RESUMO
Phytochrome (P) was characterized in etiolated seedlings of wild-type, mutant and transgenic strains of Arabidopsis with the use of low-temperature (85 K) fluorescence spectroscopy and photochemistry. The position (lambda max) of the Pr emission spectrum, its intensity (F0) proportional to [P tot] and the extent of the Pr-->lumi-R phototransformation at 85 K (gamma 1) were shown to vary depending on the plant strains and tissues used, while the extent of the Pr-->Pfr transformation at 273 K (gamma 2) remained relatively constant. Depletion of phyA (fre1-1 in Nagatani et al., Plant Physiol. 102 (1993) 269-277, and fhy2-2 in Whitelam et al., Plant Cell 5 (1993) 757-768) resulted in a steep decrease of F0 to approximately equal to 10%. The phyB mutant (hy3-B064 in Reed et al., Plant Cell 5 (1993) 147-157) revealed a slight reduction (by approximately equal to 20%) of F0 while lambda max and gamma 1 remained practically unaffected. In phyAphyB mutuant no P emmission was observed. Overexpression of oat phyA (13k7 and 21k15 in Boylan and Quail, Proc. Natl. Acad. Sci. USA 88 (1991) 10806-10810) brought about an increase of F0 by two or three times, a shift of lambda max to 685 nm and an increase of gamma 1 to 0.3-0.4. On the contrary, an increase of F0 (up to 40%) in Arabidopsis and rice phyB overexpressors (ABO and RBO in Wagner et al., Plant Cell 3 (1991) 1275-1288) was followed by a decrease of gamma 1 values to 0.13-0.14. These data together with the results on phyB (lh) mutant of cucumber prove the existence of the two phyA populations with high (phyA') and low (phyA") photochemical activity at low temperatures. PhyB emits maximally in the same region as phyA in Arabidopsis (approximately equal to 683 nm) and at shorter wavelength (< 680 nm) in rice. It is characterized by low photochemical activity at 85 K (gamma 1 < or = 0.05) and can be attributed in this respect to the same pigment type as phyA".
