Organization of the pigment molecules in the chlorophyll a/b/c containing alga Mantoniella squamata (Prasinophyceae) studied by means of absorption, circular and linear dichroism spectroscopy

In order to obtain information on the organization of the pigment molecules in chlorophyll (Chl) a/b/c-containing organisms, we have carried out circular dichroism (CD), linear dichroism (LD) and absorption spectroscopic measurements on intact cells, isolated thylakoids and purified light-harvesting complexes (LHCs) of the prasinophycean alga Mantoniella squamata. The CD spectra of the intact cells and isolated thylakoids were predominated by the excitonic bands of the Chl a/b/c LHC. However, some anomalous bands indicated the existence of chiral macrodomains, which could be correlated with the multilayered membrane system in the intact cells. In the red, the thylakoid membranes and the LHC exhibited a well-discernible CD band originating from Chl c, but otherwise the CD spectra were similar to that of non-aggregated LHC II, the main Chl a/b LHC in higher plants. In the Soret region, however, an unusually intense (+) 441 nm band was observed, which was accompanied by negative bands between 465 and 510 nm. It is proposed that these bands originate from intense excitonic interactions between Chl a and carotenoid molecules. LD measurements revealed that the Q(Y) dipoles of Chl a in Mantoniella thylakoids are preferentially oriented in the plane of the membrane, with orientation angles tilting out more at shorter than at longer wavelengths (9 degrees at 677 nm, 20 degrees at 670 nm and 26 degrees at 662 nm); the Q(Y) dipole of Chl c was found to be oriented at 29 degrees with respect to the membrane plane. These data and the LD spectrum of the LHC, apart from the presence of Chl c, suggest an orientation pattern of dipoles similar to those of higher plant thylakoids and LHC II. However, the tendency of the Q(Y) dipoles of Chl b to lie preferentially in the plane of the membrane (23 degrees at 653 nm and 30 degrees at 646 nm) is markedly different from the orientation pattern in higher plant membranes and LHC II. Hence, our CD and LD data show that the molecular organization of the Chl a/b/c LHC, despite evident similarities, differs significantly from that of LHC II.     

Linear dichroism of microalgae, developing thylakoids and isolated pigment-protein complexes in stretched poly(vinyl alcohol) films at 77 K

A variety of unicellular algae, thylakoids from higher plants in different stages of maturity and isolated pigment-protein complexes were oriented in stretched polyvinyl alcohol films. Low temperature linear dichroism (LD) spectra of Chlorella pyrenoidosa and higher plant thylakoids in the films were very similar to those obtained after orientation of similar samples using magnetic or electric fields. Positive LD bands corresponding to Chl a (670) and (682) and negative bands due to Chl a (658) and Chl b(648) were resolved in spectra of the light harvesting Chl a/b protein. Chl b (648) and Chl a (658) and (670) were not seen in the LD spectrum of thylakoids from plants grown in intermittent light, the Chl b-less mutant of barley, Euglena gracilis or the cyanobacteria, Phormidium luridum and Anacystis nidulans, but did appear upon chloroplast maturation in Romaine lettuce and during the greening of etiolated and intermittent light plants. The highly oriented long wavelength Chl a (682) in the light-harvesting complex may represent residual PS II whose peak dichroism is centered at 681 nm. The PS I preparation had a Chl a/b ratio of approx. 6 and the LD spectrum was positive with a maximum at 690-694 nm and a band of lower amplitude at 652 nm. The minor LD band was not observed in PS I preparations from organisms that lack chl b such as the cyanobacteria, intermittent light plants and the Chl b-less mutant of barley. We suggest that the 652 nm band is due to Chl b molecules associated with the antenna of PS I and are distinct from those on the light harvesting complex whose orientation is different. We also conclude that all the Chl a forms are oriented and that the long geometric axes of the pigment-protein complexes, as deduced from the configuration they assume in the stretched films, are axes that normally lie parallel to the plane of the native thylakoid.     

