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1.
Seven monoclonal antibodies (MAbs) have been prepared to phytochrome from green oat (Avena sativa L. cv. Garry) leaves. One of these MAbs (GO-1) cross-reacts with apoprotein of the phytochrome that is most abundant in etiolated oat shoots as assessed by immunoblot assay of fusion proteins expressed in Escherichia coli. The epitope for this MAb is located between amino acids 618 and 686 in the primary sequence of type 3 phytochrome (Hershey et al. 1985, Nucleic Acids Res. 13, 8543–8559), which is one of the predominant phytochromes in etiolated oats. Three other MAbs (GO-4, GO-5, GO-6) immunoprecipitate phytochrome isolated from green oat leaves, as evaluated by photoreversibility assay. GO-1, GO-4, GO-5 and GO-6 are therefore directed to phytochrome. While evidence obtained with the other three MAbs (GO-2, GO-7, GO-8) strongly indicates that they are also directed to phytochrome, this evidence is not as rigorous. Recognition of antigen by any of these seven MAbs is not significantly reduced by periodate oxidation, indicating that their epitopes probably do not include carbohydrate. All but GO-1 bind either very poorly or not at all the phytochrome that is abundant in etiolated oat shoots. These data reinforce earlier observations made with antibodies directed to phytochrome from etiolated oats, indicating (1) that the phytochromes that predominate in etiolated and green oats differ immunochemically and (2) that phytochrome preparations from green oat leaves contain very little of the phytochrome that is abundant in etiolated shoots. An hypothesis that these two immunochemically distinct phytochromes form heterodimers in vitroAbbreviations Da Dalton - DEAE diethylaminoethyl - ELISA enzyme-linked immunosorbent assay - HA hydroxyapatite - Ig immunoglobulin - MAb monoclonal antibody - SDS sodium dodecyl sulfate is supported by comparison of immunoblot data obtained with conventionally purified phytochrome from etiolated oats to that expressed as fusion protein in E. coli. This research was supported by the U.S. Department of Energy (contract DE-AC-09-81SR10925 to L.H.P.). We thank Dr. Lyle Crossland and Ms. Sue Kadwell for their assistance in the construction of the cDNA clones, and Dr. Gyorgy Bisztray for providing us with clone pCBP3712. Dr. Phillip Evans and Dr. Russell Malmberg kindly provided MAbs 4F3, 6F12 and 8C10, as well as a corresponding antigen preparation. The excellent technical assistance of Mrs. Donna Tucker and Mrs. Danielle Neal is gratefully acknowledged.  相似文献   

2.
Y. Shimazaki  L. H. Pratt 《Planta》1986,168(4):512-515
Thirty-nine antiserum preparations from eight rabbits were screened for their ability to precipitate the immunochemically distinct phytochrome that is obtained from green oat (Avena sativa L.) shoots. The antisera were obtained from rabbits immunized with either proteolytically degraded, but still photoreversible, 60-kDa (kilodalton) phytochrome, or approx. 120-kDa phytochrome, both of which were purified from etiolated oat shoots. The ability of these antisera to precipitate phytochrome from green oats was independent of the size of phytochrome used for immunization. While crude antisera immunoprecipitated as much as 80% of the phytochrome isolated from green oat shoots, antibodies immunopurified from these sera with a column of highly purified, approx. 120-kDa phytochrome from etiolated oats precipitated no more than about 5–10%.Abbreviations kDa kilodalton - mU milliunit  相似文献   

