Generation and characterisation of monoclonal antibodies to Rainbow trout (Oncorhynchus mykiss) prion protein

We report the production and characterisation of three monoclonal antibodies to the prion protein (PrP) of Rainbow trout (Oncorhynchus mykiss), a piscine protein with characteristic structural features common to mammalian prion protein. All of the antibodies were used to detect PrP in ELISA, Western blot and by immunohistochemistry. The antibodies showed specificity for certain genera of the Salmonidae, binding to PrP of Rainbow trout and Atlantic salmon (Salmo salar) but not to that from Arctic char (Salvelinus alpinus). Using the immunoreagents in Western blots, we demonstrated that O. mykiss PrP protein is a 64 kDa protein present in brain, spinal chord and optic nerve. PrP was not detected in a range of peripheral tissues: eye, heart, stomach, intestine, liver, kidney, spleen, muscle and skin. Furthermore, PrP could be detected in all brain regions studied: optic lobe, cerebrum/olfactory lobe, cerebellum, hypothalamus/pituitary and medulla oblongata and was widespread within these tissues as determined by immunohistochemistry. These immunoreagents provide specific tools to study the biology of Rainbow trout and Atlantic salmon PrP and any possible transmissible spongiform encephalopathy-like disease of these economically important fish species.

Rapid pathotyping of Newcastle disease virus using a single-chain Fv displayed on phage against the C-terminal end of the F2 polypeptide

Filamentous bacteriophage display technology has been used to generate specific antibody fragments for differentiating virulent and avirulent Newcastle disease virus. A single-chain Fv fragment to the motif (112)RRQ(114), present at the F2 C-terminal end of many virulent Newcastle disease virus isolates, was isolated from a phage display library derived from a rabbit immunized with a peptide conjugate. An ELISA evaluation was carried out to test its ability to differentiate between 11 avirulent and 34 virulent NDV isolates. The antibody fragment reacted with 25/28 virulent viruses with the putative motif (112)RRQ(114). The three exceptions were viruses with an arginine instead of glycine, at position 110 of the fusion protein, just preceding the cleavage site. Five of six virulent isolates, whose predicted motif was different from that usually found in virulent strains, also tested negative. However, the antibody did react with one isolate with the motif (112)KRQ(114). There was no apparent reactivity with any of the avirulent isolates tested. We conclude that this antibody may, in the future, be a useful aid for the pathotyping of NDV isolates.

Resetting of the circadian clock by phytochromes and cryptochromes in Arabidopsis

The authors sought to investigate the role of phytochromes A and B (phyA and phyB) and cryptochromes 1 and 2 (cryl and cry2) in the synchronization of the leaf position rhythm in Arabidopsis thaliana. The seedlings were transferred from white light-dark cycles to free-running conditions with or without exposure to a light treatment during the final hours of the last dark period. The phase advance caused by a far-red light treatment was absent in the phyA mutant, deficient in the fhy1 and fhy3 mutants involved in phyA signaling, and normal in the cryl and cryl cry2 mutants. The phase shift caused by blue light was normal in the cry2 mutant; reduced in the phyA, cryl, phyA cry1, and cry1 cry2 mutants; and abolished in the phyA cryl cry2 triple mutant. The phase shift caused by red light was partially retained by the phyA phyB double mutant. The authors conclude that cryl and cry2 participate as photoreceptors in the blue light input to the clock but are not required for the phyA-mediated effects on the phase of the circadian rhythm of leaf position. The signaling proteins FHY1 and FHY3 are shared by phyA-mediated photomorphogenesis and phyA input to the clock.

FHY1: a phytochrome A-specific signal transducer

Phytochromes are plant photoreceptors that regulate plant growth and development with respect to the light environment. Following the initial light-perception event, the phytochromes initiate a signal-transduction process that eventually results in alterations in cellular behavior, including gene expression. Here we describe the molecular cloning and functional characterization of Arabidopsis FHY1. FHY1 encodes a product (FHY1) that specifically transduces signals downstream of the far-red (FR) light-responsive phytochrome A (PHYA) photoreceptor. We show that FHY1 is a novel light-regulated protein that accumulates in dark (D)-grown but not in FR-grown hypocotyl cells. In addition, FHY1 transcript levels are regulated by light, and by the product of FHY3, another gene implicated in FR signaling. These observations indicate that FHY1 function is both FR-signal transducing and FR-signal regulated, suggesting a negative feedback regulation of FHY1 function. Seedlings homozygous for loss-of-function fhy1 alleles are partially blind to FR, whereas seedlings overexpressing FHY1 exhibit increased responses to FR, but not to white (WL) or red (R) light. The increased FR-responses conferred by overexpression of FHY1 are abolished in a PHYA-deficient mutant background, showing that FHY1 requires a signal from PHYA for function, and cannot modulate growth independently of PHYA.

Cytoplasmic expression of a soluble synthetic mammalian metallothionein-alpha domain in Escherichia coli. Enhanced tolerance and accumulation of cadmium

Bacteria are commonly used for bioremediation of heavy metal pollution and strategies to improve their performance in this respect are desirable. In this study, an Escherichia coli strain was engineered to express a common metallothionein-alpha domain. The metallothionein-alpha domain was over-expressed in the cytoplasm of E. coli as a fusion to the carboxyl terminal of maltose binding protein. The fusion protein was highly soluble in the cytoplasm of E. coli. When grown in the presence of cadmium, cells expressing the metallothionein-alpha fusion protein showed increased viability compared with control cells. Cells expressing the metallothionein-alpha also demonstrated increased accumulation of cadmium.

fhy3-1 retains inductive responses of phytochrome A

The fhy3 mutation of Arabidopsis impairs phytochrome A (phyA)-mediated inhibition of hypocotyl growth without affecting the levels of phyA measured spectrophotometrically or immunochemically. We investigated whether the fhy3-1 mutation has similar effects on very low fluence responses (VLFR) and high irradiance responses (HIR) of phyA. When exposed to hourly pulses of far-red light, etiolated seedlings of the wild type or of the fhy3-1 mutant showed similar inhibition of hypocotyl growth, unfolding of the cotyledons, anthocyanin synthesis, and greening upon transfer to white light. In the wild type, continuous far-red light was significantly more effective than hourly far-red pulses (at equal total fluence). In the fhy3-1 mutant, hourly pulses were as effective as continuous far-red light, i.e. the failure of reciprocity typical of HIR was not observed. Germination was similarly promoted by continuous or pulsed far-red in wild-type and fhy3-1 seeds. Thus, for hypocotyl growth, cotyledon unfolding, greening, and seed germination, the fhy3-1 mutant retains VLFR but is severely impaired in HIR. These data are consistent with the idea that VLFR and HIR involve divergent signaling pathways of phyA.

