Effects of Ca2+/Mg2+ chelators, SKF 525-A and rotenone on phytochrome-mediated betacyanin formation in Amaranthus seedlings

The effects of EDTA, EGTA, SKF 525-A (a selective inhibitor of cytochrome P-450) and rotenone were studied in betacyanin induction by 6 h red and 5 min far-red light, using etiolated, three-day-old Amaranthus caudatus L. half-seedlings. With 0.1 m M EDTA, EGTA and rotenone, and with 10 μ M SKF 525-A, mainly the far-red reversible betacyanin induction by red light was suppressed. Only in 0.1 m M rotenone was about 50% of that effect compensated by an increased far-red irreversible betacyanin induction. An unspecific inhibition was obtained with 0.1 m M SKF 525-A in both control and illuminated plants.
These results are consistent with the view that red light, but not far-red, causes Ca²⁺ efflux from both mitochondria and cytoplasm, whereas Ca²⁺ uptake is indicated mainly after illumination. The resulting switch in the coupling of the mitochondrial electron transport to a Ca²⁺ dependent one in cytochrome P-450 system via respiratory complex 1, appears to be responsible for the far-red reversibility. However, the bulk of the high irradiance reaction seems to be related to another secondary messenger, alternative to Ca²⁺.