PHYTOCHROME STATES IN ETIOLATED PEA SEEDLINGS: FLUORESCENCE AND PRIMARY PHOTOREACTIONS AT LOW TEMPERATURES

Emission spectra of the red phytochrome form (Pr) and fluence time-response curves of the Pr fluorescence intensity changes were measured in etiolated pea seedlings at low temperatures (80–150 K) in connection with its phototransformations into the initial photoproduct (Lr) and back upon actinic red (667 nm) and far-red (696 nm) illumination. The variable fluorescence reaches 45% at 85 K and decreases with the rise of temperature. Three kinetic components of the changes were found in the direct (Pr→Lr) and back (Lr→Pr) photoreactions belonging to three states of phytochrome: “slow”, “fast” and “very fast” (respective indices: s, f and vf). The amplitudes of the components and rate constants to reach photoequilibrium were determined in the direct and back photoreactions at different temperatures, and from this, their quantum yields, extent of the Pr?Lr phototransformation and activation energy of the reactions were evaluated for the three Pr and Lr states. The yields differ from each other by approximately a factor of 10 and those for the direct and back photoreactions are close to each other. The proportion of the amplitudes of the variable fluorescence of the three phytochrome states changes with temperature and upon the Pr→Lr photo-transformation and the Pr states differ in the position of their emission spectra by 3–5 nm. A close similarity between the Pr and Lr properties was observed, which implies a symmetrical scheme of their photoreactions. It is suggested that the three phytochrome species may originate in different conformational states of the chromophore and they independently transform in parallel photoreactions into the respective photoproducts: Prvf?Lrvf, Prf?Lrf and Prs?Lrs.     

PHOTOREVERSIBLE CHANGES IN pH OF PEA PHYTOCHROME SOLUTIONS

Abstract— Photoinduced pH changes in unbuffered solutions of undegraded pea phytochrome were studied at 10_oC by using a glass electrode. Red light irradiation caused alkalinization of the solutions in the pH range 5.2–xs7.5 and acidification in pH 7.5–8.9. The pH changes were fully reversed by a subsequent irradiation with far-red light. The red and far-red light effects were repeatedly reversible. The solution of tryptic peptide of phytochrome (mol. wt 60000) showed similar photoreversible pH changes.     

PHOTOREVERSIBLE PROTON DISSOCIATION AND ASSOCIATION IN PEA PHYTOCHROME AND ITS CHROMOPEPTIDES

Abstract— Effect of red-light irradiation on the medium pH at 10d?C was measured and compared among unbuffered solutions of the 121-kDa native pea (Pisum sativum cv. Alaska) phytochrome and its 114- and 62-kDa fragments in a red-light-absorbing form (P_r), all of which converted to far-red-light-absorbing form (Pf_r) on red-light irradiation. Red-light irradiation induced alkalinization in the solutions of the phytochrome and the fragments in the pH range 6.6-7.2 and 6.2-7.8, respectively. The amount of protons taken up by the 121-kDa phytochrome was less than one half of that of the 114-kDa fragment. Red-light irradiation induced acidification in the solutions of the 114- and the 62-kDa fragments above pH 7.8. In the solutions of the 121-kDa phytochrome, however, the irradiation induced no pH change at pH 7.2-8.2, and only a slight acidification at pH 8.2-8.7, which may be ascribed to a small amount of contamination from the 114-kDa fragment. All these red-light-induced pH changes were reversible following exposure to far-red light. The 7-kDa polypeptide(s) of the native 121-kDa phytochrome, which is lacking in the 114-kDa fragment, thus, prohibited proton transfer between phytochrome and the medium. A red-light-induced pH change was also measured in unbuffered solutions of the 39-kDa fragment of the phytochrome and of the 114-kDa fragment in the presence of 0.8 mM soyasaponin I. The 39-kDa fragment showed partially photoreversible conversion between a spectral form having an absorption maximum at 659 nm (P₆₅₉) and a bleached form, P_***. The 114-kDa fragment in the presence of the saponin showed a photoreversible conversion between P65V and Pb,. Exposure of P₆₅₉ from the 39-kDa fragment and from the 114-kDa fragment in the presence of the saponin to red light, caused acidification of the medium in the pH range 6.8-8.8 and 7.2-9.0, respectively, but no change at pH 6.2-6.8 and 6.4-7.2, respectively. The acidification of the latter was reversible following a far-red-light irradiation, but that of the former was only partially photoreversible. Proton uptake of phytochrome was inhibited by tryptic degradation to the 39-kDa fragment and also by the presence of the saponin. Only proton release was observed during the photoconversion from P₆₅₉ and P_***hl. It is suggested that a phytochrome molecule has possible site(s) for both proton release and for uptake and that the proton release reaction may be correlated to the photoconversion process(es) prior to the bleached intermediate (I_***) of phytochrome.     

