30 / 2026-03-17 13:32:43

Noncanonical loops regulated by EMF1 and cohesin-associated factors shape the distinct 3D genome architecture in plants

cohesin,noncanonical loop,plant

Background: In mammals, cohesin-mediated chromatin loop extrusion is blocked at boundaries, where CTCF, WAPL, and PDS5s co-bind and regulate cohesin, establishing an 

impermeable barrier with no exceptions. 

Results: Our study revealed that in Arabidopsis, some noncanonical contacts have emerged between the boundary flanking regions, which suggest that cohesin is not absolutely 

blocked but enables sliding beyond boundaries. We identified these interactions as noncanonical loops and clarified their regulatory proteins. Firstly, the plant-specific boundary binding protein EMF1 is essential for noncanonical loops formation. 

Surprisingly, although both Arabidopsis WAPLs and PDS5s inhibit loop extension as mammals, PDS5s do not co-bind and cooperate with WAPLs at boundaries. Instead, PDS5s bind to 

boundary-flanking regions enriched with H3K4me1 through their Tudor domains, restricting further extension of noncanonical loops. Consequently, pds5a/b/c mutants lose noncanonical loops, resulting in emergence of larger canonical loops but anchored on boundaries and co-upregulation of anchored gene pairs. 

Conclusion: Collectively, our findings reveal that the plant-specific noncanonical loop, regulated by plant-specific EMF1 and PDS5 proteins, is the fundamental structure of the 

distinctive chromatin organization of plants, which provides novel mechanistic insights into eukaryotic chromatin architecture regulation.