Abstract
Recent progresses in the study of histone modifications in gene networks and signaling revived the importance of chromatin for controlling gene functions. However, the difficulty of chromatin study lies first in the number of necleosomes in a cell: roughly 107 nucleosomes, each containing a different DNA sequence, are continuously tied as ”beads and strings”, interacting each other, between the neighboring ones as well as the distant ones. Chromatin organization and nucleosome stability is crucial in massive changes of chromatin enviroment such as in DNA replication and formation of chromosomes at cell division as well as in the local changes as observed in transcription of genes, changes of active/inactive chromatin regions and their boundary formation. One of the best ways to study this complex state is first to classify these nucleosomes based on some definitive criteria. Realization that all nucleosomes are not behaving identically is not new. However, explanation at the molecular level of such differences needs a comprehensive analysis of the genome structure by molecular biological experiments and by computational extractions which became available only in recent years. We provide here evidence for a conserved regulatory element for transcription of the β-like globin gene as a summary of our recent studies of a total of over 30 genes using experimental and/or computational approaches (
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