3.
Phytochrome from leaves of light-grown oat (Avena sativa L. cv. Garry) plants is characterized with newly generated monoclonal antibodies (MAbs) directed to it. The results indicate that there are at least two phytochromes in green oat leaves, each of which differs from the phytochrome that is most abundant in etiolated oat tissue. When analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) with reference to 124-kilodalton (kDa) phytochrome from etiolated oats, the two phytochromes from green oats have monomer sizes of 123 of 125 kDa. Immunoblot analysis of SDS, sample buffer extracts of lyophilized, green oat leaves indicates that neither the 125-kDa nor the 123-kDa polypeptide is a degradation product arising after tissue homogenization. Of the two, the 123-kDa phytochrome appears to be the predominant species in light-grown oat leaves. During SDS-PAGE in the presence of 1 mM Zn2+, 123-kDa phytochrome undergoes a mobility shift corresponding to an apparent mass increase of 2 kDa. In contrast, the electrophoretic mobility of 125-kDa phytochrome is unaffected by added Zn2+. Some MAbs that recognize 123-kDa phytochrome fail to recognize 125-kDa phytochrome and vice versa, indicating that these two phytochromes are not only immunochemically distinct from 124-kDa phytochrome, but also from each other. It is evident, therefore, that there are at least three phytochromes in an oat plant: 124-kDa phytochrome, which is most abundant in etiolated tissue, plus 123-and 125-kDa phytochromes, which predominate in light-grown tissue.Abbreviations Da Dalton - HA hydroxyapatite - MAb monoclonal antibody - PAb polyclonal antibody preparation - PAGE polyacrylamide gel electrophoresis - SDS sodium dodecyl sulfate This research was supported by the U.S. Department of Energy (contract DE-AC-09-81SR10925 to L.H.P.). We thank Dr. Alan Jones, Department of Biology, University of North Carolina, Chapel Hill, USA, for kindly providing rabbit antiserum 4032, and Mrs. Donna Tucker and Mrs. Danielle Neal for their technical assistance.  相似文献   

4.
The abundance and molecular mass of phytochrome in germinating embryos of A. sativa (oat) grown in light or darkness have been monitored using immunoblot and spectrophotometric assays. Immunoblot analysis shows that imbibed but quiescent embryos have two immunochemically distinct species of phytochrome with monomeric molecular masses of 124 and 118 kDa (kdalton). The 118-kDa species has the properties of the 118-kDa phytochrome extracted from fully green oat tissue (J.G. Tokuhisa, S.M. Daniels, P.H. Quail, 1985, Planta 164, 321–332), whereas the 124-kDa polypeptide appears similar to the well-characterized photoreceptor of etiolated tissue. The capacity of antibodies directed against etiolated-oat phytochrome to immunoprecipitate the 124-kDa species but not the 118-kDa species has been exploited to quantitate the levels of each separately over a 72-h time course of germination and seedling development. The abundance of the 124-kDa molecule increases at least 200-fold in etiolated seedlings over 72 h whereas in light-grown seedlings the level of this molecule is relatively constant. In contrast, the amount of the 118-kDa species increases only twofold in both dark- and light-grown seedlings over the same period of time. These data indicate that whereas the abundance of 124-kDa phytochrome is regulated at the protein level by the well-documented, differential stability of the red- and far-red-absorbing forms in vivo, the 118-kDa molecule is present at a low constitutive level, presumably reflecting no such difference in the stability of the two spectral forms.Abbreviations ELISA enzyme-linked immunosorbent assay - Ig immunoglobulin - kDa kilodalton - Pfr, Pr far-red-absorbing and red-absorbing forms of phytochrome, respectively - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis  相似文献   

5.
A method is described for the extraction of phytochrome from chlorophyllous shoots of Avena sativa L. Poly(ethyleneimine) and salt fractionation are used to reduce chlorophyll and to increase the phytochrome concentration sufficiently to permit spectral and immunochemical analyses. The phototransformation difference spectrum of this phytochrome is distinct from that of phytochrome from etiolated shoots in that the maximum in the red region of the difference spectrum is shifted about 15 nm to a shorter wavelength. Immunochemical probing of electroblotted proteins (Western blotting), using a method sensitive to 50 pg, demonstrates the presence of two polypeptides in green tissue that bind antiphytochrome antibodies: a predominant species with a relative molecular mass (Mr) of 118000 and a lesser-abundant 124000-Mr polypeptide. Under nondenaturing conditions all of the 124000-Mr species is immunoprecipitable, but the 118000-Mr species remains in the supernatant. Peptide mapping and immunochemical analysis with monoclonal antibodies show that the 118000-Mr species has structural features that differ from etiolated-oat phytochrome. Mixing experiments show that these structural differences are intrinsic to the molecular species from these two tissues rather than being the result of post-homogenization modifications or interfering substances in the green-tissue extracts. Together the data indicate that the phytochrome that predominates in green-tissue has a polypeptide distinct from the well-characterized molecule from etiolated tissue.Abbreviations and symbols Ig immunoglobulin - Mr relative molecular mass - Pfr, Pr far-red-absorbing and red-absorbing forms of phytochrome respectively - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis - max R , max FR maxima of the phototransformation difference spectrum in the red and far-red region  相似文献   