Sheep monoclonal antibody fragments generated using a phage display system

Monoclonal sheep antibodies have great potential for biomedical, veterinary and agricultural purpose. Although conventional sheep monoclonal antibodies can be generated by a modified hybridoma technology, the procedures are not routine. Here, we describe a method to generate recombinant sheep antibody fragments from immunised animals using a modified phage display system. Total RNA from pooled spleens of sheep immunised with the model antigens human serum albumin and conalbumin were used to amplify immunoglobulin V gene repertoires and an efficient two-step cloning method was employed to rapidly construct a phage display single-chain Fv (scFv) library. A total of 14 different scFvs were isolated and characterised. Sequence analysis indicated typical ovine immunoglobulin characteristics. Thirteen Vlambda and 11 VH genes were identified that could be grouped into the sheep Vlambda families I, II, VI and a single VH family. Soluble monomeric scFvs, produced in the periplasm of Escherichia coli, were subjected to affinity measurement via surface plasmon resonance analysis and affinities typical of the secondary immune response were observed. The method described here should be of value for the study of sheep immunology as well as for biorecognition in general.

High affinity ScFvs from a single rabbit immunized with multiple haptens

We report the generation of single-chain Fv (scFv) fragments with high affinities against four different hapten molecules from a single immunised rabbit. The rabbit was immunised with a mixture of protein conjugates of four different haptens, namely the herbicide mecoprop and derivatives of the herbicides atrazine, simazine, and isoproturon. An scFv phage display library was constructed, and several scFvs with high affinity against each hapten were isolated. For each hapten, a single binder was selected by k(off) ranking and used for affinity determination. The affinities were in sub-nanomolar range and the lowest K(d) value obtained was 6.75 x 10(-10) M. An unusual feature of one of the anti-isoproturon scFvs was its ability to retain binding activity at pH1.7. The utility and potential of using a single animal and immunisation with multiple antigens for the production of multiple, specific, high affinity scFvs by phage display is discussed.

Rapid production of single-chain Fv fragments in plants using a potato virus X episomal vector

We have used a plant virus episomal vector, based on potato virus X (PVX) to transiently express a single-chain Fv (scFv) and its diabody derivative in plants. The scFv was directed against a continuous epitope (cryptotope) on the coat protein of potato virus V. A cloned, full-length PVX vector sequence, containing the scFv gene, was used to direct in vitro transcription and the resulting RNA was used to inoculate Nicotiana clevelandii plants. Within a few days, plants developed characteristic symptoms and immunoblot analysis showed that accumulation of scFv protein coincided with accumulation of PVX. Targeting of the scFv to the apoplast greatly increased protein accumulation compared with cytosolic scFv and produced more severe symptoms on infected plants. ELISA demonstrated that the scFv and diabody extracted from infected plants showed the same antigen-binding specificity as that of the parental monoclonal antibody. The PVX vector is a convenient, rapid, low-cost in planta expression system that can also be used for assessment of scFv production and function prior to stable plant transformation.

Functional interaction of cryptochrome 1 and phytochrome D

Arabidopsis thaliana wild-type and single, double and triple mutants lacking phytochrome A (phyA-201), phytochrome B (phyB-5), phytochrome D (phyD-1), phytochrome E (phyE-1), cryptochrome 1 (hy4-2.23n) and cryptochrome 2 (fha-1) were used to study the photoreceptor signal-transduction network. The inhibition of hypocotyl elongation was analysed using pulses of red light preceded by a pre-irradiation of white light. The interactions of phyA, phyB and cry1 have been studied in a series of previous papers. Here we focus on the signal transduction initiated by phyD. We observed that phyD can partly substitute for the loss of phyB. Specifically, in the phyB background, red pulses were only effective if both cry1 and phyD were present. The response to red pulses, enabled by the pre-irradiation of white light, was completely reversible by far-red light. Loss of reversibility occurred with an apparent half-life of 2 h, similar to the half-life of 3 h observed for the effect mediated by phyB. Furthermore, we could show that the response to an end-of-day far-red pulse in phyB depends on both phyD and cry1. In contrast to phyD, a functional interaction of phyE and cry1 could not be detected in Arabidopsis seedlings.

Selection of phage antibodies to surface epitopes of Phytophthora infestans

Antibodies specific for surface-exposed epitopes on germlings of the plant pathogen, Phytophthora infestans, were isolated from a diverse phage library displaying single-chain Fv (scFv) antibody fragments. The library was subpanned against external soluble components released from mycelia, sporangia and germlings and a discrete population of phage antibodies isolated. Binding of monoclonal phage antibodies was demonstrated by enzyme-linked immunosorbent assay (ELISA) and diversity was established by BstNI restriction enzyme digest patterns. Antibodies were subcloned as fusions at the C-terminus of maltose binding protein (MBP) and expressed as soluble proteins in Escherichia coli. These antibody fusion proteins bound to P. infestans germlings and to mycelial homogenates from various Phytophthora species. The binding activities to mycelial homogenates of fungal species not belonging to the order Peronosporales were substantially lower. Several phage-displayed scFvs were used in conjunction with fluorescently labelled antiphage antibody to visualise the distribution of their cognate epitopes on the surface of the germlings. The combination of procedures developed here with Phytophthora demonstrates the potential of phage antibody technology in isolating antibodies to cell surface and external soluble components of pathogens, some of which may play a role in host/pathogen interactions.

