Identification of a telomere-binding activity from yeast.

In yeast, the ends of the chromosomes (telomeres) terminate in repeated poly(C1-3A) sequences. We have identified a yeast activity that binds specifically to these poly(C1-3A) repeats. An agarose gel binding assay was used to detect and characterize this activity in cell extracts using both cloned telomere DNA and yeast genomic DNA as substrates. The activity appears to bind specifically to poly(C1-3A) sequences, despite their different primary sequences, yet does not bind specifically to telomeric repeats, such as poly(C4A2), poly(C4A4), and poly (C1-8T) from other lower eukaryotes.

V-myc- and c-myc-encoded proteins are associated with the nuclear matrix.

A series of extraction procedures were applied to avian nuclei which allowed us to define three types of association of v-myc- and c-myc-encoded proteins with nuclei: (i) a major fraction (60 to 90%) which is retained in DNA- and RNA-depleted nuclei after low- and high-salt extraction, (ii) a small fraction (1%) released during nuclease digestion of DNA in intact nuclei in the presence of low-salt buffer, and (iii) a fraction of myc protein (less than 10%) extractable with salt or detergents and found to have affinity for both single- and double-stranded DNA. Immunofluorescence analysis with anti-myc peptide sera on cells extracted sequentially with nucleases and salts confirmed the idea that myc proteins were associated with a complex residual nuclear structure (matrix-lamin fraction) which also contained avian nuclear lamin protein. Dispersal of myc proteins into the cytoplasm was found to occur during mitosis. Both c-myc and v-myc proteins were associated with the matrix-lamin, suggesting that the function of myc may relate to nuclear structural organization.