6.
Sequestered particles of phytochrome (SAPs) were partially purified from red-light-irradiated oat coleoptiles. Phytochrome pelletability was enhanced by using buffers containing 10 mM Mg2+ or high concentrations (0.6–0.8 M) of orthophosphate (Pi). Combining the pelletability of phytochrome in the presence of Mg2+ with that in the presence of 0.6 Pi resulted in a strong enrichment (about 100-fold) of pelletable phytochrome. Antisera were raised against Mg2+-Pi-pellets from darkgrown seedlings. Using these antisera, no evidence was found by Western blotting and immunocytochemistry that SAPs contain major proteins other than phytochrome. The major contamination of these enriched SAP preparations consisted of protein crystals which are probably catalase. The preparations contained methyltransferase and protein-kinase activities which were not associated with SAPs. Phytochrome purified from SAPs served as a substrate for protein-kinase activity but not for the methyltransferase activity. Phytochrome itself did not show any kinase activity.Abbreviations ME 2-mercaptoethanol - PAGE polyacrylamide gel electrophoresis - Pfr far-red-light-absorbing form of phytochrome - PMSF phenylmethylsulfonyl fluoride - SAP sequestered area of phytochrome - SDS sodium dodecyl sulfate This work was supported by Deutsche Forschungsgemeinschaft. The competent technical assistance of Karin Fischer is gratefully acknowledged.  相似文献   

7.
The spectral properties of peptides generated from etiolated-Avana, 124-kDa (kilodalton) phytochrome by endogenous protease(s) have been studied to assess the role of the amino-terminal and the carboxyl-terminal domains in maintaining the proper interaction between protein and chromophore. The amino-terminal, 74-kDa chromopeptide, a degradation product of the far-red absorbing form of the pigment (Pfr), is shown to be spectrally similar to the 124-kDa, undegraded molecule. The minimum and maximum of the difference spectrum (Pr-Pfr) are 730 and 665 nm, respectively, and the spectral-change ratio is unity. Also, like undegraded, 124-kDa phytochrome, the 74-kDa peptide exhibits minimal dark reversion. These data indicate that the 55-kDa, carboxyl-terminal half of the polypeptide does not interact with the chromophore and may not have a role in the structureal integrity of the amino-terminal domain. The 64-kDa chromopeptide can be generated directly from the 74-kDa species by cleavage of 10 kDa from the amino terminus upon incubation of this species as Pr. Accompanying this conversion are changes in the spectral properties, namely, a shift in the difference spectrum minimum to 722–724 nm and a tenfold increase in the capacity for dark reversion. These data indicate that the 6–10 kDa, amino-terminal segment continues to function in its role of maintaining proper chromophore-protein interactions in the 74-kDa peptide as it does in the undegraded molecule. Conversely, removal of this segment upon proteolysis to the 63-kDa species leads to aberrant spectral properties analogous to those observed when this domain is lost from the full-length, 124-kDa molecule, resulting in the 118/114-kDa degradation products. The data also show that photoconversion of the 74-kDa chromopeptide from Pfr to Pr exposes proteolytically susceptible sites in the same way as in the 124-kDa molecule. Thus, the separated, 74-kDa amino-terminal domain undergoes a photoinducible conformational change comparable to that in the intact molecule.Abbreviations and symbols Da dalton - Pfr far-red-absorbing from of phytochrome - PMSF phenylmethylsulfonyl fluoride - Pr red-absorbing form of phytochrome - R red light - FR lar-red light - A r/A fr spectral change ratio - max FR peak maximum (nm) of Pfr absorbance  相似文献   