Regulation of phytochrome B signaling by phytochrome A and FHY1 in Arabidopsis thaliana

Phytochrome A (phyA) and phytochrome B (phyB) share the control of many processes but little is known about mutual signaling regulation. Here, we report on the interactions between phyA and phyB in the control of the activity of an Lhcb1*2 gene fused to a reporter, hypocotyl growth and cotyledon unfolding in etiolated Arabidopsis thaliana. The very-low fluence responses (VLFR) induced by pulsed far-red light and the high-irradiance responses (HIR) observed under continuous far-red light were absent in the phyA and phyA phyB mutants, normal in the phyB mutant, and reduced in the fhy1 mutant that is defective in phyA signaling. VLFR were also impaired in Columbia compared to Landsberg erecta. The low-fluence responses (LFR) induced by red-light pulses and reversed by subsequent far-red light pulses were small in the wild type, absent in phyB and phyA phyB mutants but strong in the phyA and fhy1 mutants. This indicates a negative effect of phyA and FHY1 on phyB-mediated responses. However, a pre-treatment with continuous far-red light enhanced the LFR induced by a subsequent red-light pulse. This enhancement was absent in phyA, phyB, or phyA phyB and partial in fhy1. The levels of phyB were not affected by the phyA or fhy1 mutations or by far-red light pre-treatments. We conclude that phyA acting in the VLFR mode (i.e. under light pulses) is antagonistic to phyB signaling whereas phyA acting in the HIR mode (i.e. under continuous far-red light) operates synergistically with phyB signaling, and that both types of interaction require FHY1.

Selection of phage-display peptides that bind to cucumber mosaic virus coat protein

Several discrete peptides that bind specifically to the coat protein of cucumber mosaic virus (CMV) were isolated from a diverse phage library displaying random nonapeptides on the major coat protein VIII. Enrichment was shown by polyclonal phage enzyme linked immunosorbent assay (ELISA) after three rounds of selection. Sequencing of the genes encoding 10 of these peptides revealed an absence of any conserved motifs, although nine of them contained a high proportion of proline residues. Some of the selected peptides were displayed at the N-terminus of thioredoxin and expressed in the cytoplasm of Escherichia coli. Both the phage-displayed and thioredoxin-fusion versions of the peptides could detect purified CMV and CMV present in crude leaf extracts from infected plants. By dot blot analysis, a thioredoxin-peptide fusion could readily detect as little as 5 ng of CMV. The peptides did not bind to other plant viruses. These peptides have been shown to be specific and highly sensitive tools in the detection of CMV and, as well as their diagnostic potential, they could form the basis for a novel disease resistance strategy.

Photomophogenesis: Phytochrome takes a partner!

How light signals are transduced by phytochromes is still poorly understood. Recent studies have provided evidence that a PAS domain protein, PIF3, physically interacts with phytochromes, plays a role in phytochrome signal transduction and might be a component of a novel signalling pathway in plants.

Phytochrome D acts in the shade-avoidance syndrome in Arabidopsis by controlling elongation growth and flowering time

Shade avoidance in higher plants is regulated by the action of multiple phytochrome (phy) species that detect changes in the red/far-red ratio (R/FR) of incident light and initiate a redirection of growth and an acceleration of flowering. The phyB mutant of Arabidopsis is constitutively elongated and early flowering and displays attenuated responses to both reduced R/FR and end-of-day far-red light, conditions that induce strong shade-avoidance reactions in wild-type plants. This indicates that phyB plays an important role in the control of shade avoidance. In Arabidopsis phyB and phyD are the products of a recently duplicated gene and share approximately 80% identity. We investigated the role played by phyD in shade avoidance by analyzing the responses of phyD-deficient mutants. Compared with the monogenic phyB mutant, the phyB-phyD double mutant flowers early and has a smaller leaf area, phenotypes that are characteristic of shade avoidance. Furthermore, compared with the monogenic phyB mutant, the phyB-phyD double mutant shows a more attenuated response to a reduced R/FR for these responses. Compared with the phyA-phyB double mutant, the phyA-phyB-phyD triple mutant has elongated petioles and displays an enhanced elongation of internodes in response to end-of-day far-red light. These characteristics indicate that phyD acts in the shade-avoidance syndrome by controlling flowering time and leaf area and that phyC and/or phyE also play a role.

Overexpression of rice phytochrome A partially complements phytochrome B deficiency in Arabidopsis

The red/far-red reversible phytochromes play a central role in regulating the development of plants in relation to their light environment. Studies on the roles of different members of the phytochrome family have mainly focused on light-labile, phytochrome A and light-stable, phytochrome B. Although these two phytochromes often regulate identical responses, they appear to have discrete photosensory functions. Thus, phytochrome A predominantly mediates responses to prolonged far-red light, as well as acting in a non-red/far-red-reversible manner in controlling responses to light pulses. In contrast, phytochrome B mediates responses to prolonged red light and acts photoreversibly under light-pulse conditions. However, it has been reported that rice (Oryza sativa L.) phytochrome A operates in a classical red/far-red reversible fashion following its expression in transgenic tobacco plants. Thus, it was of interest to determine whether transgenic rice phytochrome A could substitute for loss of phytochrome B in phyB mutants of Arabidopsis thaliana (L.) Heynh. We have observed that ectopic expression of rice phytochrome A can correct the reduced sensitivity of phyB hypocotyls to red light and restore their response to end-of-day far-red treatments. The latter is widely regarded as a hallmark of phytochrome B action. However, although transgenic rice phytochrome A can correct other aspects of elongation growth in the phyB mutant it does not restore other responses to end-of-day far-red treatments nor does it restore responses to low red:far-red ratio. Furthermore, transgenic rice phytochrome A does not correct the early-flowering phenotype of phyB seedlings.

Phytochromes and photomorphogenesis in Arabidopsis

Plants have evolved exquisite sensory systems for monitoring their light environment. The intensity, quality, direction and duration of light are continuously monitored by the plant and the information gained is used to modulate all aspects of plant development. Several classes of distinct photoreceptors, sensitive to different regions of the light spectrum, mediate the developmental responses of plants to light signals. The red-far-red light-absorbing, reversibly photochromic phytochromes are perhaps the best characterized of these. Higher plants possess a family of phytochromes, the apoproteins of which are encoded by a small, divergent gene family. Arabidopsis has five apophytochrome-encoding genes, PHYA-PHYE. Different phytochromes have discrete biochemical and physiological properties, are differentially expressed and are involved in the perception of different light signals. Photoreceptor and signal transduction mutants of Arabidopsis are proving to be valuable tools in the molecular dissection of photomorphogenesis. Mutants deficient in four of the five phytochromes have now been isolated. Their analysis indicates considerable overlap in the physiological functions of different phytochromes. In addition, mutants defining components acting downstream of the phytochromes have provided evidence that different members of the family use different signalling pathways.