Extracellular exo-polygalacturonase secreted from carrot cell cultures. Its purification and involvement in pectic polymer degradation

Exo-polygalacturonase (exo-PGase, EC 3.2.1.67) activity has been detected in a culture filtrate of cell suspension cultures of carrot ( Daucus carota L. cv. Kintoki). The extracellular exo-PGase was purified to electrophoretic homogeneity using DEAE-Sephadex A-50 ion-exchange chromatography, Sephadex G-150 gel filtration, and preparative polyacrylamide gel electrophoresis (PAGE). The molecular mass of the purified enzyme was calculated to be 48 kDa from Sephadex G-200 gel filtration, and 50 kDa from sodium dodecyl sulfate (SDS)-PAGE after treatment with SDS and 2-mercaptoethanol. The isoelectric point was at pH 6.2. The K_m and V_max values for polygalacturonate (degree of polymerization: 52) were 14.4 μ M and 25.6 μmol (mg protein)⁻¹ h⁻¹, respectively. The optimal activity in McIlvaine's buffer occurred at pH 4.6. The enzyme activity was inhibited by Ba²⁺, Cu²⁺, Mn²⁺ and Hg²⁺. The enzyme was involved in ca 15% hydrolysis of the acidic polymer purified from carrot pectic polysaccharides, and connected with the release of galacturonic acid. Even after an exhaustive reaction the enzyme had, however, little or no effect on cell walls from carrot cell cultures.     

Chlorophyll breakdown in senescent leaves: demonstration of Mg-dechelatase activity

The action of Mg-dechelatase was brought to light by incubating senescent rape cotyledons or chloroplasts under conditions which prevented the oxidative cleavage of chlorophyll-porphyrin. The accumulation of chlorophyllide and pheophorbide taking place under such conditions was considered as a measure of apparent activities of chlorophyllase and dechelatase, respectively. In excised cotyledons metal chelators such as 2,2'-dipyridyl and o -phenanthroline caused a marked accumulation of pheophorbide a , without affecting the apparent activity of chlorophyllase. Treatment of cotyledons with an inhibitor of cytoplasmic protein synthesis d -2-(4-methyl-2,6-dinitroanilino)-N-methyl-propionamide ( d -MDMP) caused a reduced accumulation of pheophorbide a in the presence of dipyridyl, suggesting that the appearance and maintenance of Mg-dechelatase activity in senescent cotyledons requires continuous cytoplasmic protein synthesis. In isolated senescent chloroplasts (gerontoplasts) the cleavage of chlorophyll-porphyrin requires the supplementation with glucose-6-phosphate (Glc6P). Upon the incubation of gerontoplasts in the absence of Glc6P, a conspicuous accumulation of pheophorbide a occurred. Much smaller pools of pheophorbide a were produced when porphyrin cleavage was allowed in the presence of Glc6P. These phenomena were not observed in pre-senescent chloroplasts. In contrast to the apparent Mg-dechelatase activity, chlorophyllase activity did not change in a senescent-specific fashion. The lysis of gerontoplasts by freezing and thawing caused an enhancement of apparent chlorophyllase activity whereas the activity of Mg-dechelatase was lower than in the intact organelles. In the pre-senescent chloroplasts, lysis evoked a small apparent Mg-dechelatase activity, suggesting that in a latent form this enzyme may be present even before the onset of foliar senescence.     

Peroxidase-mediated chlorophyll bleaching in degreening canola (Brassica napus) seeds and its inhibition by sublethal freezing

Peroxidase activity in isolated thylakoids from degreening canola ( Brassica napus cv. Westar) seeds was demonstrated. The enzyme catalyzes the degradation of thylakoid-bound pigments in the presence of H₂O₂ and 2,4-dichlorophenol. Peroxidase activity is related to degreening, with periods of rapid degreening associated with high enzyme activity. Both de novo synthesis and substrate availability appear to control enzyme activity. Peroxidase is initially inhibited and then stimulated by sublethal freezing. Therefore, inhibition of peroxidase activity following sublethal freezing may be responsible, in part, for a failure of the seed to degreen.     

