles of i-motifs in genomic regulation and discuss advances and challenges in their study.
Reviewed recent methodological advances in detecting i-motifs, including specific antibodies and in-cell NMR.
Analyzed genome-wide profiling techniques to understand i-motif functions.
Discussed comparative aspects with G-quadruplex structures and technical limitations.
Highlighted the dynamic regulation of genome function by i-motifs.
Identified challenges in resolving i-motif structures and their biological relevance.
Outlined potential therapeutic avenues related to i-motif biology.

Abstract

Abstract Non-canonical DNA structures add a dynamic layer of genome regulation beyond the classical double helix. I-motifs, cytosine-rich four-stranded DNA structures, are increasingly recognized as context-dependent regulators of genome function. Recent methodological advances, including i-motif-specific antibodies, in-cell NMR, and genome-wide profiling, have enabled their detection and functional interrogation. Here, we review progress in understanding i-motif formation, stability, and protein interactions, highlighting parallels and contrasts with G-quadruplex structures. We also discuss technical limitations, strategies for improving structure-specific resolution, and future opportunities to integrate biochemical, genomic, and imaging approaches to clarify the biological relevance and therapeutic potential of i-motifs.

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The cellular landscape of i-motifs: genomic insights, methodological challenges, and the road ahead

Key Points

Abstract

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