Phytochrome E influences internode elongation and flowering time in Arabidopsis

From a screen of M2 seedlings derived from gamma-mutagenesis of seeds doubly null for phytochromes phyA and phyB, we isolated a mutant lacking phyE. The PHYE gene of the selected mutant, phyE-1, was found to contain a 1-bp deletion at a position equivalent to codon 726, which is predicted to result in a premature stop at codon 739. Immunoblot analysis showed that the phyE protein was undetectable in the phyE-1 mutant. In the phyA- and phyB-deficient background, phyE deficiency led to early flowering, elongation of internodes between adjacent rosette leaves, and reduced petiole elongation. This is a phenocopy of the response of phyA phyB seedlings to end-of-day far-red light treatments. Furthermore, a phyE deficiency attenuated the responses of phyA phyB seedlings to end-of-day far-red light treatments. Monogenic phyE mutants were indistinguishable from wild-type seedlings. However, phyB phyE double mutants flowered earlier and had longer petioles than did phyB mutants. The elongation and flowering responses conferred by phyE deficiency are typical of shade avoidance responses to the low red/far-red ratio. We conclude that in conjunction with phyB and to a lesser extent with phyD, phyE functions in the regulation of the shade avoidance syndrome.

Phytochrome E influences internode elongation and flowering time in Arabidopsis

From a screen of M2 seedlings derived from gamma-mutagenesis of seeds doubly null for phytochromes phyA and phyB, we isolated a mutant lacking phyE. The PHYE gene of the selected mutant, phyE-1, was found to contain a 1-bp deletion at a position equivalent to codon 726, which is predicted to result in a premature stop at codon 739. Immunoblot analysis showed that the phyE protein was undetectable in the phyE-1 mutant. In the phyA- and phyB-deficient background, phyE deficiency led to early flowering, elongation of internodes between adjacent rosette leaves, and reduced petiole elongation. This is a phenocopy of the response of phyA phyB seedlings to end-of-day far-red light treatments. Furthermore, a phyE deficiency attenuated the responses of phyA phyB seedlings to end-of-day far-red light treatments. Monogenic phyE mutants were indistinguishable from wild-type seedlings. However, phyB phyE double mutants flowered earlier and had longer petioles than did phyB mutants. The elongation and flowering responses conferred by phyE deficiency are typical of shade avoidance responses to the low red/far-red ratio. We conclude that in conjunction with phyB and to a lesser extent with phyD, phyE functions in the regulation of the shade avoidance syndrome.

Filamentous bacteriophage display of a bifunctional protein A::scFv fusion

Filamentous bacteriophage display is a powerful and widely used technology for the selection of affinity ligands. However, the commonly used phagemid systems result in the production of a population of phage of which those displaying the ligand of interest represent only a small proportion. Through simple dilution and nonspecific binding effects, the presence of large numbers of ligand-free phage reduces the likelihood that weak binders will be successfully selected from a ligand library. To provide a means of avoiding such problems, we have introduced an affinity handle into the phage that permits the purification of ligand-displaying phage. The IgG binding domains of Staphylococcus aureus protein A (SpA) were fused to a ligand (single chain Fv[scFv]) which is displayed as a fusion with the phage surface protein delta pIII. Phage-displaying SpA were separated by affinity chromatography using immobilized human IgG from non-displaying phage and the purified phage were shown to possess functional scFv. Comparisons of fusion proteins in which either the scFv or the affinity handle occupied the amino terminus of the fusion protein showed that, whereas SpA function was unaffected by position, scFv function was compromised when the scFv did not occupy the amino terminus.

Fluorescence spectroscopy and photochemistry of phytochromes A and B in wild-type, mutant and transgenic strains of Arabidopsis thaliana

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".

Expression of heterologous phytochromes A, B or C in transgenic tobacco plants alters vegetative development and flowering time

In this study, oat phytochrome A (phyA), Arabidopsis phytochrome B (phyB) or Arabidopsis phytochrome C (phyC) were expressed in both day-neutral and photo-period-sensitive (short-day) tobacco (Nicotiana tabacum cv. Hicks). Introgression of the Maryland Mammoth (MM) gene into cv Hicks was used to confer short-day photo-periodic sensitivity. Expression of oat phyA led to characteristic hypersensitivity of hypocotyls to red light (R) and far-red light (FR) and an overall dwarfing of the mature plant. Expression of Arabidopsis phyB enhanced the sensitivity of hypocotyls to R and caused even more marked dwarfing of the mature plant. In contrast, the expression of Arabidopsis phyC had no detectable consequences for the photocontrol of hypocotyl elongation. However, phyC expression did lead to a R-dependent increase in cotyledon expansion in de-etiolating seedlings and to a significant increase in leaf area in mature plants. This provides the first experimental evidence that phyC is biologically active. The flowering time of cv Hicks plants grown under 8 h photoperiods was virtually unaffected by a 30 min white light (W) night break given 8 h into the dark period. In contrast, cv Hicks MM plants responded to a night break with a delay in flowering. Expression of phyA or phyB led to a night break-dependent delay in flowering in cv Hicks plants. For cv Hicks MM plants, the expression of any of phyA, phyB or phyC caused a marked enhancement of the flower-delaying effect of a night break. These observations indicate that transgenic phyA, phyB or phyC can interact with the endogenous mechanisms controlling flowering time in tobacco.

The Brassica rapa elongated internode (EIN) gene encodes phytochrome B

The elongated internode (ein) mutation of Brassica rapa leads to a deficiency in immunochemically detectable phytochrome B. Molecular analysis of the PHYB gene from ein indicates a deletion in the flanking DNA 5' of the ATG start codon, which could interfere either with PHYB transcription or processing of the PHYB transcript. Restriction fragment length polymorphisms and inverse PCR fragments generated from the PHYB gene of wild-type and ein seedlings demonstrate the deletion to be 500 bp in length. Seedlings of heterozygote, EIN/ein, contain about 50% of the level of immunochemically detectable phytochrome B of equivalent wild-type EIN/EIN seedlings. Etiolated seedlings of EIN/ein show a responsiveness to red light almost intermediate between that of ein/ein and EIN/EIN homozygotes. Furthermore, whereas the ein/ein homozygote is poorly responsive to low red/far-red ratio light, the presence of one functional allele of EIN in the heterozygote confers an elongation response intermediate between that of the homozygotes EIN/EIN and ein/ein in these light conditions. The partial dominance of ein indicates a close relationship between phytochrome B level and phenotype.