Chloroplast alkaline fructose 1,6-bisphosphatase exists in a membrane-bound form

An alkaline fructose 1,6-bisphosphatase activity associated with soybean (Glycine max cv Beeson) chloroplasts appears to be membrane-bound. The pH optimum of the membrane-associated activity corresponds to that found for activity associated with the stroma. Illumination of washed thylakoids results in an increase in alkaline fructose 1,6-bisphosphatase activity in the absence of any added stromal factors. Exposure to pH 8.0 results in a partial release of enzyme activity from the membrane. The activation status of the enzyme does not appear to alter its association with the membrane.     

Serine hydroxymethyltransferase from spinach leaf mitochondria. Purification and characterization

A mitochondrial serine hydroxymethyltransferase (EC 2.1.2.1) has for the first time been purified close to homogeneity from a photosynthetically active tissue, spinach ( Spinacea oleracea L. cv Viking II) leaves. The specific activity of the enzyme was 7.8 μmol (mg protein)⁻¹ min⁻¹ using L-serine as substrate. The enzyme was stable for at least 8 weeks at 4°C in the presence of folate. The pH optimum was at pH 8.5 where the enzyme had a K_m for L-serine of 0.9 m M . Carboxymethoxylamine was a strong competitive inhibitor with a K₁ of 1.4 μM. An absorption spectrum taken of the enzyme in the presence of glycine and tetrahydrofolate showed a peak at 492 nm, probably originating from a substrate-enzyme complex. The molecular weight obtained by gel filtration was 209 kDa. Sodium dodecyl sulphate-polyacrylamide gel electrophoresis of the purified enzyme showed that the apparent molecular weight of the subunit was 53 kDa, indicating four subunits.     

Probing the events of photoinhibition by altering electron-transport activity and light-harvesting capacity in chloroplast thylakoids

Abstract. The effect of photoinhibition on the activity of photosystem II (PSII) in spinach chloroplasts was investigated. Direct light-induced absorbance change measurements at 320 nm (Δ A ₃₂₀) provided a measure of the PSII charge separation reaction and revealed that photoinhibition prevented the stable photoreduction of the primary quinone acceptor Q_A. Sensitivity to photoinhibition was substantially enhanced by treatment of thylakoids with NH₂OH which extracts manganese from the H₂O-splitting enzyme and prevents electron donation to the reaction centre. Incubation with 3-(3,4,-dichlorophenyl)-1,1-dimethylurea (DCMU) during light exposure did not affect the extent of photoinhibitory damage. The chlorophyll (Chl) b -less chlorina (2 mutant of barley displayed a significantly smaller light-harvesting antenna size of PSII (about 20% of that in wild type chloroplasts) and, simultaneously, a lower sensitivity to photoinhibition. These observations suggest that photoinhibition depends on the amount of light absorbed by PSII and that the process of photoinhibition is accelerated when electron donation to the reaction centre is prevented. It is postulated that the probability of photoinhibition is greater when excitation energy is trapped by P680⁺, the oxidized form of the PSII reaction centre. The results are discussed in terms of the D1/D2 heterodimer which contains the functional PSII components P680, pheophytin, Q_A and Q_B.     

Effects of phospholipase A2 and alkaline pH on photosystem II particles isolated from spinach chloroplasts

An O₂-evolving photosystem II fraction (PS II particles) isolated from spinach ( Spinacia oleracea L.) chloroplasts by Triton X-100 was treated by phospholipase A₂ or by an alkaline pH. Phospholipase A₂ depleted the particles of all phosphatidylcholine and of a part of phosphatidylglycerol containing trans -hexadecenoic acid, and induced a parallel inactivation of the PS II activity. The protein pattern remained similar to that of the control particles. The addition of exogenous polar lipids from thylakoids could not reactivate PS II activity. Treatment of PS II particles by an alkaline pH, known to release the 33, 24 and 18 kdalton polypeptides and to inactivate PS II activity, did not affect the lipid composition. The involvement of lipids in PS II activity is discussed.     