8.
Phytochrome was studied spectrophotometrically in Avena sativa L. seedlings that had been grown for 6 d in continous white fluorescent light from lamps. Greening was prevented through the use of the herbicide San 9789. When placed in the light, phytochrome (Ptot) decreased with first order kinetics (1/2 2 h) but reached a stable low level (2.5% of the dark level) after 36 h. This concentration of phytochrome remained constant in the light and during the initial hours of a subsequent dark period, but increased significantly after a prolonged dark period. Evidence suggests that the constant pool of phytochrome in the light is achieved through an equilibrium between synthesis of the red absorbing (Pr) and destruction of the far-red absorbing form (Pfr) of phytochrome. It is concluded that the phytochrome system in light-grown oat seedlings is qualitatively the same as that known from etiolated monocotyledonous seedlings, but different than that described for cauliflower florets.Abbreviations Pfr the far-red light absorbing form of phytochroma - Pr the red light absorbing form of phytochrome - Ptot Pr+Pfr - ks rate constant of Pr synthesis - kd rate constant of Pfr destruction - MOPS N-morpholino-3-propane-sulfonic acid - IRIS Tris (hydroxymethyl) amino methane - San 9789 4-chloro-5-(methyl amino)-2-(,,-trifluoro-m-tolyl)-3(2H)pyridazinone  相似文献   

9.
A set of rat monoclonal antibodies (ARC MAC 48 to 52 and 54 to 56), raised to phytochrome from dark-grown seedlings of Avena sativa L. was tested for the ability to discriminate between the red-absorbing (Pr) and far-red-absorbing (Pfr) forms of phytochrome by indirect enzyme-linked immunosorbent assay. MAC 50 bound more strongly to Pfr and MAC 49 and 52 showed preferential binding to Pr from extracts of dark-grown Avena seedlings; MAC 50 also bound more strongly to Pfr from brushite-purified phytochrome. The remainder of the monoclonal antibodies and a rabbit polyclonal antiphytochrome preparation did not discriminate between Pr and Pfr. The results provide evidence for conformational changes in defined regions of the phytochrome apoprotein upon photoconversion.Abbreviations ELISA enzyme-linked immunosorbent assay - FR far-red light - McAb monoclonal antibody(ies) - PBS phosphate-buffered saline - Pfr far-red-absorbing form of phytochrome - Pr red-absorbing form of phytochrome - R red light - PMSF phenylmethylsulphonylfluoride  相似文献   

10.
Y. Shimazaki  L. H. Pratt 《Planta》1985,164(3):333-344
While two monoclonal antibodies directed to phytochrome from etiolated oat (Avena sativa L.) shoots can precipitate up to about 30% of the photoreversible phytochrome isolated from green oat shoots, most precipitate little or none at all. These results are consistent with a report by J.G. Tokuhisa and P.H. Quail (1983, Plant Physiol. 72, Suppl., 85), according to which polyclonal rabbit antibodies directed to phytochrome from etiolated oat shoots bind only a small fraction of the phytochrome obtained from green oat shoots. The immunoprecipitation data reported here indicate that essentially all phytochrome isolated from green oat shoots is distinct from that obtained from etiolated oat shoots. The data indicate further that phytochrome from green oat shoots might itself be composed of two or more immunochemically distinct populations, each of which is distinct from phytochrome from etiolated shoots. Phytochrome isolated from light-grown, but norflurazon-bleached oat shoots is like that isolated from green oat shoots. When light-grown, green oat seedlings are kept in darkness for 48 h, however, much, if not all, of the phytochrome that reaccumulates is like that from etiolated oat shoots. Neither modification during purification from green oat shoots of phytochrome like that from etiolated oat shoots, nor non-specific interference by substances in extracts of green oat shoots, can explain the inability of antibodies to recognize phytochrome isolated from green oat shoots. Immunopurified polyclonal rabbit antibodies to phytochrome from etiolated pea (Pisum sativum L.). shoots precipitate more than 95% of the photoreversible phytochrome obtained from etiolated pea shoots, while no more than 75% of the pigment is precipitated when phytochrome is isolated from green pea shoots. These data indicate in preliminary fashion that an immunochemically unique pool of phytochrome might also be present in extracts of green pea shoots.Abbreviation ELISA enzyme-linked immunosorbent assay - mU milliunit - Pfr far-red-absorbing form of phytochrome - Pr red-absorbing form of phytochrome  相似文献   