INDUCTION OF LEAF UNROLLING BY PHYTOCHROME and ACETYLCHOLINE IN ETIOLATED WHEAT SEEDLINGS

Abstract-Phytochrome regulates the unrolling of primary leaf sections from 8-day-old dark-grown wheat ( Triticum aeslivum L. cv. Arminda) seedlings. Red light (R)-stimulated unrolling of leaf sections pretreated in 1 m M ethylene-bis-(β-aminoethylether)- N,N,N',N' -tetraacetic acid (EGTA) if 1 m M CaCl₂ was added during a 30 min treatment period including and following irradiation. Nifedipine at 1 μ M (a Ca²+-channel antagonist) applied 10 min before R prevented the R stimulation of leaf unrolling. The Ca²+-channel agonist Bay K-8644 (1 μ M ) and acetylcholine (ACh, 1 mY M ) stimulated unrolling of leaf sections prewashed in EGTA in darkness, if 1 m M CaCl₂ was present in the medium during a 30 min treatment period. Acetylcholine also induced leaf unrolling in the absence of Ca²+ when 100 μ M NaCl was present in the medium. Apart from ACh, only carbamylcholine out of the choline derivatives tested was active in induction of leaf unrolling in the presence of 1 m M Ca²+. The ACh receptor antagonists, atropine (10 μ M ) AND D-tubocurarine (10 μ M ), nullified the ACh-induced Ca²+- and Na+-dependent leaf unrolling, respectively. Muscarine and nicotine, agonists of ACh, at 1 μ M stimulated leaf unrolling in the presence of Ca²+ and Na+, respectively. The ACh-induced Ca²+-dependent leaf unrolling was reduced by 1 μ M Nifedipine, 10 μ M Li+ and 10 μ M "calmodulin" inhibitor, trifluoperazine (TFP), whereas only TFP was active in the reduction of the Na+-dependent ACh-induced leaf unrolling response. It is proposed that leaf unrolling of dark-grown primary wheat leaves can be regulated by phytochrome and by activation of two different types of ACh receptors.     

PURIFICATION OF PHYTOCHROME FROM RYE BY FAST PROTEIN LIQUID CHROMATOGRAPHY

Abstract. A rapid procedure for the purification of phytochrome from rye by fast protein liquid chromatography (FPLC) is described. A pre-purification with Q-Sepharose fast flow and hydroxylapatite fast flow is necessary in order not to exceed the total capacity of the Mono-Q HR 5/5 column. The whole fractionation is finished within 24 h and yields an intact 124-kDa phytochrome of high purity.     

PHYTOCHROME CONVERSION AS AN IN SITU ASSAY FOR EFFECTIVE LIGHT GRADIENTS IN ETIOLATED SEEDLINGS OF Zea mays

Abstract— In situ photochemical conversion and measurement of phytochrome can be used as a non-intrusive assay for axial light conduction along etiolated plant tissues of Zea maysL. A computerized single beam spectrophotometer was used to measure phytochrome conversion just below the coleoptilar node following irradiation of the plant shoot with 632 nm light at various distances from the measurement point. Photochemical conversion decreased log-linearly with increasing distance between the irradiation and measurement points. The distance over which the light was attenuated by 50% was 1.80 mm for mesocotyl, 1.60 mm for coleoptile plus primary leaf, and 1.15 mm for primary leaf alone (coleoptile removed). These results verify the photochemical significance of axially conducted light and thereby provide supporting evidence that such light conduction is important for photomorphogenesis.     

