Cytogenetic bands and sharp peaks of Alu underlie large-scale segmental regulation of nuclear genome architecture

Cytogenetic bands reflect genomic organization in large blocks of DNA with similar properties. Because banding patterns are invariant, this organization may often be assumed unimportant for genome regulation. Results here challenge that view. Findings here suggest cytogenetic bands reflect a visible framework upon which regulated genome architecture is built. Given Alu and L1 densities differ in cytogenetic bands, we examined their distribution after X-chromosome inactivation or formation of senescent-associated heterochromatin foci (SAHFs). Alu-rich regions remain outside both SAHFs and the Barr Body (BB), affirming that the BB is not the whole chromosome but a condensed, L1-rich core. Hi-C analysis of senescent cells demonstrates large (~10 Mb) G-bands remodel as a contiguous unit, gaining distal intrachromosomal interactions as syntenic G-bands coalesce into SAHFs. Striking peaks of Alu within R-bands strongly resist condensation. Thus, large-scale segmental genome architectur relates to dark versus light cytogenetic bands and Alu-peaks, implicating both in chromatin regulation.