PHYTOCHROME INTERMEDIATES IN VIVO– III KINETIC ANALYSIS OF INTERMEDIATE REACTIONS AT LOW TEMPERATURE

Abstract— Kinetic experiments have provided evidence for a series of light and dark reactions of phytochrome intermediates at low temperature in Pisum epicotyl tissue. A photoequilibrium exists between P_r and P₆₉₈, and between P_fr and P₆₅₀. A dark reversion of P₆₉₈P_r and P₆₅₀p_fr at –70°C has been demonstrated. When cooled to 70°C under incandescent light, most of the phytochrome in the tissue is driven into photochemically unreactive intermediates. About 2% of the phytochrome remains as weakly absorbing intermediates that form P_r and P_fr in darkness. A scheme is presented for phytochrome phototransformation in vivo.     

PHYTOCHROME INTERMEDIATES IN VIVO-I. EFFECTS OF TEMPERATURE, LIGHT INTENSITY, WAVELENGTH AND OXYGEN ON INTERMEDIATE ACCUMULATION

Abstract— Accumulation of weakly absorbing phytochrome intermediates has been demonstrated in Pisum epicotyl tissue under conditions of pigment cycling using a quasi-continuous measuring spectrophotometer. An action spectrum shows 690–700 nm to be the most efficient wavelength range in this process. Difference spectra for the decay of intermediates maintained by 690 nm light show that, if the experiment is done at 0°C, only P_fr is formed. At – 11°C, intermediates decaying to P_r can also be observed. At – 20°C, P_r is produced as well as a pigment with peak absorption at 710nm. Kinetic analysis of intermediate decay at – 11°C reveals that at least two intermediates are maintained by 690 nm light. The level of intermediate maintained by incandescent light at 0°C was 25% higher in air than in nitrogen.     

A PHYTOCHROME STUDY USING TWO-LASER/TWO-COLOR FLASH PHOTOLYSIS: I700 IS A MANDATORY INTERMEDIATE IN THE PrPfr PHOTOTRANSFORMATION

Abstract— The phototransformation of native (124 kDa)oat phytochrome, P_r P_fr, Has been studied at 10C by two laser/ two-color flash photolysis. the overall P_rP_fr reaction yield did not vary with temperature within the range4–21C. Foloeing the excitation of P_r with a single 15 ns laser flash at 650nm, the formation of P_fr was quantitavely measured in a time-resolved experiment in the presence of a second 8 ns laser flash at 710 nm delayed from the initial flash. the second laser flash causes at 1.0 s after the initial laser flash a depletion of the uintermediate I₇₀₀ as welll as a reduction of the P_fr absorption at 730 nm. The depletion of I₇₀₀ correlates quantitavely with the reduction of P_fr formation. The absorpton spectra of I₇₀₀ and of the following intermendiate, I_bi, were calculated assuming that the amount of P_r, which is photoconverted by a single laser, equals the amount of P_fr formed.     

PHOTOCONVERSION OF PHYTOCHROME IN VIVO STUDIED BY DOUBLE FLASH IRRADIATION IN Mougeotia AND Avena

Abstract— The kinetics of phytochrome phototransformation from the red-absorbing form (P_r) to the far-red-absorbing form (P_fr) in vivo at 22°C were studied using a double flash apparatus with 1-ms flashes. Photoconversion by simultaneous flashes of red light saturates at a low P_fr level, indicating the possible attainment of a photoequilibrium between the excitation of P_r and the photoreversion of intermediates in the course of the I-ms flashes. At saturation energy, simultaneous flashes resulted in about 50% as much P_fr as was produced by saturating irradiation with 5 s red light. Intermediates of the phototransformation pathway were analysed by separating two red or a red and a far-red flash by variable dark intervals. In both plants phototransformation intermediates with half-lives < 1 ms occur, but they are too short-lived to characterize by our method. The subsequent intermediates have half-lives of about 7 ms and 150 ms in A vena , 2 ms and 10 ms in Mougeotia. The conversion from P_r to P_fr seems to be completed 1 s after the red flash in Avena. In the alga Mougeotia , P_fr formation seems to be finished within only 50 ms after the inducing red flash. The kinetics obtained from physiological and spectrophotometric experiments with Avena mesocotyls are almost identical. These observations indicate that the physiological response corresponds directly to the amount of P_fr produced and not to phototransformation intermediates or "cycling" between P_r and P_fr.     

