The columnar structure of human telomeric chromatin suggests mechanisms for telomere maintenance

Telomeres, the ends of eukaryotic chromosomes, play pivotal roles in ageing and cancer and are targets of DNA damage and response. However, little is known about the structure and organization of telomeric chromatin at the molecular level. We used electron microscopy and single-molecule magnetic tweezers to characterize well-defined telomeric chromatin fibers of kilobasepair length. The cryo-EM structure of the compact telomeric tetranucleosome revealed a novel columnar folding, unusually short nucleosome repeat length of ∼132bp and the role of the histone N-terminal tails in stabilizing this structure. This is the first near-high resolution structure of chromatin with a native DNA sequence. The columnar structure exposes the DNA, making them susceptible to DNA damage. The telomeric tetranucleosome also exists in an alternative well-defined state, with one nucleosome open, accessible to protein factors. This suggests that protein factors, which plays a role in maintaining telomeres, can bind to telomeric chromatin in its compact heterochromatic form. The features of the telomeric chromatin structure reveals important insights of significant relevance for telomere function in vivo that provides information on mechanisms of nucleosome recognition by chromatin factors ### Competing Interest Statement The authors have declared no competing interest.