Orientation of pigments in the thylakoid membrane and in the isolated chlorophyll-protein complexes of higher plants. II. Linear dichroism spectra of isolated pigment-protein complexes oriented in polyacrylamide gels at 300 and 100 K

The absorption and linear dichroism (LD) spectra (380–780 nm) of isolated light-harvesting complex (LHC), Photosystem I (PS I), Photosystem II (PS II), as well as intact thylakoids have been determined at 300 and 100 K. The samples were oriented in squeezed polyacrylamide gel. The low-temperature spectra of LHC and PS I present LD signals which are characteristic enough to be recognized in the LD spectrum of thylakoids. Tentative assignments of the various features of the LD spectra to the major photosynthetic pigments are discussed. A shoulder in the low-temperature absorption spectra is observed at about 673 nm in all the systems under investigation. The absence of an associated LD signal suggests that this ubiquitous chlorophyll (Chl) a form is non-dichroic. Furthermore, in the three isolated chlorophyll-protein complexes described in this study the sign of the LD signal indicates that both the Q_y transition of the Chl a and the carotenoid molecules are preferentially oriented parallel to the largest dimension(s) of the particles.     

Isolation and characterization of a microbial Arg/Lys carboxypeptidase, carboxypeptidase F

Carboxypeptidase F was isolated from a fungal strain F-33 and characterized. The enzyme has the ability to release arginine and lysine from the carboxy terminus of peptides, and showed high specific activity against arginine (140 units mg^-1 protein). Optimal temperature and pH for the enzyme reaction were 55°C and pH 8.5, respectively. The enzyme possessed a high thermal stability. Native molecular weight was estimated to be approximately 450000. Enzymatic activity was inhibited by Co²⁺, Cd²⁺, chelating agents and thiol inhibitors.     

Effects of cold on NAD+ kinase activity in winter rape plants

Low temperature (2°C) caused an increase in the activity of NAD⁺ kinase (EC 2.7.1.23) in leaves of winter rape plants ( Brassica napus L. var. oleifera L. cv. Górezański). The enzyme activity markedly increased between day 4 and 11 of plant exposure to cold, then tended to decrease. Changes in activity of NAD⁺ kinase coincided with the previously observed changes in the levels of pyridine nucleotides, NADP(H) (U. Maciejewska and A. Kacperska, Physiol. Plant. 69: 687–691, 1987). As a result of cold treatment, Ca²⁺–calmodulin–dependent and Ca²⁺–calmodulin–independent NAD⁺ kinase activities increased to almost the same extent. It seems therefore, that the cold–induced activation of NAD⁺ kinase does not depend on the Ca²⁺–calmodulin complex.     

Linear dichroism of microalgae,developing thylakoids and isolated pigment-protein complexes in stretched poly (vinyl alcohol) films at 77 K

A variety of unicellular algae, thylakoids from higher plants in different stages of maturity and isolated pigment-protein complexes were oriented in stretched polyvinyl alcohol films. Low temperature linear dichroism (LD) spectra of Chlorella pyrenoidosa and higher plant thylakoids in the films were very similar to those obtained after orientation of similar samples using magnetic or electric fields.Positive LD bands corresponding to Chl a (670) and (682) and negative bands due to Chl a (658) and Chl b (648) were resolved in spectra of the light harvesting Chl a/b protein. Chl b (648) and Chl a (658) and (670) were not seen in the LD spectrum of thylakoids from plants grown in intermittent light, the Chl b-less mutant of barley, Euglena gracilis or the cyanobacteria, Phormidium luridum and Anacystis nidulans, but did appear upon chloroplast maturation in Romaine lettuce and during the greening of etiolated and intermittent light plants. The highly oriented long wavelength Chl a (682) in the light-harvesting complex may represent residual PS II whose peak dichroism is centered at 681 nm. The PS I preparation had a Chl $\text{a}\text{b}$ ratio of approx. 6 and the LD spectrum was positive with a maximum at 690–694 nm and a band of lower amplitude at 652 nm. The minor LD band was not observed in PS I preparations from organisms that lack Chl b such as the cyanobacteria, intermittent light plants and the Chl b-less mutant of barley. We suggest that the 652 nm band is due to Chl b molecules associated with the antenna of PS I and are distinct from those on the light harvesting complex whose orientation is different. We also conclude that all the Chl a forms are oriented and that the long geometric axes of the pigment-protein complexes, as deduced from the configuration they assume in the stretched films, are axes that normally lie parallel to the plane of the native thylakoid.     