IN VITRO SYNTHESIS OF PHYTOCHROME APOPROTEIN DIRECTED BY mRNA FROM LIGHT AND DARK GROWN AVENA SEEDLINGS*

Abstract— The aim of this work was to compare the translatability of poly-A-RNA from light- and dark-grown Arena seedlings, the product of which should be phytochrome. Polysomal poly-A-RNA was isolated from 4-day-old dark-grown Avena seedlings (Avena sativa L. cv. Garry) and translated in a rabbit reticulocyte lysate system. Immunoprecipitation by anti-phytochrome serum was used for measurements of specific phytochrome translation. Characterization of the translated and immunoprectpitated protein was performed by comparison with [₃₅S]-methionine in vivo-labelled phytochrome. The specificity of the precipitation was shown by parallel use of non-specific serum and by competitive inhibition of precipitation by exogenous unlabelled phytochrome isolated by affinity chromatography.     

TWO SPECTROSCOPICALLY AND PHOTOCHEMICALLY DISTINGUISHABLE PHYTOCHROMES IN ETIOLATED SEEDLINGS OF MONOCOTS AND DICOTS *

Abstract Fluorescence (F) emission spectra of the red-absorbing phytochrome form (Pr) at 85 K, temperature dependence of the F intensity and the extent of the Pr F changes in the phototransformation of Pr into the first stable photoproduct (lumi-R) at 85 K (γ₁,) and into the far-red-absorbing form (Pfr) at 267 K (γ₂) were investigated in etiolated shoots and roots of monocots (oat, maize, rice) and dicots (pea, cress). These characteristics monotonously changed as a function of the phytochrome content, [Ptot]: with its decrease to 3-5% of the maximal values, the F spectrum shifts from 686 nm to 682 nm, its half-band width rises from 22 nm to ca 25 nm, temperature dependence of Pr F changes its character, γ¹, drops down from ca > 0.45 to ca 0.05-0.10 and γ₂ from 0.80–0.82 to ≤0.70. These data were interpreted in terms of two different phytochromes whose relative concentration varies with [Ptot]: (1) a longer wavelength type with the F maximum at 686 nm, low activation energy of the photoreaction (Ea ≤ 3–4 kj/ mol) and high extent of the phototransformation at 85 K (0.49 ± 0.03) and at 267 K (ca 0.85) (Pra); (2) a shorter wavelength type practically inactive at 85 K with F maximum at 682 nm, higher Ea (ca 35 kj/mol) and lower extent of the Pr & Pfr phototransformation (≤0.70) (Pri). [Pra] widely varies in different parts of the seedlings (up to 100 times) and Pra dominates when [Ptot] is high. The [Pri] is much more constant (variations, <10 times), and it becomes the major one when [Ptot] drops down. The two species are likely to belong to the labile (type 1) and stable pools of pigment and not to be connected with the localization of the pigment in the cell since red-far-red preillu-mination, which is believed to bring about sequestering of the pigment, does not change their relative concentration and properties.     

PHOTOCONTROL OF PHYTOCHROME DESTRUCTION IN GRASS SEEDLINGS. THE INFLUENCE OF WAVELENGTH AND IRRADIANCE

Abstract— –The kinetics of phytochrome destruction in vivo of coleoptiles and mesocotyls of etiolated grass seedlings (Avena sativa L., Zea mays L.) in continuous light were investigated using wavelength and irradiance as experimental variables. In contrast to dicotyledonous seedlings, the destruction reaction of these monocotyledons is saturated at very low levels of the far-red absorbing form of phytochrome, P_fr (e.g. at 1% of total phytochrome, corresponding to the photostationary state established by 727 nm light, in 2.5-day-old dark-grown Avena). On the other hand, the first-order rate constant of monocotyledon destruction may be at least one order of magnitude larger than in dicots, as indicated by the zero-order rate measured in the presence of saturating amounts of P_fr (τ_l/2 1.5 min in Avena). At sub-saturation P_fr levels, the destruction rate was found to be determined by the rate constants of the photoreactions over a wide range of wavelengths and irradiances. These results can be interpreted in terms of a destruction enzyme with high catalytic efficiency but limited availability. Analysis of in vivo binding of phytochrome to a pelletable cell structure during destruction revealed that both the pelletable and the non-pelletable fraction lose photoreversiblility with similar rates and thus provide no useful information with respect to a causal relationship between the two processes. However, due to the short half-life of P_fr at sub-saturation levels (which make the photoreactions and intermediary processes rate-limiting for destruction even at relatively high irradiances) the existence of a similarly rapid dark-reaction between the photoreactions producing P_fr and the destruction reaction could be demonstrated. This dark reaction displays the properties of P_fr binding to a receptor site.     