Study of antibody-antigen interaction through site-directed mutagenesis of the VH region of a hybrid phage-antibody fragment

An important aspect of the study of antibody structure-function relationships involves analysis of natural or synthetic mutations of antigen-combining sites. The anti-hen egg lysozyme monoclonal antibody HyHEL-10 has been a focus for antibody structure-function studies. We have displayed on bacteriophage of a hybrid single chain Fv, containing the light chain variable region of HyHEL-10 and the heavy chain variable region of a structurally related but functionally distinct antibody, AS32. By using a combination of site-directed mutagenesis, complementary determining region grafting and molecular modeling, we have identified a number of contact and non-contact residues that are important in the affinity of HyHEL-10 for lysozyme. In particular, the heavy chain variable region framework residue at position 94 was shown to be an important determinant of high-affinity binding. The phage display approach eliminates the need for purification of antibodies and, when used in combination with polymerase chain reaction for variable region sequence mutagenesis, facilitates the rapid generation and characterization of mutant antibodies.

The rosette habit of Arabidopsis thaliana is dependent upon phytochrome action: novel phytochromes control internode elongation and flowering time

A major function of phytochromes in light-grown plants involves the perception of changes in the relative amounts of red and far-red light (R:FR ratio) and the initiation of the shade-avoidance response. In Arabidopsis thaliana, this response is typified by increased elongation growth of petioles and accelerated flowering and can be fully induced by end-of-day far-red light (EOD FR) treatments. Phytochrome B-deficient (phyB) mutants, which have a constitutive elongated-petiole and early-flowering pheno-type, do not display a petiole elongation growth response to EOD FR, but they do respond to EOD FR by earlier flowering. Seedlings deficient in both phytochrome A and phytochrome B (phyA phyB), have a greatly reduced stature compared with wild-type or either monogenic mutant. The phyA phyB double null mutants also respond to EOD FR treatments by flowering early, suggesting the operation of novel phytochromes. Contrary to the behaviour of wild-type or monogenic phyA or phyB seedlings, petiole elongation in phyA phyB seedlings is reduced in response to EOD FR treatments. This reduction in petiole elongation is accompanied by the appearance of elongated internodes such that under these conditions the plants no longer display a rosette habit.

fhy1 defines a branch point in phytochrome A signal transduction pathways for gene expression

Physiological analysis of the fhy1 mutant of Arabidopsis has led to the proposal that the mutant is deficient in a downstream component of the phytochrome A signal transduction pathway. To define this lesion at the molecular level, we have examined the expression of a range of phytochrome-regulated genes in fhy1. In far-red light, the regulation of genes such as CHS and CHI is blocked in fhy1, whereas the induction of CAB and NR genes is affected minimally. In contrast, the induction of all genes tested is blocked in a phytochrome A-deficient mutant, confirming that gene expression in far-red light is regulated solely by phytochrome A. Thus, fhy1 defines a branch point in phytochrome A signal transduction pathways for gene expression. Contrary to the general opinion that responses to continuous red light are mediated by phytochrome B and other photostable phytochromes, we have shown also that red light-induction of CHS is mediated almost entirely by phytochrome A. Furthermore, phytochrome A-mediated induction of CHS by red light is blocked in fhy1. The induction of CHS by blue light, however, is normal in fhy1, suggesting that although FHY1 is a component of the phytochrome A signaling pathway, it is not a component of the blue-light signaling pathway for CHS expression.

Far-red light blocks greening of Arabidopsis seedlings via a phytochrome A-mediated change in plastid development

We have characterized a far-red-light response that induces a novel pathway for plastid development in Arabidopsis seedlings. This response results in the inability of cotyledons to green upon subsequent white light illumination, and the response is suppressed by exogenous sucrose. Studies with mutants showed that this far-red block of greening is phytochrome A dependent and requires an intact downstream signaling pathway in which FHY1 and FHY3 may be components but in which HY5 is not. This highlights a previously undefined branchpoint in the phytochrome signaling pathway. Ultrastructural analysis showed that the far-red block correlates with both the failure of plastids to accumulate prolamellar bodies and the formation of vesicles in the stroma. We present evidence that the far-red block of greening is the result of severe repression of protochlorophyllide reductase (POR) genes by far-red light coupled with irreversible plastid damage. This results in the temporal separation of phytochrome-mediated POR; repression from light-dependent protochlorophyllide reduction, two processes that normally occur in coordination in white light.

The ELONGATED gene of Arabidopsis acts independently of light and gibberellins in the control of elongation growth

A novel elongated mutant has been isolated from EMS-mutagenized populations of the Arabidopsis thaliana ga4 mutant. After backcrossing with the Landsberg erecta (Ler) wild-type (WT) followed by selfing, the mutant phenotype was identified in the GA4 background. Seedlings of the mutant, which has been named elg (elongated), are characterized by elongated hypocotyls and petioles, leaves that are narrow and somewhat epinastic and early flowering. Allelism tests with the hy1-hy5 mutants indicate that elg is not allelic with any of these long-hypocotyl mutants. From linkage analyses, the location of elg on chromosome 4, between cer2 and ap2 has been established. The pleiotropic phenotype of elg seedlings is suggestive of a disruption of phytochrome and/or gibberellin (GA) function. Although the elg mutant displays a light-dependent long-hypocotyl phenotype, elg seedlings retain a full range of photomorphogenic responses and the elg mutation acts additively with the photomorphogenic mutants phyB, hy1 and hy2. This suggests that ELG acts independently of phytochrome action. The elg mutation partially suppresses the effect of GA-deficiency on elongation growth, and, although elg ga1 seedlings are more elongated than ga1 seedlings, both genotypes respond in the same way to applied GA. That applied GA and the elg mutation interact additively suggests that ELG acts independently of GA action.

