| Abstract: | One major very highly repeated (VHR) DNA (approximately 7 X 10(6) copies/genome; repeat unit = 156 base pairs (bp)), a family of three minor VHR DNAs (approximately 2.8 X 10(6) copies/genome; repeat units = 71-74 bp), and a number of trace components account for almost 30% of the genome of a hermit crab. The repeat units of the three minor variants are defined by identical 14-bp G + C-rich inverted repeats that might form cruciforms. Two copies of the repeat unit (CCTA) of one of two patent satellites of this crab (Skinner, D. M., and Beattie, W. G. (1974) Biochemistry 13, 3922-3929; Skinner, D. M., Beattie, W. G., Blattner, F. R., Stark, B. P., and Dahlberg, J. E. (1974) Biochemistry 13, 3930-3937) occur at the center of one in seven of the G + C-rich inverted repeats; copies of the other patent satellite (Chambers, C. A., Schell, M. P., and Skinner, D. M. (1978) Cell 13, 97-110) are found in main component DNA. The sequences of both the major and minor VHR DNAs are characterized by short tracts of An and/or Tn (n = 4-7) residues whose presence would permit the formation of perfectly matched stems separated by loops of 8-16 bp. The An and/or Tn tracts are interspersed with segments of G + C-rich DNA and are arranged differently in the major and minor VHR DNAs. Although the repeat units of the major and the three minor VHR DNAs are arranged in tandem, the composition and sequence of their bases are such that they do not form distinct bands in CsCl gradients; they are cryptic satellites. |