PHOTOCONTROL OF PHYTOCHROME DESTRUCTION AND BINDING IN DICOTYLEDONOUS vs MONOCOTYLE-DONOUS SEEDLINGS. THE INFLUENCE OF WAVELENGTH AND IRRADIANCE

Abstract— The irradiance and wavelength dependence of phytochrome destruction in vivo was analysed in etiolated cotyledons of Cucurbita pepo L. and etiolated seedlings of Amaranthus caudatus L. In contrast to grass seedlings, the rate of P _tot destruction could only be saturated by light sources that establish relatively high P _fr levels (about 50% of total phytochrome, corresponding to the photostationary state established by 693 nm light). To explain the irradiance dependence of P _tot destruction in dicots at irradiances above 0.1 Wm^-2, where the light reaction is at least one order of magnitude faster than P _fr destruction, we suggest there is a fast intercalary dark reaction between photoreaction and destruction. This dark reaction is probably—as in grass seedlings—the binding of P _fr to a receptor site. We conclude that the differences between dicots and grass seedlings with respect to the phytochrome system are of a quantitative rather than a qualitative nature.     

PHOTOTRANSFORMATION KINETICS OF UNDEGRADED OAT AND PEA PHYTOCHROME INITIATED BY LASER FLASH EXCITATION OF THE RED-ABSORBING FORM

Abstract— Phototransformation at 2°C of the red-absorbing form of phytochrome (Pr) to the far-redabsorbing form (Pfr) was studied with both undegraded oat ( Avena sativa L., cv. Garry) and undergraded pea Pisum sativum L., cv. Alaska) phytochrome. Phototransformation was initiated by a 15-ns laser pulse with maximum emission near 600 nm and output power of 30 mJ. The first resolvable transformation intermediate exhibited relative to Pr a maximum absorbance increase near 700 nm and was fully present at the earliest time measured, which was 60 ns after the flash. This intermediate absorbance decayed by two reactions for oat phytochrome (half-lives of 11 and 140 μs assuming parallel reactions) and by three for pea phytochrome (half-lives of 14, 280 and 1600 μs assuming parallel reactions). The kinetics of the slowest reaction for pea phytochrome, however, might be somewhat distorted by an instrument artifact. The appearance of the far-red-absorbing phytochrome, as monitored by absorbance increase at 720 nm, occurred by at least two reactions for both oat (half-lives of 47 and 250 ms assuming parallel reactions) and pea (half-lives of 170 and 770 ms assuming parallel reactions) phytochrome. The possibility of slower reactions was not tested. Assays for possible proteolysis of the phytochrome samples studied here indicated that the presence of degraded phytochrome could not account for the observed multiphasic kinetics except possibly for one phase of the triphasic intermediate decay seen with pea phytochrome.     

THE EFFECT OF RED AND FAR RED LIGHT ON CAROTENOID AND CHLOROPHYLL FORMATION IN PEA SEEDLINGS

Abstract— Treatment of etiolated pea seedlings with a short exposure to red light caused a stimulation of growth (size and dry wt production) and carotenoid synthesis during the following 48 hr compared with seedlings kept entirely in darkness.The effect is nullified by a following dose of far red light and thus the phenomenon is probably phytochrome-controlled.
Similar treatment with red light one hour before continuous illumination with white light tended to reduce the lag period for chlorophyll synthesis.Again a following dose of far red light reversed this response.     

EFFECTS OF N-PHENYLIMIDE S-23142 AND N-METHYL MESOPORPHYRIN IX ON THE SYNTHESIS OF THE PHYTOCHROME CHROMOPHORE IN PEA EMBRYONIC AXES