COMPARATIVE PHOTOCHEMICAL ANALYSIS OF HIGHLY PURIFIED 124 KILODALTON OAT and RYE PHYTOCHROMES in vitro

Abstract A direct comparison of the photochemical interconversions between red (P_r-) and far-red (P_fr-) absorbing forms of highly-purified 124 kDa oat and rye phytochromes under identical experimental conditions was performed. In two different buffer systems at 5°C, the quantum yields for the P_r to P_tr and P_fr to P_r phototransformations under constant red and far-red illumination, φ _r and φ_fr respectively, were determined to be 0.152-0.154 and 0.060-0.065 for oat preparations and 0.172-0.174 and 0.074-0.078 for rye preparations. These values as well as the wavelength dependence of the photoequilibrium produced under continuous illumination throughout the visible and near-ultraviolet spectrum were based on the absorption spectra of the two phytochrome preparations and revised molar absorption coefficients. The molar absorption coefficients were estimated by quantitative amino acid analysis and shown to be identical for the two monocot phytochromes (i.e. 132 mM ⁻¹ cm⁻¹ at the red absorption maximum for the P_r form). Because these measurements were performed under identical experimental conditions, including buffer, temperature, light fluence rate, and instrumentation, the differences observed must reflect structural features inherent to the two different monocotyledonous phytochromes.     

DEPENDENCE OF Pfr/Ptot-RATIOS ON LIGHT QUALITY and LIGHT QUANTITY

Abstract— Not only the spectral distribution of the light source determines the relative proportion of phytochrome in the P_fr(P_r) form, the P_fr/P_tot-ratio also depends strongly on the fluence rate of the irradiation. This dependence has been observed in the cotyledons of etiolated mustard seedlings for blue light of fluence rates below 20 Wm_-2. It has also been observed for white light and seems to be a characteristic of the phytochrome system resulting from the involvement of phytochrome thermal reactions as well as P_r P_fr photoconversions. The fluence rate dependence of P_fr/P_tot-ratios can be used to analyze the characteristic transformations of the phytochrome system. Phototransformations together with a fast thermal transformation (τ_½⋍ 3min) are consistent with the results obtained for blue and white light.     

VARIATION IN THE RATES OF SYNTHESIS AND DEGRADATION OF PHYTOCHROME IN COTYLEDONS OF CUCURBITA PEPO L. DURING SEEDLING DEVELOPMENT

Abstract— The time courses for P_r appearance, P_r disappearance and P_fr destruction have been analysed in cotyledons of Cucurbita pepo L. after different preirradiation programs. In etiolated seedlings the rate of P_r appearance is low in young seedlings reaching a maximum in 3.5–5 day old seedlings then decreasing rapidly with increasing age. The rate of P_fr destruction is very low in young seedlings, increases rapidly up to the 4th day and then remains almost constant. The disappearance of P_r becomes significant for seedlings older than 45 days. These reactions seem not to be influenced by short preirradiations. However, after prolonged preirradiation, a degree of control of P, appearance and/or disappearance by the "internal clock appears to be operative.     

MODELS FOR THE CHROMOPHORE STRUCTURE OF THE PHOTOTRANSFORMATION INTERMEDIATES OF PEA PHYTOCHROME IN VITRO

Abstract— The changes in the chromophore structure of pea phytochrome during phototransformation in vitro from the red-light-absorbing form (P_r) to the far-red-light-absorbing form (P_fr), and from P_fr to P_r, were analysed in terms of wavelength and oscillator strength of absorption, using the zero-differential overlap approximation of the molecular orbital theory for electrons. The effect of a point-charge and a point-dipole on the optical absorption of phytochromobilin intermediates were examined using the stationary perturbation theory for degenerate states. The results indicate that the cis-trans photoisomerization of the pyrrole ring D, if any, occurred within 10 μs after a laser-flash excitation of the phytochrome, and that the conformations of phytochromobilin and the protein moiety of phytochrome were not significantly changed during the period of examination of phototransformation in either direction.     

