Condensation of rat telomere-specific nucleosomal arrays containing unusually short DNA repeats and histone H1.

Vertebrate telomeres contain arrays of nucleosomes with unusually short and regular repeat lengths (Makarov, V. L., Lejnine, S., Bedoyan, J., and Langmore, J. P.(1993) Cell 73, 775-787; Lejnine, S., Makarov, V., and Langmore, J. P. (1995) Proc. Natl. Acad. Sci. U. S. A. 92, 2393-2397). In order to better define the specific structural features of telomere chromatin, we examined the condensation and H1 content of telomere nucleoproteins from rat liver. Velocity sedimentation analysis shows that telomeric nucleosome arrays condense with increasing ionic strength and molecular weight in a manner comparable with that of bulk chromatin despite the very short repeat length. However, these condensed structures do not exhibit the approximately 100-base pair deoxyribonuclease II repeat characteristic of condensed bulk chromatin. Frictional coefficient calculations suggest that telomere-specific higher order structure is more compact than bulk chromatin. Nucleoprotein gel electrophoresis shows that telomeric dinucleosomes from soluble chromatin contain H1. Finally, direct isolation and analysis of telomere nucleoproteins from formaldehyde-cross-linked nuclei indicate the presence of core histone proteins and H1. These results are consistent with the view that a major fraction of the long telomeres of rat are organized as specialized nucleosome arrays with features similar but not identical to those of bulk chromatin.

In vivo distribution of immune protein scolexin in bacteria-injected Manduca sexta larvae.

The Manduca sexta larva-specific immune protein, scolexin, was isolated and (14)CH(3)-labelled by reductive alkylation. The influence of the bacterium Streptococcus faecalis on the hemocoelic distribution of the labelled scolexin was then analyzed. During bacterial challenge, most of the scolexin signal was detected in association with the hemocyte aggregations and nodules which formed; in this respect the protein sometimes appeared to be associated with hemocytes which had phagocytized bacteria, while at other times it was most concentrated in the nodule-associated, and free, coagulum. Areas of high scolexin activity were sometimes detected at various sites on the surface of the fat body. The scolexin did not appear to bind directly to bacterial cells. Up to 24 hr following the injection of S. faecalis, the larvae were still carrying out the formation of nodules; unlike the nodules of the 3 and 6 hr intervals, the nodules observed at 21-24 hr were covered with an apparently humorally derived, coagular capsule.