Abstract Treatment of imbibed embryonic axes taken from seeds of Pisum sativum with N-phenylimide S-23142, a herbicide that has been suggested to inhibit protoporphyrin synthesis, or with N -methyl mesoporphyrin IX, an inhibitor of the iron chelatase for heme, resulted in a significant decrease in the amount of spectrophotometrically detectable phytochromc in the axes in both cases. However, the amount of immunochemically detectable phytochrome was not affected by either treatment. If S-23142 inhibits the synthesis of protoporphyrin IX in pea, it appears that the conversion of protoporphyrinogen IX to protoporphyrin IX is involved in the biosynthesis of the phytochrome chromophore. The conversion of protoporphyrin IX to heme (Fe-protoporpbyrin) also appears to be a step in the biosynthesis of the chromophore, since N -methyl mesoporphyrin IX prevented the synthesis of spectrophotometrically detectable phytochrome but did not affect the magnesium chelatase activity required for the synthesis of chlorophyll in pea embryonic axes. The results suggest that protoporphyrinogen IX, protoporphyrin IX and heme are intermediates in the biogenesis of the phytochromc chromophore. The pathway to phytochromobilin might become fixed after protoporphyrin IX, being directed toward the Fe branch for heme rather than to the Mg branch for chlorophyll.     

RELATIVE IMPORTANCE OF BLUE LIGHT AND LIGHT ABSORBED BY PHYTOCHROME IN GROWTH OF MUSTARD (Sinapis alba L.) SEEDLINGS*

Abstract— Hypocotyl straight growth in mustard (Sinapis alba L.) responds very strongly and in precisely the same way to low fluence rate red (RL) and white light (WL). The effect of weak light can be attributed fully to light absorption by phytochrome. Only with increasing fluence rate an effect of blue light (BL) comes into play which cannot be explained by the action of phytochrome. However, this specific action of BL can be demonstrated in hypocotyl growth of mustard seedlings only up to 5 days after sowing (25°C). With older seedlings control of hypocotyl growth seems to be exerted exclusively via phytochrome. Regarding the far-red light dependent “high irradiance reaction” (FR-HIR) it was found that it plays a dominant role in growth of mustard only during a relatively short period. It tends to disappear in favor of a RL-HIR between 3 and 4 days after sowing. It is concluded that the seedling exhibits a largely endogenous temporal pattern of responsiveness to light. Phototropism of the mustard seedling can be elicited by low fluence rates (< 1 mW m^?2) of unilateral BL. This same light has no effect on straight growth. It is concluded that BL-dependent phototropic growth response of a hypocotyl and the effect of BL on longitudinal growth of the hypocotyl are unrelated phenomena.     

PHYSICAL STRUCTURE AND PHASE PROPERTIES OF AQUEOUS SYSTEMS OF LIPIDS FROM RYE AND TRITICALE IN RELATION TO WHEAT LIPIDS

In connection with studies of technical functionality of lipids in cereals, the aqueous systems of lipids from rye and tri-ticale flour are described and compared to different wheat culti-vars. Rye lipids give a lamellar liquid-crystalline phase with very small ordered regions, and this phase is continuously changed into an L2-phase with increasing water content. Triticale lipids exhibit phase equilibria in between lipids of wheat and of rye. Evidence is given for a significant role of the lamellar liquid--crystalline phase with regard to technical functionality when the cereal flour is worked in water to give a dough.     

氢键吸附树脂的合成及高纯度沙棘叶黄酮的制备

针对黄酮分子的酚羟基结构特点,有目的地选择了4种结构不同的商品化树脂,考察了它们对沙棘叶中黄酮类有效成分的吸附能力和吸附选择性.在此基础上优化了树脂结构设计方案,合成了具有氨基功能基、可形成氢键作用、疏水性可调变的大孔吸附树脂.以沙棘叶粗提物为原料,考察了树脂骨架疏水性、功能基间隔臂长短等对树脂纯化效果的影响规律.研究结果表明,当吸附发生在水体系中,一定强度的疏水性作用是树脂与吸附质之间形成氢键的必要条件,对于尺寸较大的黄酮分子,氢键功能基的间隔臂长短也显著影响了树脂对它的吸附能力.最后,我们选择了疏水性和氢键功能基间隔臂长短适宜的XM20-2树脂,对吸附和洗脱条件进行了优化,将其用于沙棘叶粗提物中黄酮类有效成分的进一步纯化,可将黄酮纯度从粗提物中的10.4%提高到50%以上,且树脂具有很好的重复使用性.     