Characteristics of β-galactosidase purified from cell suspension cultures of carrot

Five glycosidase activities from cell homogenate of carrot ( Daucus carota L. cv. Kintoki) cell cultures were assayed after extraction successively by phosphate buffer (pH 7.0) and the buffer plus 2 M NaCl. A β-galactosidase (EC 3.2.1.23) was isolated in a highly purified state from the buffer-soluble protein fraction by ammonium sulfate fractionation and chromatography on CM-Sephadex C-50, DEAE-Sephadex A-50 and Sephadex G-200. The molecular weight of this enzyme was ca 104 000 and the isoelectric point was pH 7.8. The optimal activity occurred at pH 4.4 with McIlvaine buffer. The K_m and V_max values were 1.67 m M and 201 units (mg protein)⁻¹, respectively, for p -nitrophenyl β- d -galactopyranoside. The enzyme activity was strongly inhibited by Zn²⁺, Cu²⁺, Hg²⁺ and d -galactono-1,4-lactone. The enzyme acted on the β-1,4-linked galactan prepared from citrus pectin in an exo-fashion. Furthermore, the enzyme was slightly involved in the hydrolysis of the pectic polymer and cell walls purified from carrot cell cultures.     

Effect of low growth temperature on coupling between electron transport and proton flux in Vicia faba thylakoids

Coupling between electron transport and proton flux has been compared in chloroplasts from Vicia faba (cv. Windsor) plants grown at 20 and 5°C. Proton uptake by warm-grown thylakoids was sensitive to external pH and stimulated by micromolar adenine nucleotide above pH 7.0. Electron transport was modulated by pH, adenine nucleotide and energy transfer inhibitors (triphenyltin and Hg²⁺). By contrast, proton uptake by cold-grown thylakoids was generally lower and was insensitive to micromolar ATP. The rate of non-phosphorylating electron flow in cold-grown thylakoids was relatively insensitive to pH and Hg²⁺ and was not modulated by adenine nucleotides or triphenyltin. Stimulation of electron transport by phosphorylating conditions in cold-grown thylakoids was generally lower and insensitive to pH. It is concluded that the control of proton efflux through CF₀-CF₁ differs in thylakoids of V. faba grown at warm and cold temperatures.     

Influence of irradiation quality on photosynthetic pigments, saccharides, nitrate reductase activity, thylakoid organization and growth of Ulva pertusa

A floating green alga Ulva pertusa Kjallman was grown in the laboratory under various irradiations: "white light" (as reference, broad spectral band, WLC), red radiation (600-700 nm, RRC) and blue radiation (400-500 nm, BRC). During 15 d of culture, the specific growth rate of WLC varied highly when compared to BRC and RRC. The contents of chlorophyll (Chl) and proteins, and the nitrate reductase (NR) activity were significantly higher in BRC than in RRC while the content of saccharides was slightly higher in RRC than BRC. U. pertusa in WLC had the highest contents of saccharides, proteins, and Chl, and the highest NR activity. In the WLC, closely arranged well organized thylakoids were seen whereas in the BRC, although the number of thylakoid layers was similar to WLC, they were widely separated from each other. In contrast to this, in the RRC, the thylakoids were less prominent and were also densely covered with ribosomes. This revised version was published online in July 2006 with corrections to the Cover Date.     

Light-induced linear dichroism in photoreversibly photochromic sensor pigments. – VI. Relation between the two pigments of the mycochrome system in Alternaria cichorii

Conidiation in Alternaria cichorii Nattras is reversibly stimulated by near ultraviolet radiation (NUV, ca 313 nm) and inhibited by blue light (ca 450 nm) and seems to be a mycochrome-mediated process. After induction with plane-polarized NUV, blue light polarized perpendicularly to the NUV was more effective in counteracting the induction than was blue light polarized parallel to the NUV. From this the conclusions are drawn that (a) both the blue-absorbing component (presumably a flavo-protein) and the P_NUV of the mycochrome system are membrane-bound and that (b) the transition moment associated with blue light absorption in the presumed flavoprotein forms an angle of at least 53° with the transition moment associated with NUV absorption in P_NUV.     