Phytochrome A Mediates the Promotion of Seed Germination by Very Low Fluences of Light and Canopy Shade Light in Arabidopsis

Seeds of the wild type (WT) and of the phyA and phyB mutants of Arabidopsis thaliana were exposed to single red light (R)/far-red light (FR) pulses predicted to establish a series of calculated phytochrome photoequilibria (Pfr/P). WT and phyB seeds showed biphasic responses to Pfr/P. The first phase, i.e. the very-low-fluence response (VLFR), occurred below Pfr/P = 10-1%. The second phase, i.e. the low-fluence response, occurred above Pfr/P = 3%. The VLFR was similarly induced by either a FR pulse saturating photoconversion or a subsaturating R pulse predicted to establish the same Pfr/P. The VLFR was absent in phyA seeds, which showed a strong low-fluence response. In the field, even brief exposures to the very low fluences of canopy shade light (R/FR ratio < 0.05) promoted germination above dark controls in WT and phyB seeds but not in the phyA mutant. Seeds of the phyA mutant germinated normally under canopies providing higher R/FR ratios or under deep canopy shade light supplemented with R from light-emitting diodes. We propose that phytochrome A mediates VLFR of A. thaliana seeds.

Flowering responses to altered expression of phytochrome in mutants and transgenic lines of Arabidopsis thaliana (L.) Heynh

The long-day plant Arabidopsis thaliana (L.) Heynh. flowers early in response to brief end-of-day (EOD) exposures to far-red light (FR) following a fluorescent short day of 8 h. FR promotion of flowering was nullified by subsequent brief red light (R) EOD exposure, indicating phytochrome involvement. The EOD response to R or FR is a robust measure of phytochrome action. Along with their wild-type (WT) parents, mutants deficient in either phytochrome A or B responded similarly to the EOD treatments. Thus, neither phytochrome A nor B exclusively regulated flowering, although phytochrome B controlled hypocotyl elongation. Perhaps a third phytochrome species is important for the EOD responses of the mutants and/or their flowering is regulated by the amount of the FR-absorbing form of phytochrome, irrespective of the phytochrome species. Overexpression of phytochrome A or phytochrome B resulted in differing photoperiod and EOD responses among the genotypes. The day-neutral overexpressor of phytochrome A had an EOD response similar to all of the mutants and WTs, whereas R EOD exposure promoted flowering in the overexpressor of phytochrome B and FR EOD exposure inhibited this promotion. The comparisons between relative flowering times and leaf numbers at flowering of the over-expressors and their WTs were not consistent across photoperiods and light treatments, although both phytochromes A and B contributed to regulating flowering of the transgenic plants.

Impaired splicing of phytochrome B pre-mRNA in a novel phyB mutant of Arabidopsis

Phytochrome is the red/far-red absorbing photoreceptor active in photomorphogenesis, the apoprotein of which is encoded by a small gene family (PHYA, PHYB, PHYC, PHYD and PHYE). A novel phytochrome B-deficient mutant, phyB-103, was isolated from a screen of EMS-mutagenised Arabidopsis M2 seed. phyB-103 carries a G-to-A base substitution at the 5' splice site +1 G nucleotide of intron 1 of PHYB. The phyB-103 PHYB transcript is larger than the wild-type PHYB transcript and DNA sequence analysis showed that the entire intron is retained in the mature PHYB transcript of phyB-103. Thus the phyB-103 G-to-A substitution prevents intron splicing. The retained intron contains within it an in-frame stop codon, and the predicted PHYB-003 apoprotein thus terminates prematurely. phyB-103 is therefore likely to be a null allele of PHYB, consistent with the observation that the phenotype conferred by phyB-103 is as severe as that conferred by previously described phyB null alleles.

Endoplasmic reticulum targeting of active modified beta-glucuronidase (GUS) in transgenic tobacco plants

We have investigated targeting to the endoplasmic reticulum (ER) of wild-type GUS and a modified form (GUS S358) by making an N-terminal fusion of the beta-glucuronidase (GUS) enzyme with the wheat alpha-amylase signal peptide. In vitro studies demonstrated that the modified GUS (S358) lacked the glycosylation site present within the wild-type enzyme. Analysis of transgenic tobacco plants revealed that the modified GUS enzyme retained activity upon passage to the ER. When further experiments were carried out to determine the cellular location of the modified GUS enzyme, it was found that (contrary to expectation) the majority of GUS activity was retained within the cell and was not secreted to the cell surface via the default pathway. The data indicated that the modified GUS enzyme is an unsuitable reporter enzyme for studying protein secretion.

Antigen detection using recombinant, bifunctional single-chain Fv fusion proteins synthesised in Escherichia coli

A gene fusion approach has been used to produce antibody conjugates for use in immunoassays. Escherichia coli expression vectors encoding fusions between the outer membrane protein A signal peptide, an anti-phytochrome single-chain Fv protein, and either Escherichia coli alkaline phosphatase or Staphylococcal protein A downstream of the T7 O10 promoter were constructed. A crude lysate from cells expressing the single-chain Fv-alkaline phosphatase fusion protein could be used directly for the sensitive and specific staining of phytochrome on protein blots by a single-step immunoassay procedure. Following purification by immunoglobulin G affinity chromatography, the Staphylococcal protein A-single-chain Fv fusion protein was also used for selective immunostaining of phytochrome on protein blots by a two-step procedure in which a rabbit immunoglobulin-alkaline phosphatase conjugate was used to detect antigen-bound Staphylococcal protein A. Recombinant antibody conjugates of the types described here are simple and inexpensive to produce and are a realistic alternative to conventional antibody conjugates.

Photoresponses of Light-Grown phyA Mutants of Arabidopsis (Phytochrome A Is Required for the Perception of Daylength Extensions)

Several aspects of the photophysiology of wild-type Arabidopsis thaliana seedlings were compared with those of a phytochrome A null mutant, phyA-1, and a mutant, fhy1, that is putatively involved in the transduction of light signals from phytochrome A. Although phyA seedlings display a near wild-type phenotype when grown in white light (W), they nevertheless display several photomorphogenic abnormalities. Thus, whereas the germination of wild-type and fhy1 seeds is almost fully promoted by a pulse of red light (R) or by continuous far-red light (FR), phyA seed germination is responsive only to R. Following growth under day/night cycles, but not under continuous W, the hypocotyls of light-grown phyA and fhy1 seedlings are more elongated than those of wild-type seedlings. For seedlings grown under low red/far-red (R/FR) ratio light conditions, phyA and fhy1 seedlings display a more marked promotion of hypocotyl elongation than wild-type seedlings. Similarly, seedlings that are doubly null for phytochrome A and phytochrome B(phyA phyB) also have more elongated hypocotyls under low R/FR ratio conditions than phyB seedlings. This indicates that phytochrome A action in light-grown seedlings is antagonistic to the action of phytochrome B. Although wild-type, fhy1, and phyA seedlings flower at essentially the same time under both short-day and long-day conditions, an obvious consequence of phytochrome A deficiency is a pronounced late flowering under conditions where a short day of 8 h of fluorescent W is extended by 8 h of low-fluence-rate incandescent light. The evidence thus indicates that phytochrome A plays a role in seed germination, in the control of elongation growth of light-grown seedlings, and in the perception of daylength.