11.
The cross-reactivity of diverse monoclonal antibodies against phytochrome from Zea and Avena was tested by enzyme-linked immunosorbentassay (ELISA) and by immunoblotting. About 40 antibodies were selected by means of nondenatured phytochrome; all of them reacted with sodium dodecyl sulfate denatured homologous antigen on immunoblots. The epitopes for 14 antibodies (4 raised against Avena and 10 against Zea phytochrome) were localized in 6 regions of the phytochrome molecule by means of Western blot analysis of proteolytic fragments of known localization. Results of studies on the inhibition of antibody binding by other antibodies were largely compatible with these latter findings. Except in a few cases, inhibition occurred when antibodies were located on the same or a closely adjacent region. As demonstrated by 16 species, cross-reactivity with phytochromes from other Poaceae was high. Greater losses in cross-reactivity were observed only with antibodies recognizing an epitope in the vicinity of the carboxyl terminus of 118-kg · mol-1 phytochrome. Cross-reactivity with phytochrome from dicotyledons was restricted to a few antibodies. However, phytochrome(s) from plants illuminated for 24 h or more could be detected. One of the antibodies that recognized phytochrome from dicotyledons was also found to recognize phytochrome or a protein of 120–125 kg·mol-1 from several ferns, a liverwort and mosses. This antibody (Z-3B1), which was localized within a 23.5-kg·mol-1 section of Avena phytochrome (Grimm et al., 1986, Z. Naturforsch. 41c, 993), seems to be the first antibody raised against phytochrome from a monocotyledon with such a wide range of reactivity. Even though epitopes were recognized on different phytochromes, the strength of antibody binding indicated that these epitopes are not necessarily wholly identical.Abbreviations ELISA enzyme-linked immunosorbent assay - McAb monoclonal antibody - PBS phosphate-buffered saline - Pfr (Pr) far-red-absorbing (red-absorbing) form of phytochrome - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis  相似文献   

12.
We have addressed two issues regarding the spatial distribution of three phytochromes in 3-d-old oat (Avena sativa L.) seedlings. Three monoclonal antibodies, GO-4, GO-7 and Oat-22, were used as probes. Each antibody detects only one of the phytochromes. The first issue is whether any of the phytochromes might be membrane-bound. To address this issue the abundance of each phytochrome in extracts prepared with either a detergent-free or a detergent-containing buffer was compared by immunoblot assay. The detergent-free buffer was formulated to extract only soluble protein, while the detergent-containing buffer was intended to extract both soluble and membrane proteins. None of the data indicate that any of these three phytochromes is membrane-bound in either a dark- or a light-grown seedling. The second issue is whether these three phytochromes are distributed differentially in 3-d-old dark- and light-grown seedlings. When seedlings were dissected into shoots, scutellums, and roots, all three phytochromes were detected in all three fractions from both dark- and light-grown seedlings. Each of the three phytochromes was most abundant in the shoot and least abundant in the root, except that in light-grown seedlings type I, etiolated-tissue phytochrome was more abundant in the root than in either the shoot or the scutellum. When the equivalent fractions dissected from different seedlings were compared, those dissected from dark-grown seedlings contained a higher quantity of each of the three phytochromes than did those dissected from light-grown seedlings, except that green-tissue, type II phytochromes did not differ significantly in the roots. At this level of resolution, no evidence was obtained to indicate a substantive difference among the three phytochromes in their spatial distribution. We thank Drs. Elizabeth Williams and Tammy Sage (Botany Department, University of Georgia, USA) for generously permitting us to use their image-analysis system. This research was supported by USDA NRICGP grant 91-37100-6490.  相似文献   