BLUE LIGHT INDUCED PHOTOTRANSFORMATION OF PHYTOCHROME IN THE PRESENCE OF FLAVIN*

Abstract— Irradiation of the P_r form of phytochrome in the presence of flavin mononucleotide (FMN) which absorbs the actinic blue light yields P_fr at a rate greater than that in the absence of FMN. The actinic blue light absorbed by FMN enhances the phototransformation of P_r via the energy transfer from the former to the latter. On the other hand, the photoreversion of P_fr was inhibited by the presence of FMN when illuminated with blue light. The lack of photo-enhancement of the reversion of P_r, by blue light suggests that the P_fr chromophore (acceptor) transition dipole is virtually perpendicular to the FMN transition dipole, as the result of a chromophore reorientation in the P_r→P_fr phototransformation. The fact that blue light absorbed by flavin preferentially enhances the forward phototransformation of phytochrome while inhibiting the reversion may have an important implication in the high irradiance responses in plants in terms of a preferential accumulation of P_fr by blue light excitation.     

ON THE PHYSIOLOGICAL SIGNIFICANCE OF DARK REVERSION OF PHYTOCHROME IN THE MUSTARD SEEDLING

Abstract —We present physiological evidence using the threshold control of lipoxygenase synthesis† by P_fr in the mustard seedling (LOG response) that there is no dark reversion of phytochrome
which would be relevant for this response. Such Ptr which can be detected with the lipoxygenase response disappears exclusively through degradation with a half-life of 45 min at 25°C. De novo synthesis of P*_r in the hypocotylar hook takes place at a constant rate (zero order rate constant) irrespective of the level of P_r or P*_tot, i.e. there is no detectable feedback control of P_r synthesis during the period of experimentation. The data of the present paper are consistent with a quantitative phytochrome model (Scheme 1) which has been advanced and treated quantitatively in the companion paper (Oelze-Karow and Mohr, 1976).     

Recombinant Phytochrome of the Moss Ceratodon purpureus: Heterologous Expression and Kinetic Analysis of Pr→ Pfr Conversion

Abstract— The phytochrome-encoding gene Cerpu;PHY;2 ( CP2 ) of the moss Ceratodon purpureus was heterologously expressed in Saccharomyces cerevisiae as a polyhistidine-tagged apoprotein and assembled with phytochromobilin (P φ B) and phycocyanobilin (PCB). Nickel-affinity chromatography yielded a protein fraction containing approximately 80% phytochrome. The holoproteins showed photoreversibility with both chromophores. Difference spectra gave maxima at 644/716 nm (red-absorbing phytochrome [P_r]) far-red-absorbing phytochrome [P_fr]) for the PCB adduct, and 659/724 nm for the PφB-adduct, the latter in close agreement with values for phytochrome extracted from Ceratodon itself, implying that PφB is the native chromophore in this moss species. Immunoblots stained with the antiphytochrome antibody APC1 showed that the recombinant phytochrome had the same molecular size as phytochrome from Ceratodon extracts. Further, the mobility of recombinant CP2 holophyto-chrome on native size-exclusion chromatography was similar to that of native oat phytochrome, implying that CP2 forms a dimer. Kinetics of absorbance changes during the P_r→ P_fr photoconversion of the PCB adduct, monitored between 620 and 740 nm in the microsecond range, revealed the rapid formation of a red-shifted intermediate (I₇₀o)> decaying with a time constant of - 110 u.s. This is similar to the behavior of phytochromes from higher plants when assembled with the same chromophore. When following the formation of the P_fr state, two major processes were identified (with time constants of 3 and 18 ms) that are followed by slow reactions in the range of 166 ms and 8 s, respectively, albeit with very small amplitudes.     

