Inheritance of nuclear DNA content in leaf epidermal cells of Zea mays L.

 The nuclear DNA content (ploidy level) of maize leaf-epidermal cells was investigated by Feulgen cytophotometry in two lines, Illinois High Protein (IHP) and Illinois Low Protein (ILP), their reciprocal hybrids, and their F₂s. Epidermal cells have a 2C, 4C or 8C nuclear DNA content. The mean DNA content per nucleus in IHP was significantly higher than in ILP; the mean DNA content per nucleus in hybrids was intermediate between the parental lines, and the same DNA content was measured in reciprocal crosses. In F₂s the same mean DNA content as in F₁s was observed but with larger variability than in the F₁, possibly indicating genetic segregation. It is inferred that the ploidy level in the leaf epidermis is inherited, and incomplete dominance occurs in hybrids. The same behaviour in the different genotypes was observed for epidermal cell-surface area, except that an increase of mean surface area occurred in the F₁, probably due to heterotic effects. The difference in the accumulation of 4C and 8C nuclei in leaf epidermis parallels that reported between two genotypes for the endosperm tissue: to the greater chromosome endoreduplication found in the endosperm there were correspondingly higher frequencies of 4C and 8C nuclei in the leaf epidermis, indicating a higher general tendency to chromosome endoreduplication in IHP than in ILP. It is suggested that the accumulation of 4C nuclei (G₂-block) in the leaf epidermis may be regarded as the initial step of chromosome endoreduplication, the two phenomena being related to the control of the sequence DNA synthesis-mitosis, possibly involving the same genes in both endosperm and leaf. However, the inheritance of DNA content per nucleus in epidermal tissue seems to be different from that observed in endosperm tissue of the same genotypes, suggesting that differences may occur in the regulation of the activity of these genes. Received: 19 November 1996 / Accepted: 29 November 1996