13.
Proteolytic fragments were obtained by limited proteolysis of 124-kDa (kilodalton) phytochrome from etiolatedAvena sativa using trypsin, endoproteinase-Lys-C, endoproteinase-Glu-C and subtilisin. The fragments were separated by sodium dodecyl sulfate gel electrophoresis, blotted onto activated glass-fiber sheets and investigated by amino-acid sequencing in a gas-phase sequencer. Determination of N-terminal sequences in three to six Edman degradation steps allowed the exact localization of the fragments within the published entire amino-acid sequence of 124-kDaAvena phytochrome (H.P. Hershey, R.F. Barker, K.B. Idler, J.L. Lissemore, P.H. Quail (1985), Nucleic Acids Res.13, 8543–8559). From the knowledge of the exact sites for preferred proteolytic cleavage of undenatured phytochrome, conclusions on the conformation of the phytochrome protein were drawn. Sites of preferred cleavage are considered to be freely exposed to the environment whereas potential cleavage sites which are resistant to proteolysis over a long time are considered to be localized in the interior of the native phytochrome. Two different sites which are exposed in the far-red-absorbing form but not in the red-absorbing form of phytochrome are localized at amino-acid residues 354 and 753, respectively. The N-terminal region which is exposed only in the red-absorbing form stretches only as far as amino-acid residue 60.Abbreviations kDa kilodalton - Pfr far-red-absorbing form of phytochrome - Pr red-absorbing form of phytochrome - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis Dedicated to Professor W. Rau on the occasion of his 60th birthday.  相似文献   

14.
S. Grombein  W. Rüdiger  R. Hampp 《Planta》1978,141(3):273-277
Phytochrome was determined in etiolated laminae of Avena sativaL. either without pretreatment or after 5 min of red irradiation followed by different periods of darkness (0–24 h). At given intervals laminae were homogenized and phytochrome was determined spectrophotometrically in the total homogenate and in purified etioplasts and mitochondria. Enhanced specific activity of phytochrome was found in all fractions after the irradiation in comparison to dark controls. Phytochrome destruction was observed in all fractions at the beginning of the subsequent dark period. Whereas the homogenate and the mitochondrial fraction showed a continuous destruction so that phytochrome reached a level far below that in etiolated plants, the phytochrome level in the plastid fraction reacheda minimum at 2 h with a subsequent increase beyond the dark level. This increase was most pronounced between 4 and 8 h after the red irradiation. The results are discussed in terms of the destruction and possible de novo synthesis of phytochrome that may be different in mitochondria and plastids.Abbreviations Ptot total phytochrome - Pr red absorbing form of phytochrome - Pfr far-red absorbing form of phytochrome - ER endoplasmic reticulum  相似文献   

15.
Native phytochrome from Avena sativa L. is homogeneous with a monomeric molecular weight of 124 kdalton; 6–10 kdalton larger than the heterogeneous 120 kdalton preparations previously considered to be undegraded (Vierstra and Quail, 1982, Proc. Natl. Acad. Sci. USA, 79: 5272–5276). The phototransformation difference spectrum (Pr-Pfr) of 124 kdalton phytochrome measured in crude extracts has a minimum in the farred region at 730 nm, the same as that observed in vivo. These spectral properties contrast with those of 120 kdalton phytochrome purified by column immunoaffinity chromatography where the difference minimum is at 724 nm. When 124 kdalton phytochrome is incubated as Pr in crude extracts, the difference minimum shifts progressively to shorter wavelengths (from 730 to 722 nm) concomitant with the proteolytic degradation of the chromoprotein to the mixture of 118 and 114 kdalton species that comprise 120 kdalton phytochrome preparations. These two effects are inhibited in concert by the serine protease inhibitor, phenylmethylsulfonylfluoride, and or maintenance of the phytochrome in the Pfr form. These results provide further evidence that 124 kdalton phytochrome is the native molecule in Avena and indicate that the peptide segments removed by proteolysis of the Pr form are important to the pigment's spectral integrity. The present data thus resolve the previously unsettled question of why the Pfr form of 120 kdalton phytochrome isolated by various procedures from Avena has been found to absorb at shorter wavelengths than that observed in vivo. Previous spectral studies with 120 kdalton phytochrome preparations are open to reexamination.Abbreviations, symbols PMSF phenylmethylsulfonylfluoride - SDS-PAGE sodium dodecyl sulfate polyacrylamide gel electrophoresis - Ig immunoglobulin - Aminimum, Amaximum phototransformation difference spectrum (Pr-Pfr) minimum and maximum - Ar/Afr ratio spectral change ratio  相似文献   

