Abstract
The average 2C DNA amount for the peanut (Arachis hypogaea L.) genome is 4.21 pg, and 73% of the dormant peanut cotyledon nuclei displayed 8C DNA amounts or higher, as compared to 0 to 4% in root‐shoot apices and leaf tissue. Thermal melt profiles and heterochromatin values indicated replication of the whole genome. Cotyledon nuclear DNA declined in the percent of polyploid nuclei as well as DNA amounts within ploidy classes during germination. The presence of high DNA C levels in cotyledons generated during embryogeny is interpreted to increase the protein‐synthesizing capacity and subsequently supplies a ready source of nucleosides and phosphates during early embryo growth as a result of DNA degradation. However, the later DNA decline at the onset of cotyledon senescence was age related similarly to leaf senescence. The change in proportion of heterochromatin was related to the metabolic state of the tissue and not to the DNA content, as dormant and senescing nuclei contained a higher proportion of heterochromatin as compared to nuclei from metabolically active tissue such as germinating roots. The shift in heterochromatin is interpreted to be involved in gene expression.
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