Abstract
Abstract Although a majority of the key works on chromatin structure and function have been carried out using animal tissues, studies of plant chromatin and the characterization of the histones and nonhistone chromosomal proteins are now developing well. There are clear functional differences between plant and animal genomes, including the percentage of total DNA transcribed, levels of ploidy, and the pathways of morphogenesis and cell differentiation. It is therefore not surprising that differences are appearing between animal and plant chromatin, for example, the consensus amino acid sequence for the plant H3 globular domain; the extensions to the basic domain regions of some plant histones such as H2A, which have specific interactions with linker DNA; the larger molecular weight of the plant H1 molecule with its extended basic domains correlated with short lengths of linker DNA, and the absence of the five residue binding segment in the globular part of plant H1, which suggests differences in the organ...
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