16.
The extraction and partial purification of phytochrome from light-grownAtrichum undulatum P. Beauv., a chlorophyllous moss, is described. Polyethyleneimine and salt fractionation followed by hydroxyapatite and Affi-gel-blue chromatography were used to separate phytochrome from chlorophyll, and to purify the pigment. All steps were performed in the presence of Triton X-100 which improved the yield by a factor of about three. The protein has a molecular weight some-what larger than that ofAvena phytochrome (124 kDa), as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblot analysis. It cross-reacts with a monoclonal antibody against phytochrome from etiolated corn (Zea) and a polyclonal antibody against phytochrome from etiolated oat (Avena), and its photoreversibility is similar to that of phytochrome from greenAvena.Abbreviations EDTA ethylenediaminetetraacetic acid - FMN flavinmononucleotide - PMSF phenylmethylsulfonylfluoride - Pr(Pfr) red(far-red)-absorbing form of phytochrome - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis  相似文献   

17.
An oat (Avena sativa L.) plant contains at least three phytochromes, which have monomeric masses of 125, 124, and 123 kilodaltons (kDa) (Wang et al., 1991, Planta 184, 96–104). The 124-kDa phytochrome is most abundant in dark-grown seedlings, while the other two phytochromes predominate in light-grown seedlings. Using three monoclonal antibodies, each specific to one of the three phytochromes, we have monitored by immunoblot assay the expression of these three phytochromes in the 5 d following onset of imbibition of seeds. On a per-organism basis, each of these three phytochromes increased in abundance for the first 3 d in the light, or for the first 4 d in darkness, after which they each began to decrease in quantity. When 3-d-old dark-grown seedlings were transferred to the light, the abundance of each of these three phytochromes decreased both in absolute amount and relative to the phytochrome levels in control seedlings kept in darkness. In contrast, when 3-d-old light-grown seedlings were transferred to darkness, the abundance of the 124-kDa and 125-kDa phytochromes increased while that of 123-kDa phytochrome remained unchanged. In each case, the level of phytochrome was greater than that of control seedlings maintained in the light. Thus, in addition to temporal regulation, all three phytochromes exhibit photoregulated expression at the protein level, although the magnitude of this photoregulation varies substantially. We thank Drs. Elizabeth Williams and Tammy Sage (Botany Department, University of Georgia, USA) for generously permitting us to use their image-analysis system. This research was supported by USDA NRICGP grant 91-37100-6490.  相似文献   

