Replication Timing Uncovers a Two-Compartment Nuclear Architecture of Interphase Euchromatin in Maize

Genome replication is temporally regulated during S phase, with specific genomic regions replicating at defined times in a process known as Replication Timing (RT). Based on 3D cytology in replicating nuclei, we previously proposed a “mini-domain chromatin fiber RT model” for maize euchromatin that suggested it is subdivided into early-S and middle-S compartments distinguished by chromatin condensation and RT. However, whether this compartmentalization reflects a general nuclear architecture that persists throughout the cell cycle was unclear. To test this model, we conducted two orthogonal assays—Hi-C for genome-wide interaction data and 3D FISH for direct visualization of chromatin organization. Hi-C eigenvalues and insulation scores revealed distinct patterns of early-S regions having negative insulation scores with long-range contacts while middle-S regions showed the opposite. Early-S regions also correlated more strongly with epigenomic signatures of open, transcriptionally active chromatin than middle-S regions. 3D oligo FISH painting confirmed that early-S and middle-S regions occupy adjacent but largely non-overlapping nucleoplasmic spaces during all interphase stages, including G1. Our findings redefine the maize euchromatin “A” compartment as having two distinct subcompartments—Early-S and Middle-S—and underscore the importance of replication timing as a defining feature of chromatin architecture and genome organization.