Nonrandom distribution of chromosomal proteins during replication

Abstract

The distribution of chromatin-associated proteins in replicating Chinese hamster ovary cells was examined. Cells are grown for several generations in [14C]lysine and thymidine, and then for 1 generation in the presence of [3H]lysine and 5-bromodeoxyuridine (BrUdRib) and a further generation in cold amino acid and BrUdRib. This protocol produces equal amounts of unifilarly (heavy-light) and bifilarly (heavy-heavy) substituted DNA. Chromatin containing the 2 types of DNA are separated by sucrose-gradient centrifugation after UV irradiation. Some of the chromatin proteins can segregate with the DNA strand synthesized in the same generation when the cells subsequently replicate. Using chromatin with a protein to DNA ratio of 2.6, in different experiments, 5-22% of the chromatin proteins were estimated to segregate with the appropriate DNA strand, while the remaining proteins were randomly distributed to daughter chromatin. The segregating proteins have not been specifically identified but they migrate in sodium dodecyl sulfate gel electrophoresis in the region where the 4 smaller histones migrate.