The chromosomes and DNA of Allium cepa

Abstract

Giemsa C-banded idiograms that allow the identification of all chromosomes have been prepared for Allium cepa, Ornithogalum virens, and Secale cereale. An analysis of A. cepa DNA has determined that: (1) It has the lowest GC content so far reported for an angiosperm (∼32%). (2) It appears to have no satellite DNA detectable by CsCl or Cs2SO4-Ag+ density gradient centrifugation. (3) Aside from fold back DNA and unreactable fragments, a C0t curve indicates that most of the DNA can be adequately described as two major middle repetitive components (Fractions I and II) and a single copy component (Fraction III). And (4) most of the repeated DNA sequences are involved in a “short period” interspersion pattern with single copy and other repetitive sequences. In situ hybridization of tritiated cRNAs to fold back, long repeated, and Fraction I DNA from A. cepa to squash preparations of chromosomes and nuclei from A. cepa, O. virens, and S. cereale root tips indicates: (1) Sequences complementary to fold back DNA are scattered throughout the genome of A. cepa except for telomeric heterochromatin and nucleolus organizers while they are not detectable in the genomes of O. virens or S. cereale. (2) Although long repeated sequences are scattered throughout the genome of A. cepa, they are concentrated to some extent in telomeric heterochromatin and nucleolus organizers (NOs). Sequences complementary to long repeats of A. cepa occur primarily in chromosome three of O. virens while these sequences are more common in the genome of more distantly related S. cereale. (3) Fraction I DNA is scattered throughout the genome of A. cepa while it is hardly detectable in the genomes of O. virens and S. cereale. These results are discussed in regard to the evolutionary conservation and function of repeated DNA sequences.