Journal of Experimental Botany

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© 1995 Oxford University Press

RESEARCH-ARTICLE

Lithium-sensitive calcium activity in the germination of apple (Malus × domestica Borkh.), tobacco (Nicotiana tabacum L.), and potato (Solanum tuberosum L.) pollen

L. Zonia ¹ and J. Tupy²

Institute of Experimental Botany, Academy of Sciences of the Czech Republic Na Pernikáce 15, CZ-160 00 Prague 6, Czech Republic

²To whom correspondence should be addressed. Fax: +42 2 3119412

We have investigated Ca²⁺ activity during pollen germination and the possibility that it may be responding to a phosphoinositide signal transduction pathway, by employing inhibitors of Ca²⁺ channels (verapamil and TMB-8), EGTA as a Ca²⁺ scavenger and the inositol 1-phosphatase inhibitor lithium chloride. We have found that at least two Ca²⁺ pools are utilized during pollen germination. Influx of extracellular Ca²⁺ appears to be necessary for the germination of apple and tobacco pollen, but it does not appear to be required for the germination of potato pollen. Conversely, activation of intracellularly stored Ca²⁺ was necessary for optimal germination of all three pollen species. LiCI had strong effects on pollen germination. At 5 mM LiCI, pollen germination was inhibited by 78% for apple, 84% for tobacco, and 74% for potato. Li⁺ inhibition was overcome by the addition of Ca²⁺, which restores germination of all three species to 85–100% of that observed in controls, myo-lnositol also partially overcomes Li⁺ inhibition of pollen germination, thus providing some evidence for a link between Li⁺ inhibition and Ca²⁺ rescue, myo-lnositol rescue of Li⁺ inhibition was most effective for potato pollen. Chlorotetracycline (CTC) spectroscopy revealed a higher level of membrane-Ca²⁺ in Li ⁺ -treated pollen grains than in controls, and the short pollen tubes which did emerge did not accumulate membrane-associated Ca²⁺. The results suggest that Li⁺ inhibition may interfere with the release (activation) or partitioning of membrane-Ca²⁺ during pollen germination and that this Ca²⁺ activity may be responding, at least in part, with a phosphoinositide signal transduction pathway.

Key words: Pollen germination, lithium inhibition, calcium, inositol, calcium inhibitors

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