Ea. Moscone et al., FLUORESCENT CHROMOSOME-BANDING IN THE CULTIVATED SPECIES OF CAPSICUM (SOLANACEAE), Plant systematics and evolution, 202(1-2), 1996, pp. 37-63
Fluorochrome chromosome banding is applied for the first time to 15 sa
mples of five cultivated Capsicum species, all with 2n = 24, and allow
s a detailed analysis of the karyotypes (Tables 2-3, Fig. 8). Banding
patterns differ between cytotypes, species and groups, reflecting the
dynamics of chromosomal differentiation and evolutionary divergence. T
axa have from 1 to 4 NOR-bearing satellited chromosome pairs and exhib
it increasing numbers of terminal (rarely intercalary and indistinct c
entromeric) heterochromatic fluorescent bands. Amounts of heterochroma
tin (expressed in % of karyotype length) increase from the group with
C. annuum (1.80-2.88), C. chinense (3.91-5.52), and C. frutescens (5.5
5) to C. baccatum (7.30-7.56), and finally to C. pubescens (18.95). In
all taxa CMA+ DAPI- (GC-rich) constitutive heterochromatin dominates,
only C. pubescens has an additional CMAo DAPI+ (AT-rich) band. The fl
uorochrome bands generally (but not completely) correspond to the Giem
sa C-bands. Structural heterozygosity can be demonstrated but is not p
rominent. The independent origin of at least three evolutionary lines
leading to the cultivated taxa of Capsicum is supported.