Immunohistochemical study of DNA methylation dynamics during plant development

doi:10.1093/jexbot/52.365.2265

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Journal of Experimental Botany, Vol. 52, No. 365, pp. 2265-2273, December 1, 2001
© 2001 Oxford University Press

Original Papers

Immunohistochemical study of DNA methylation dynamics during plant development

Jitka Zluvova, Bohuslav Janousek and Boris Vyskot¹

Institute of Biophysics, Academy of Sciences of the Czech Republic, Kralovopolska str. 135, CZ-612 65 Brno, Czech Republic

DNA methylation represents one of the key processes that playan important role in the transcriptional control of gene expression.The role of cytosine methylation in plant development has beendemonstrated by at least three different kinds of evidence:parent-specific expression of some genes in developing seeds,control of flowering time and floral morphogenesis, and correlationwith silencing of intrusive DNA sequences (mobile genetic elementsand transgenes). In this work global changes in DNA methylationduring seed germination and shoot apical meristem developmentin Silene latifolia have been studied using an indirect immunohistochemicalapproach. The data presented show that a rapid decrease in globalDNA methylation during seed germination occurs first in endospermtissue and subsequently in the hypocotyl. Using 5-bromo-2'-deoxyuridinepulses, it has been demonstrated that these demethylation eventsoccurred before cell division had begun. In the early post-germinationperiod, a decrease in DNA methylation was detected in cotyledons,also before cell division was observed. Taken together, theseresults indicate that DNA demethylation takes place in a non-replicativeway, probably by an active mechanism. The central zone of theshoot apical meristem remains highly methylated during the wholeperiod of vegetative growth and in this region, only a low celldivision activity was found. However, upon the transition ofthe shoot apical meristem to the floral bud, the meristem bothdecreased its high methylation status and its cells startedto divide. These data indicate that the central zone of theshoot apical meristem can represent a relatively quiescent ‘germ-line’which is activated upon flowering to form spores and gametes.

Key words: DNA methylation, DNA replication, immunohistochemistry, seed germination, shoot apical meristem, Silene latifolia.

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