18.
A protein-kinase activity which is co-purified with phytochrome from etiolated oat seedlings was investigated in some detail. Whereas phytochrome was always phosphorylated in solution (together with some contaminating protein bands), radioactive phosphate was not found in the phytochrome band after native gel electrophoresis and incubation of the entire gel with labeled ATP. Since protein kinases are usually autophosphorylated under these conditions, the result shows that the kinase activity does not reside in the phytochrome molecule itself. Radioactivity was exclusively detected in a band with the apparent molecular weight 450 kDa; sodium-dodecyl-sulfate gel electrophoresis revealed an apparent molecular weight of 60 kDa for the phosphorylated subunit. The N-terminal amino-acid sequence A L E S A G K Q L V P W was determined for this subunit which is a potential candidate for the protein kinase. The optimum conditions (pH, metal ion concentration) and kinetics of the phosphorylation reaction were determined. The presumed connection between proteinkinase activity and the signal chain leading from the far-red-absorbing form of phytochrome to physiological responses still awaits elucidation.Abbreviations Bistris 2-[bis(2-hydroxyethyl)amino]-2-(hydroxymethyl)-1,3-propanediol - kDa kilodalton - Pfr far-red absorbing form of phytochrome - Pr red-absorbing form of phytochrome - PMBS p-chloromercuribenzenesulfonate - SDS sodium dodecyl sulfate - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol Dedicated to Professor A. Trebst on the occasion of his 60th birthday  相似文献   

19.
Characterisation of a new monoclonal antibody (mAb), designated LAS 41, directed against 124-kilodalton (kDa) etiolated-oat (Avena sativa L.) phytochrome, indicates that it recognises an epitope unique to the red-light-absorbing form, Pr. In a solid-phase enzyme-linked immunosorbent assay (ELISA), LAS 41 exhibits a seven- to eight-fold higher affinity for Pr than for the far-red-light-absorbing form of phytochrome, Pfr. In addition, in immunoprecipitation assays LAS 41 effectively precipitates 100% of phytochrome presented as Pr but only precipitates a maximum of 24.5% of phytochrome presented as Pfr. These values are indicative of binding exclusively to Pr. Peptide-mapping studies show that LAS 41 recognises and epitope located within a region 6–10 kDa from the aminoterminus of the phytochrome molecule. Since binding of LAS 41 to Pr induces alterations in the spectral properties of Pr, this indicates that at least part of the 4 kDa domain to which the antibody binds is essential for protein-chromophore interaction. Subsequent photoconversion of LAS 41-Pr complexes produces native Pfr spectra, with concomitant production of free antibody and antigen, as shown by a modified ELISA. The specificity of LAS 41 for Pr has facilitated the purification of Pfr which is free of contaminating Pr. This has enabled direct determination of the mole fraction of Pfr established by red light to be 0.874.Abbreviations ELISA enzyme-linked immunsorbent assay - kDa kilodalton - mAb monoclonal antibody - Pfr far-red-absorbing form of phytochrome - Pr red-absorbing form of phytochrome - SDS-PAGE sodium dodecyl sulphate polyacrylamide gel electrophoresis - (A) difference in absorbance (A 665 Pr –A 730 Pr )-(A 665 Pfr –A 730 Pfr ) - Ar/Afr spectral change ratio (SCR) - max mole fraction of Pfr following saturating red light  相似文献   

20.
The effects of continuous red and far-red light and of brief light pulses on the growth kinetics of the mesocotyl, coleoptile, and primary leaf of intact oat (Avena sativa L.) seedlings were investigated. Mesocotyl lengthening is strongly inhibited, even by very small amounts of Pfr, the far-red light absorbing form of phytochrome (e.g., by [Pfr]0.1% of total phytochrome, established by a 756-nm light pulse). Coleoptile growth is at first promoted by Pfr, but apparently inhibited later. This inhibition is correlated in time with the rupturing of the coleoptile tip by the primary leaf, the growth of which is also promoted by phytochrome. The growth responses of all three seedling organs are fully reversible by far-red light. The apparent lack of photoreversibility observed by some previous investigators of the mesocotyl inhibition can be explained by an extremely high sensitivity to Pfr. Experiments with different seedling parts failed to demonstrate any further obvious interorgan relationship in the light-mediated growth responses of the mesocotyl and coleoptile. The organspecific growth kinetics, don't appear to be influenced by Pfr destruction. Following an irradiation, the growth responses are quantitatively determined by the level of Pfr established at the onset of darkness rather than by the actual Pfr level present during the growth period.Abbreviation Pfr far-red light absorbing form of phytochrome  相似文献   

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