The conservative assembly of nucleosome histone octamer cores has been confirmed by electrophoretic analysis of density labeled histones following equilibrium buoyant density centrifugation. After normal replication, crosslinked octamers are shown not to contain a mixture of new and old core histones. Moreover, when DNA synthesis is inhibited by ara-C nucleosome cores are still assembled exclusively from nascent histone. Similarly, after release from cycloheximide inhibition newly synthesized core histone is conservatively deposited. Thus, a conservative mechanism of histone octamer assembly occurs when nascent histone is present in the normal stoichiometry to nascent DNA and when chromatin is assembled in nascent histone or nascent DNA excess.
Histone V (2fc) from chick erythroctes was used in the study of its interaction with DNA from various sources. Complexes between this histone and DNA were formed using the procedure of continuous NaCl gradient dialysis in urea. Two physical methods, namely thermal denaturation and circular dichroism (CD), were used as analytical tools. Thermal denaturation of nucleohistone V with chick or calf thymus DNA shows three melting bands: band I at 45-50 degrees corresponds to free base pairs; band II at 75-79 degrees, and band III at 90-93 degrees correspond to histone-bound base pairs. In histone-bound regions, there are 1.5 amino acid residues/nucleotide in nucleohistone V. In contrast, a value between 2.9 and 3.3 was determined for nucleohistone I (fl) (H. J. Li (1973), Biopolymers 12, 287). Similar melting properties have been observed for histone V complexed with bacterial DNA from Micrococcus luteus. Histone V binding to DNA induces a slight transition from a B-type CD spectrum to a C-type spectrum. Trypsin treatment of nucleohistone V reduces melting band III much more effectively than band II. Such a treatment also restores DNA to B conformation in the free state. Reduction of the melting bands of nucleohistone V by polylysine binding follows the order of I greater than II greater than III, accompanied by the increase of a new band at 100 degrees. When two bacterial DNAs of varied A + T (adenine + thymine) content simultaneously compete for the binding of histone V, the more (A " T)-rich DNA is selectively favored. Under experimental conditions described here, Clostridium perfringens DNA with 69% A + T is bound by histone V in preference to chicken DNA with 56% A + T although the latter has natural sequences for histone V binding.
Incubation of MSB cells with cytosine arabinoside (1-beta-D-arabinofuranosylcytosine, ara-C) inhibits 3H-thymidine incorporation into nascent DNA while nucleosome core histone synthesis proceeds in molar stoichiometry at about 20% of control rates. The excess nascent histone is incorporated into chromatin and nucleosome cores are assembled normally on the small amount of DNA which is synthesized at submaximal levels of ara-C. This DNA becomes packaged into a shortened nucleosome repeat, however. These results indicate that the nucleosome core is a strongly conserved unit of chromatin replication and suggest that the stoichiometry of nascent histone to DNA may be one factor influencing the establishment of the nucleosome repeat length. It cannot be the only factor, however, since the closely packed nucleosomes made in the presence of ara-C begin to return to their normal spacing within six hours after reversal.
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