PHOTOCHEMISTRY OF RETINOCHROME

Abstract— Retinochrome is a photopigment found in the visual cells of cephalopods. It has been considered to act as a supplier of the 11- cis -retinal required for synthesis of rhodopsin, because its all-trans chromophore is isomerized to 11- cis form in the light. Light and thermal reactions of squid retinochrome were investigated by low-temperature spectrophotometry.
On irradiation with green light at liquid-nitrogen temperature, retinochrome (λ_max 496 nm, – 190°C) is converted mainly to an intermediate lumiretinochrome (λ_max 475 nm, – 190°C), its chromophore being changed to 11- cis -retinal. On irradiation with blue light at - 190°C, retinochrome is changed to a photosteady–state mixture (λ_max 487 nm, – 190°C) composed mainly of retinochrome and lumiretinochrome, since lumiretinochrome is partially regenerated back to retinochrome. Similarly, irradiation of lumiretinochrome with blue light also results in the same photosteady-state mixture, which can be completely reverted to lumiretinochrome on re-irradiation with green light.
Lumiretinochrome is stable at a wide range of temperatures from – 190°C to about – 20°C. Above – 20°C, it is further converted, thermally, into metaretinochrome (λ_max 470 nm), which is the same bleached product as has been observed on irradiation of retinochrome at room temperatures. Thus, the light-bleaching process of retinochrome is rather simple compared with that of rhodopsin.     

CHARACTERIZATION OF A MICROSECOND INTERMEDIATE IN THE LASER FLASH PHOTOLYSIS OF SMALL PHYTOCHROME FROM OAT

Abstract— Irradiation of small phytochrome from oat in its P_r form with 15 ns laser pulses of different wavelengths(605–655 nm) gave rise to a difference absorption with maxima at 400 and 685 nm for the first detectable transient. Bleaching of a 660 nm band was observed, non-recuperable up to 1 ms. The transient absorption has a lifetime of 70±15 μs at 273 K. The transient is tentatively identified as lumi-R and the conformation of its chromophore is postulated to be more extended than that of P_r. A deviation from the exponential decay of the lumi-R absorption at 284 and 300 K and the lack of observable enhancement of the far-red absorption within 1 ms are interpreted in terms of the appearance of still other intermediates on this time scale between lumi-R and P_fr phytochrome.     

CONTROL BY PHYTOCHROME OF EXTENSION GROWTH and POLAROTROPISM IN CHLORONEMATA OF Funaria hygrometrica

Abstract— The photocontrol of extension growth and polarotropism has been investigated in chloronemata of the moss Funaria hygrometrica Hedw. When grown on a 12/12 h light/dark cycle, chloronemata show light-stimulated diurnal variations in elongation rate with no evidence of a circadian rhythm. Regulation of elongation by a low energy, photoreversible phytochrome mechanism was demonstrated by brief red (R) and far red (FR) irradiations given either at the end of the day (EOD) or 6 h later as a night break (NB). Night break irradiation with polarised R caused polarotropic reorientations of chloronemal growth also through a FR-reversible, low energy phytochrome mechanism. Such transformations of P_r to P_fr were accompanied by a 90° shift in the orientation of the phytochrome chromophore. Microbeam irradiation indicated that the phytochrome chromophores involved in both responses were predominantly, if not entirely, located in the tip of the apical chloronemal cell.     

STUDIES ON PLANT BILE PIGMENTS—9. PHOTOOXIDATION OF A-DIHYDROBILINDIONE AS PHYTOCHROME MODEL IN ACID MEDIUM

Abstract— The photooxidation of octaethyl-2, 3-dihydrobilindione ( 2 ) as a model for the P_r-chromophore has been studied in acidic methanol. When 2 is titrated with HCl to the cation and irradiated under N₂ with an excess of I₂, violin and rhodin type pigments are formed bearing methoxy-substituents at either C-4,5 or C-15,16, respectively. The reaction is slowed down as compared to neutral conditions, it is no longer regioselective at the C-5 methine bridge, and the formation of dimers is suppressed. From the data of this and earlier chemical model studies on the photooxidation of 2 , and the known properties of phytochrome, a reaction for the P_r→ P_fr phototransformation is suggested, in which the chromophore is attacked by the protein moiety in a sequence of oxidation and nucleophilic substitution, which may lead to a primary redox signal for the physiological response.     