Phytochrome B and at Least One Other Phytochrome Mediate the Accelerated Flowering Response of Arabidopsis thaliana L. to Low Red/Far-Red Ratio

We have investigated the involvement of phytochrome B in the early-flowering response of Arabidopsis thaliana L. seedlings to low red:far-red (R/FR) ratio light conditions. The phytochrome B-deficient hy3 (phyB) mutant is early flowering, and in this regard it resembles the shade-avoidance phenotype of its isogenic wild type. Seedlings carrying the hy2 mutation, resulting in a deficiency of phytochrome chromophore and hence of active phytochromes, also flower earlier than wild-type plants. Whereas hy3 or hy2 seedlings show only a slight acceleration of flowering in response to low R/FR ratio, seedlings that are doubly homozygous for both mutations flower earlier than seedlings carrying either phytochrome-related mutation alone. This additive effect clearly indicates the involvement of one or more phytochrome species in addition to phytochrome B in the flowering response as well as indicating the presence of some functional phytochrome B in hy2 seedlings. Seedlings that are homozygous for the hy3 mutation and one of the fca, fwa, or co late-flowering mutations display a pronounced early-flowering response to low R/FR ratio. A similar response to low R/FR ratio is displayed by seedlings doubly homozygous for the hy2 mutation and any one of the late-flowering mutations. Thus, placing the hy3 or hy2 mutations into a late-flowering background has the effect of uncovering a flowering response to low R/FR ratio. Seedlings that are triply homozygous for the hy3, hy2 mutations and a late-flowering mutation flower earlier than the double mutants and do not respond to low R/FR ratio. Thus, the observed flowering responses to low R/FR ratio in phytochrome B-deficient mutants can be attributed to the action of at least one other phytochrome species.

Secretion of a functional single-chain Fv protein in transgenic tobacco plants and cell suspension cultures

A synthetic gene encoding an anti-phytochrome single-chain Fv (scFv) antibody bearing an N-terminal signal peptide has been used to transform tobacco plants. Immunoblot analysis showed that transformed plants accumulate high levels of scFv protein, accounting for up to 0.5% of the total soluble protein fraction, which could be extracted by simple infiltration and centrifugation of leaf tissue. A substantial proportion of the scFv protein extracted in this way was found to possess antigen-binding activity. Callus cell suspension cultures derived from transformed plants secrete functional scFv protein into the surrounding medium. Compared with the levels of scFv protein observed in plants expressing the native scFv gene, the incorporation of an N-terminal signal peptide, to target the scFv to the apoplast, results in elevated accumulation of the protein.

Selected Components of the Shade-Avoidance Syndrome Are Displayed in a Normal Manner in Mutants of Arabidopsis thaliana and Brassica rapa Deficient in Phytochrome B

Several growth parameters associated with the phytochrome-mediated shade avoidance syndrome have been measured in seedlings and mature plants of a wild-type and a hy3 mutant of Arabidopsis thaliana deficient in phytochrome B. Growth parameters were compared in plants grown in either white light (high red:far-red [R:FR] ratio) or white light plus added far-red (FR) light (low R:FR ratio). Wild-type Arabidopsis exhibited increased hypocotyl and petiole extension under a low, compared with a high, R:FR ratio. The hy3 mutant did not respond to low R:FR ratio by increase in hypocotyl or petiole length. Extension growth of wild-type plants was stimulated by brief end-of-day FR pulses, but similar treatment had no effect on extension growth of hy3 mutant plants. However, some responses to low R:FR ratio seen in the wild-type plants were also evident in the hy3 mutants. The number of days to bolting, the developmental stage at bolting, the leaf area, and the specific stem weight (weight per unit of length) all decreased in the wild-type and hy3 seedlings in response to low R:FR ratio. Low R:FR ratio caused a larger decrease in leaf area and specific stem weight in the mutant seedlings than in wild-type seedlings. The effects of low R:FR ratio on leaf area and specific stem weight were opposite to those of the hy3 lesion, which resulted in increased leaf area and specific stem weight in comparison with the wild type. Both leaf area and specific stem weight responses to low R:FR ratio also were unchanged in the ein mutant of Brassica rapa, known to be deficient in phytochrome B. These responses represent components of the shade-avoidance syndrome, and, consequently, the results indicate that phytochrome B cannot be solely responsible for the perception of R:FR ratio and the induction of shade-avoidance responses. The hypothesis is proposed that different phytochromes may be responsible for the regulation of extension growth and the regulation of lateral or radial expansion.

Phytochrome A null mutants of Arabidopsis display a wild-type phenotype in white light

Phytochrome is a family of photoreceptors that regulates plant photomorphogenesis; the best-characterized member of this family is phytochrome A. Here, we report the identification of novel mutations at three Arabidopsis loci (fhy1, fhy2, and fhy3) that confer an elongated hypocotyl in far-red but not in white light. fhy2 mutants are phytochrome A deficient, have reduced or undetectable levels of PHYA transcripts, and contain structural alterations within the PHYA gene. When grown in white light, fhy2 mutants are morphologically indistinguishable from wild-type plants. Thus, phytochrome A appears to be dispensable in white light-grown Arabidopsis plants. fhy2 alleles confer partially dominant phenotypes in far-red light, suggesting that the relative abundance of phytochrome A can affect the extent of the far-red-mediated hypocotyl growth inhibition response. Plants homozygous for the recessive fhy1 and fhy3 mutations have normal levels of functional phytochrome A. The FHY1 and FHY3 gene products may be responsible for the transduction of the far-red light signal from phytochrome A to downstream processes involved in hypocotyl growth regulation.

