Effects of Controlled Deterioration and Osmoconditioning on Germination and Nuclear Replication in Seeds of Pepper (Capsicum annuum L.)

doi:10.1093/aob/77.6.591

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Annals of Botany 77: 591-597, 1996
© 1996 Annals of Botany Company

Effects of Controlled Deterioration and Osmoconditioning on Germination and Nuclear Replication in Seeds of Pepper (Capsicum annuum L.)

S. Lanteri^,*, E. Nada^*, P. Belletti^*, L. Quagliotti^* and R. J. Bino

^* DLVA.P.R.A., Plant Breeding and Seed Production, University of Turin via P. Giuria 15, 10126 Turin, Italy
CPRO-DLO, Centre for Plant Breeding and Reproduction Research PO Box 16, 6700 A A Wageningen, Netherlands

For correspondence

Received: 3 October 1995 Accepted: 24 November 1995

Unaged and controlled deteriorated (45 °C for 4, 6 or 10d) samples of a pepper seed lot were subjected to osmoconditioningin PEG at osmotic potentials of –11 and –1·5MPa for 6, 10 or 14 d. The effect of osmoconditioning on nuclearreplication activity was examined using flow cytometry.

Priming of unaged seeds always induced nuclei of embryo roottips to enter the synthetic phase. In accordance with our previousfindings the amount of induced nuclear replication activitywas higher after priming at the lowest osmotic potential. Underthe same osmotic potential the amount of priming-induced replicationwas correlated with the length of priming treatment and itsefficiency in improving seed performance. However, the 14 dtreatment at –1·5 MPa was as effective on seedperformance as the 6 d treatment at –1·1 MPa, whichinduced higher numbers of nuclei to enter the synthetic phase.

Osmoconditioning on controlled deteriorated seeds had differenteffects on seed germination depending on the degree of seeddeterioration. Under the same osmotic treatment, the amountof priming-induced DNA synthesis was lower than in unaged seedsor was not induced at all. The activation of nuclear replicationby osmoconditioning, therefore, appears influenced by the levelof seed deterioration. In less deteriorated seeds (45 °Cfor 4 d), 14 d priming at –1·1 MPa caused shorteningof mean germination time compared with unaged seeds, but wasless effective in inducing nuclear replication.

The effect of the length and osmotic potential of priming onnuclear replication and the role of molecular processes, otherthan DNA synthesis, in improving seed performance are discussed.

Controlled deterioration, Capsicum annuum, DNA replication, flow cytometry, priming

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