INTERACTION OF GIBBERELLINS AND PHYTOCHROME IN THE CONTROL OF COWPEA EPICOTYL ELONGATION

The physiological response of cowpea (Vigna sinensis L.) epicotyl explants to far-red light (FR) and its interaction with gibberellins (GAs) have been investigated. The effect of FR and GA1 varied with the age of the seedlings from which the explants were made: for FR, it decreased progressively with age (though the sensitivity of the epicotyls to FR did not change significantly until at least day 11), whereas it remained essentially constant for applied GA1 between days 5 and 9 after sowing. This indicates that the loss of response to FR may be due to a decrease in endogenous GA levels in the epicotyl. For a range of GA1 and GA20 (0.01-1 mug explant-1), both hormones were more active in FR than in R irradiated epicotyls, suggesting that phytochrome may affect GA sensitivity besides GA metabolism. The location of the epicotyl region most sensitive to FR (between 5 and 20 mm below the apex) was different from that to GAs (the upper 10 mm). Nevertheless, FR extended the region responsive to applied GAs, even in paclobutrazol-treated epicotyls where elongation was due entirely to exogenous GAs. This means that modulation of epicotyl elongation by phytochrome, that occurs in a zone different from though overlapping with the GA-sensitive subapical zone, is also mediated by GAs. Growth in the most FR-sensitive region of the epicotyl stimulated by FR or GA1 was due to cell elongation, and in the most GA-sensitive region to both cell division and elongation. The effect of FR and GA1 was negated by colchicine, indicating that microtubules may be involved in the response to both factors.