Alanine aminotransferase in Leptosphaeria michotii. Isolation, properties and cyclic variations of its activity in relation to polypeptide level

Alanine aminotransferase (EC 2.6.1.2) was obtained from the fungus Leptosphaeria michotii (West) Sacc, and enriched 714-fold by a 5-step purification procedure as a dimer of M_r 110000, associated with a polypeptide of M_r 25000. Its isoelectric point was 5.25. The enzyme was active from pH 3.5 to 9.5 with a maximum at pH 7.5. Its specific activity was 6000 nkat (mg protein)⁻¹; the K_m was 6.85 m M for L-alanine and 0.2 m M for 2-oxoglutarate. The enzyme did not show any detectable activity in the presence of L-aspartate, cysteine sulfinate, α-aminobutyrate or cyclic amino acids as substrates. It did not express alanine:glyoxylate aminotransferase activity. Alanine aminotransferase in L. michotii has previously been shown to have an activity rhythm in constant temperature and darkness. The enzyme level was quantified along the activity rhythm by enzyme-linked immunosorbent assay (ELISA), using a monospecific polyclonal antibody against the purified enzyme. The cyclic variations of alanine aminotransferase activity were correlated with cyclic variations in the enzyme level.     

Functional discrimination between Photosystem-II associated chlorophyll a proteins in Zea mays

Three minor Chl a proteins were detected in electrophoretic profiles from wild-type maize thylakoids. The spectral characteristics of these Chl proteins and the apparent molecular weights of their constituent apoproteins suggested that they were associated with the Photosystem-II reaction center. One of these Chl a-proteins, CPa-1, was present in wild-type thylakoids and a photochemically active Photosystem-II particle, but was missing from thylakoids of a mutant-lacking Photosystem-II reaction center. CPa-2, on the other hand, was enriched in mutant thylakoids but was completely missing from the Photosystem-II particles. We conclude that CPa-1 is most likely to contain the photoactive chlorophyll of Photosystem II, while CPa-2 is not required for Photosystem-II activity. The apparent molecular weights of the major CPa-1 and CPa-2 apoproteins were 48 000 and 42 000, respectively. The third minor Chl protein seems most likely to be an electrophoretic variant of CPa-1 and has been designated CPa-11. Seven other Chl proteins were detected in wild-type profiles. Many of these Chl proteins appeared to be oligomers or highly order complexes of LHCP and CP-1.     

Antenna chlorophyll a complexes in mutant and developing barley

The chlorophyll a antenna of photosystems I and II were each isolated after detergent treatment by gel electrophoresis or sucrose gradient centrifugation from a b-less mutant of barley grown in daylight and from wildtype barley developed in intermittent light. We identified each fraction by both its electrophoretic position and PS I activity (P700 content) in the case of the mutant, and by both PS I and PS II activity (DCIP reduction from DPC) in the light-limited plants. The proportion of Chl a in each photosystem was estimated from the amount in each gel or sucrose gradient band, and from addition of the areas under the absorption spectra (650–710 nm) of each fraction to match the spectrum of the solubilized thylakoids. The latter method was possible because the spectrum (77 K) of each fraction was unique; in the mutant about 70% of chlorophyll is associated with PS I and 30% with PS II. In the light-limited plants, the reverse is true with nearly 70% associated with PS II. RESOL analyses of both absorption and fluorescence emission spectra of all isolated fractions indicated an abnormal arrangement of antenna chlorophyll molecules in the light-limited, developing membranes even though their reaction centers are fully functional.Abbreviations DCIP dichlorophenolindophenol - DOC deoxycholate - DPC diphenylcarbazide - DL daylight - ImL intermittent light - LHC light-harvesting Chl a/b protein complex - PAGE polyacrylamide gel electrophoresis DPB-CIW No. 778