A. Cano et al., INHIBITION OF ETIOLATED LUPIN HYPOCOTYL GROWTH AND ROOTING BY PEROXIDES, ASCORBATE AND GLUTATHIONE, Journal of plant physiology, 147(6), 1996, pp. 721-728
The influence of two oxidants (H2O2 and m-chloroperoxibenzoic acid (mC
PBA)) and two reductants (ascorbate (ASC) and glutathione (GSH)) on gr
owth and rooting of the etiolated Lupinus albus L. hypocotyls has been
studied. Lupin seedlings were derooted and the hypocotyls treated for
24 h with aqueous solutions containing different concentrations (from
10 mu M to 50 mM) of the above compounds. The hypocotyl length and th
e number and length of the adventitious roots were determined periodic
ally. All the assayed compounds showed a capacity to inhibit growth an
d rooting of the hypocotyls, the effect being dependent on the compoun
d and its concentration. As a rule, the greater the concentration, the
higher the inhibition. The compounds can be classified from higher to
lower efficiency as inhibitors as follows: mCPBA, GSH, ASC and H2O2;
therefore, inhibitory efficiency is seemingly dependent on the compoun
d per se rather than on its redox nature. The higher effectiveness as
inhibitor of mCPBA and GSH is discussed in light of their capacity to
inactivate enzymes such as peroxidases, which are involved in plant de
velopment and in the protective mechanism against oxidative stress. Th
e fact that younger, actively growing tissues were less sensitive than
older hypocotyl tissues to the toxicity of mCPBA and GSH supports the
view of a changing endogenous redox state during growth. Data present
ed here suggest that regulation of the redox balance is decisive in re
gulating plant morphogenesis.