BEHAVIOR OF ANIONIC SURFACTANT MICELLES IN THE PRESENCE OF Al3+ AND Ca2+

The estimation of the C-potential of ionic surfactant micelles may be useful for the study of adsorption of solutes onto the micellar surface, which causes a reduction of the net electrostatic charge. This work presents results on the variation of ζ-potential of alkylsulfate and fatty carboxylate micelles with the bulk concentrations of Al³⁺ and Ca²⁺ cations. Combined with results from the literature about the effect of micellar surfactant concentration on reducing surfactant precipitation in the presence of polyvalent cations, these allow to conclude that micelles of anionic surfactants will have a higher chance of electroneutralization of their surface charge by adsorbing cations if the end functional group of the surfactant is smaller.     

FORMATION OF AGGREGATES OF TRYPTIC FRAGMENTS DERIVED FROM THE CARBOXYL- TERMINAL HALF OF PEA PHYTOCHROME and LOCALIZATION OF THE SITE OF CONTACT BETWEEN THE FRAGMENTS BY AMINO-TERMINAL AMINO ACID SEQUENCE ANALYSIS*

Limited trypsinization of large pea (Pisum sativum cv. Alaska) phytochrome and subsequent size-exclusion chromatography (SEC) in 0.1 M Na phosphate, pH 7.8, yielded a high-molecular-mass aggregate of tryptic fragments of phytochrome. Further SEC in 0.1 M Tris-HCl, pH 7.5, plus various concentrations of NaSCN, indicated that the tryptic-fragment complex contained an aggregate of 7 fragments of molecular mass from 38 to 55 kDa. The amino-terminal sequence of each fragment was determined from the samples electroblotted from sodium dodecylsulfate polyacrylamide gels onto polyvinylidene difluoride membranes, in order to localize the various fragments on the phytochrome polypeptide chain. All of the 7 fragments in the aggregate were found to be derived from the carboxyl-terminal half of phytochrome. A portion of the polypeptide chain (from Ala-752 to Arg-1000) common to all the tryptic fragments has been assigned as the site(s) of contact of the fragments. The tryptic-fragment complex, as well as large phytochrome itself, has been shown by SEC to dissociate to monomers in 2 M NaSCN. The result indicates that the main force involved in maintaining the complex and in contacts between monomers of phytochrome is non-ionic in nature. Relationship between the contact site(s) of the tryptic-fragment complex and large phytochrome monomer is discussed.     

H3PO4改性PS-EDTA树脂对水相中Cu2+、Zn2+和Cd2+的吸附性能研究

大孔氯甲基化聚苯乙烯小球先后与乙二胺、2-氯乙酸反应得EDTA型螯合树脂(PS-EDTA),再用磷酸在室温处理得PS-EDTA/P树脂。PS-EDTA/P树脂被用于水相中Cu2+、Zn2+和Cd2+的吸附净化处理,探讨了溶液的pH值、初始金属离子浓度、时间、温度等因素对吸附性能的影响,并研究了其对重金属离子的吸附动力学和热力学。结果表明,PS-EDTA/P树脂对Cu2+和Zn2+的吸附符合Langmuir等温式、对Cd2+的吸附符合Freundlich等温式,准二级吸附动力学方程能够很好地描述3种金属离子在树脂上的吸附动力学行为。同时,PS-EDTA/P树脂对重金属吸附的热力学参数表明,PS-EDTA/P树脂对Cu2+、Zn2+和Cd2+的吸附是一个自发的、吸热的过程。已吸附Cu2+、Zn2+和Cd2+的树脂可以用0.1mol/L HCl解吸,解吸后的树脂对Cu2+、Zn2+和Cd2+仍具有较高的吸附量。     

硫酸浸取锂云母后Rb~+和Cs~+的富集与分离

将质量比为1:2.5的锂云母矿和40%的硫酸在120℃下回流反应8h,用两倍反应液体积的水浸取过夜,得到浸取液,再通过自制的磷钨酸铵/二氧化硅(AWP/SiO2)无机离子交换剂对Rb+和Cs+进行富集。由静态吸附实验可知,AWP/SiO2对Rb+和Cs+有很好的选择性,而对其它离子基本不吸附,动态吸附过程考察了离子交换剂的使用量和负载量对Rb+和Cs+的吸附效果的影响;最后分别用不同浓度的(NH4)2SO4洗脱Rb+和Cs+,洗脱率分别为105.04%和90.63%;实验结果表明:AWP/SiO2这种无机离子交换材料能够很好地富集Rb+和Cs+,并且采用合适的洗脱剂很容易将Rb+和Cs+分离。