THE DOSE RESPONSE CURVE IN PHYTOCHROME-MEDIATED ANTHOCYANIN SYNTHESIS IN THE MUSTARD SEEDLING

Abstract —The dose response curve for light (phytochrome)-induced anthocyanin synthesis was determined in the mustard seedling. The curve gives the amount of anthocyanin (A) synthesized within 24 h as a function of the amount of P_fr* produced by a brief light pulse. The [P_fr] response curve is composed of two linear parts with very different slopes ( a _1,2) connected by a relatively narrow transient range (curved segment). The [P_fr] response curve extrapolates precisely through zero [P_fr]. The reciprocity law is valid over the whole range investigated (up to 320 s of irradiation). It is concluded that the initial (or primary) reaction of P_fr (P_fr+ X → P_frX) does not involve any significant cooperativity in the case of phytochrome-mediated anthocyanin synthesis. It is speculated that the linear parts of the [P_fr] response curve truly reflect the mode of phytochrome action ( A = a _1,2 [P_fr]; X does not come into play since it is not rate limiting) whereas the curved segment represents a transition of the reaction matrix of P_fr. The large difference between a₁ and a₂ seems to indicate that the physiological effectiveness of a given amount of P_fr (or P_frX) is determined by [P_fr] through a P_fr-induced change in the reaction matrix.     

LASER PHOTOLYSIS OF THE PURPLE MEMBRANE OF Halobacterium halobium IN THE PHOTOSTATIONARY STATE: THE PHOTOBRANCHING PROCESS FROM THE O640 INTERMEDIATE

Abstract The photobranching process from the O₆₄₀ intermediate (O) in the photocycle of bacteriorhodopsin was studied. The O form accumulated with continuous wave visible light (390–800 nm) irradiation of the acidic (pH 3.9–6.0) purple membrane of Halobacterium halobium at 22°C. The photocycle of O via an L-like (or N-like) intermediate was driven by 630 nm pulsed light. The newly found intermediate has an absorption band in the 450–560 nm region. The "green-light"-absorbing pigment, tentatively called G₅₂₀, was converted to O with a time constant of (1.2 ± 0.2) ms. No M-like species was found in the cycle. The quantum yield of the cycle was estimated to be 0.30 ± 0.15.     

PHYTOCHROME-STIMULATED REGENERATION OF PROTOCHLOROPHYLL IN COTYLEDONS OF THE MUSTARD SEEDLING

Abstract —It has been shown [Kasemir, H., U. Oberdorfer and H. Mohr, Photochem. Photobiol. (1973) 18 , 481–486] that elimination of the lag phase of chlorophyll a (Chl) accumulation in continuous white light is due exclusively to the action of phytochrome (P_fr). In the present paper we show that the action of P_fr on the lag phase of Chl accumulation can be understood quantitatively as a consequence of the action of P_fr on the initial rate of protochlorophyll (PChl) regeneration. Disappearance of PChl (or formation of Chl) can be excluded as a control signal for the light-mediated changes in rate of PChl regeneration. The P_fr control of PChl regeneration does not discriminate between PChl 650 and PChl 637. The action of P_fr on the PChl regeneration is a relatively fast process (time lag < 3 h). On the other hand, the effect remains stable over long periods (at least 24 h) in darkness.     

PHYTOCHROME INTERMEDIATES IN VIVO—IV. KINETICS OF Pfr EMERGENCE*

Abstract— Rate constants for the formation of P_fr, the far-red-absorbing form of phytochrome, from photochemical intermediates, have been measured in vivo in a number of plants. Two first order processes were observed, the slowest of which has been studied in detail. In pea epicotyl hooks, the rate constants proved dependent on temperature as well as on composition of the gas phase. A transition point was observed at about—2°C. Above this temperature the Arrhenius activation energy is 61 ± 6 kJ/mol, below the transition temperature 200 + 17 kJ/mol. The data correspond to half lives of between 0.4 and 0.2 s in an atmosphere of oxygen at 20°C, depending upon the species of plant. In oxygen-free atmospheres, the rates are between 1.7 and 1.9 times as fast. The data prove that, on the time scale relevant to the usual type of photomorphogenetic experiments, the occurrence of phytochrome intermediates generally can be neglected. Exceptions to this generality are formed by experiments involving continuous or very rapidly intermittent exposures to very high light intensities. Under these conditions the steady state fraction of P_fr may be considerably lower than calculated from the spectroscopic data for the pigment and the light sources.     

THE TRANSFORMATION OF PHYTOCHROME TO ITS PHYSIOLOGICALLY ACTIVE FORM

Abstract— The phototransformation of phytochrome ( P_r ) to its physiologically active form (P_fr) can be best described by a tautomeric proton shift in ring A without a substantial con formational change of the chromophore. The electronic aspect of this transformation is discussed.