A. Skribanek et B. Boddi, Light- and cold-stress effects on the greening process in epicotyls and young stems of red oak (Quercus rubra) seedlings, TREE PHYSL, 21(8), 2001, pp. 549-554
Protochlorophyllide (Pchlide) and protochlorophyll (Pchl) were found in epi
cotyls of Irt-day-old dark-germinated seedlings and in 100-day-old dark-gro
wn stems of red oak (Quercus rubra L.). Fluorescence spectroscopy measureme
nts of epicotyls at 77 K showed that the majority of Pchlide and Pchl is pr
esent as a shorter wavelength-emitting monomer with a fluorescence emission
maximum at 629-631 nm. A small amount of a monomeric form emitting at 635-
636 nm was also present. Minor amounts of Pchlide were aggregated into larg
er complexes with fluorescence emission maxima at 640, 644-646 and 652-654
nm, as seen in etiolated leaves. Flash illumination transformed the 652-654
-nm-emitting form to chlorophyllide, but not those forms with emission maxi
ma at 629-631, 635-636 and 644-646 nm. These shorter wavelength-emitting fo
rms were transformed to chlorophyllide by continuous illumination, but the
process took several hours. Epicotyls and young stems were light sensitive,
with exposure to full daylight causing strong pigment bleaching and tissue
destruction. Complete greening took place only at low irradiances. Light s
ensitivity was greater at 4 degreesC than at room temperature. We conclude
that the monomeric arrangement of the pigments accounted for the light and
temperature sensitivity of the greening process in epicotyls and stems.