Production and secretion of a bifunctional staphylococcal protein A::antiphytochrome single-chain Fv fusion protein in Escherichia coli

A bifunctional molecule was genetically engineered which contained the secretory signal and four Fc-binding domains of Staphylococcus aureus protein A (FcA), fused to a single-chain Fv (scFv) derived from an immunoglobulin (Ig) G1 mouse monoclonal antibody (AS32) directed against the plant regulatory photoreceptor protein, phytochrome. The FcA::AS32scFv sequence was encoded in a single synthetic gene and expressed as a 60-kDa periplasmic protein in Escherichia coli. The bifunctionality of the fusion protein was established by its ability to bind to both IgG-agarose and phytochrome-sepharose. Growth of cultures, producing the FcA::AS32scFv, at 37 degrees C, resulted in a decrease in the periplasmic accumulation of the fusion protein, and an increased accumulation of an assumed degradation product which retained Fc-binding activity. Growth of cultures at lower temperatures favoured the accumulation of undegraded fusion protein. The recombinant fusion protein could be purified to homogeneity by a simple, rapid chromatography procedure.

Photophysiology of the Elongated Internode (ein) Mutant of Brassica rapa: ein Mutant Lacks a Detectable Phytochrome B-Like Polypeptide

Several phytochrome-controlled processes have been examined in etiolated and light-grown seedlings of a normal genotype and the elongated internode (ein/ein) mutant of rapid-cycling Brassica rapa. Although etiolated ein seedlings displayed normal sensitivity to prolonged far-red light with respect to inhibition of hypocotyl elongation, expansion of cotyledons, and synthesis of anthocyanin, they displayed reduced sensitivity to prolonged red light for all three of these deetiolation responses. In contrast to normal seedlings, light-grown ein seedlings did not show a growth promotion in response to end-of-day far-red irradiation. Additionally, whereas the first internode of light-grown normal seedlings showed a marked increase in elongation in response to reduced ratio of red to far-red light, ein seedlings showed only a small elongation response. When blots of protein extracts from etiolated and light-treated ein and normal seedlings were probed with monoclonal antibody to phytochrome A, an immunostaining band at about 120 kD was observed for both extracts. The immunostaining intensity of this band was substantially reduced for extracts of light-treated normal and ein seedlings. A mixture of three monoclonal antibodies directed against phytochrome B from Arabidopsis thaliana immunostained a band at about 120 kD for extracts of etiolated and light-treated normal seedlings. This band was undetectable in extracts of ein seedlings. We propose that ein is a photoreceptor mutant that is deficient in a light-stable phytochrome B-like species.

Phytochrome Effects on the Relationship between Chlorophyll and Steady-State Levels of Thylakoid Polypeptides in Light-Grown Tobacco

The effects of phytochrome status on chlorophyll content and on steady-state levels of thylakoid proteins were investigated in green leaves of Nicotiana tabacum L. plants grown under white light. Far-red light given either as a pulse at the end of each photoperiod, or as a supplement to white light during the photoperiod, reduced chlorophyll content per unit area and per unit dry weight. These differences were also observed after resolving chlorophyll-containing polypeptides by gel electrophoresis. Chlorophyll a:b ratio was unchanged. Both Coomassie blue-stained gels and immunochemical analyses showed that, in contrast to the observations in etiolated barley (K Apel, K Kloppstech [1980] Planta 150: 426-430) and pea (J Bennett [1981] Eur J Biochem 118: 61-70) seedlings, and in etiolated tobacco leaves (this report), in fully deetiolated tobacco plants changes in chlorophyll content were not correlated with obvious changes in the steady-state levels of thylakoid proteins (e.g. light-harvesting, chlorophyll a/b-binding proteins).

A microtiter plate-based assay for phosphoenolpyruvate carboxylase

A sensitive, quantitative assay for phosphenolpyruvate carboxylase which utilizes microtiter plates is described. The assay depends upon the production of a colored compound in the reaction between oxaloacetate, the product of the phosphoenolpyruvate reaction, and the dye Fast Violet B. The method is particularly appropriate for monitoring chromatographic eluates and its utility for this purpose is demonstrated by the detection of phosphoenolpyruvate carboxylase in fractions of crude maize extract separated by size-exclusion chromatography.

Polyclonal antibodies raised to phycocyanins contain components specific for the red-absorbing form of phytochrome

Polyclonal antibodies raised in rabbits to a mixture of sodium-dodecyl-sulphate-denatured C- and allo-phycocyanin, isolated from Anabaena cylindrica, cross-react with 124-kilodalton (kDa) phytochrome from etiolated oats, in enzyme-linked immunosorbent assays and on Western blots. The component(s) of the anti-phycocyanin serum that cross-reacts with phytochrome appears to be specific for the red-absorbing form of phytochrome (Pr). These antibodies can be detached from Pr by irradiation with red light, and thus show photoreversible binding. This property has been used to immunopurify the anti-phytochrome component from the antiserum using red light as the eluting agent. Competition assays and epitope-mapping studies indicate that the anti-phytochrome component may bind to a site located between 6 and 10 kDa from the amino-terminus of etiolated oat phytochrome.

Photoprotection of phytochrome

High-fluence-rate white light is shown to retard the degradation of phytochrome in etiolated seedlings of four different species: Amaranthus caudatus, Phaseolus radiatus (mung bean), Pisum sativum (garden pea), and Avena sativa (oat). In Amaranthus, a high photon fluence rate (approx. 1000 μmol · m(-2) · s(-1)) preserved nearly 50% of the total phytochrome over a period of 5 h; at 3 μmol · m(-2) · s(-1), less than 8% remained over the same period. Kinetics of the loss of total phytochrome could be interpreted in terms of two populations, one with rapid, and one with slow, turnover rates. A log-linear relationship between fluence rate and proportion of slowly degrading phytochrome was observed; a similar relationship between fluence rate and the amount of phytochrome remaining after a 5-h light treatment was seen. In mung bean, although two populations of differing degradation rates were not resolvable, a similar log-linear relationship between fluence rate and amount remaining after a standard light treatment was evident. Detailed kinetic analyses were not performed with peas and oats, but comparisons of low and high fluence rates demonstrated that photoprotection was similarly effective in these species. In Amaranthus, transfer from high to low fluence rate was accompanied by a rapid increase in degradation rate, indicating that the retarding effect of high-fluence-rate light is not a consequence of the disablement of the degradative machinery.Immunochemical analyses confirmed the existence of photoprotection in all four species, and allowed the extension of the observations to periods of light treatment during which substantial chlorophyll production occurred. Considerable photoprotection was observed in oat seedlings exposed to summer sunlight. These results are interpreted in terms of the accumulation under high fluence rates of photoconversion intermediates not available to the degradative machinery which is specific for the far-red-absorbing form of phytochrome.