C-BAND HETEROCHROMATIN AND DNA CONTENT IN ZEA MAYS

The number of mitotic chromosomal C-bands, the percent of the genome comprised of C-band heterochromatin, and genome size (4C DNA content) were determined for 22 North American inbred and open-pollinated lines of Zea mays. The number of C-bands ranged from 0 in Tama Knobless Flint to 18 in Zapolate Grande. The percent C-band heterochromatin ranged from 0% in Tama Knobless Flint to 16.9% in Tx601. Genome size varied over 23%: Gaspe Flint had the lowest DNA content (9.82 pg), and Zapolate Grande had the highest (12.12 pg). Genome size and the amount of heterochromatin were significantly correlated. The corn lines were assigned to five maturity zones encompassing a south-to-north range from Mexico to Canada. Significant negative correlations were detected between the amount of C-band heterochromatin and maturity zones, and between DNA content and maturity zones among the lines. It is speculated that the simultaneous selection by man for earlier maturation and plant size may be related to the lower DNA content of corn varieties adapted to higher latitudes. Such selection for larger plants may have been achieved through selection for more cells, which could result from the shorter mitotic cycle time that correlates with reduced DNA amount.