Abstract
Chromatin architecture involves the patterns of chromatin coiling and packing as well as the mutual relative allocations of different chromatins. Besides the canonical microscopic observations, the chromatin architectural capture techniques, including the Hi-C and ChIA-PET, have been widely applied in characterization of chromatin architecture in various plant and animal model species, in which chromatin architectural features, such as the chromosome territory, compartment A/B, topological associated domains (TADs) and chromatin loops, were defined. As for the studies in plant species, replying on the two techniques above (with differences in experimental techniques and data structures), scientists have compared the variation of specific chromatin architecture features across species and/or in different cell types of the same plant species, besides detailed analyses in each individual model. Here, we mainly review the recent progresses in studies of plant chromatin architectures, in which their composition, establishing mechanism and effective factors were described and discussed. We also propose the main technical bottlenecks, describe the breaking-through progresses, and anticipate future research directions, which may offer more theoretical references for related researches in the field.
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