Cook, P. R.; Marenduzzo, D.; Valei, Z.

Existing databases of interphase chromosome conformations typically store three-dimensional coordinates of genomic segments. However, since interphase chromatin is highly dynamic, such databases are dominated by transient configurations and unstructured regions, whose positions vary continuously between cells and over time, unlike folded proteins such as globin, which adopt similar structures in every cell. These drawbacks motivated the inception of a database based on 'strion' (a portmanteau of a string capturing structure and function). A strion concisely describes the structure and activity of all transcription units in one cell, by retaining only functionally relevant positional information. Sets of strions describing structures in different cells sampled at different times are compiled into a 'super-strion'. Then, 46 super-strions summarise the range of structure and activity of a human cell type, including information on all transcription units, how often each co-fires and co-clusters with others in transcription factories/hubs, enhancer interactomes and small-world expression networks.