Gene sequence for the 9 kDa component of Photosystem II from the cyanobacterium Phormidium laminosum indicates similarities between cyanobacterial and other leader sequences

Summary A 9 kDa polypeptide which is loosely attached to the inner surface of the thylakoid membrane and is important for the oxygen-evolving activity of Photosystem II in the thermophilic cyanobacterium Phormidium laminosum has been purified, a partial amino acid sequence obtained and its gene cloned and sequenced. The derived amino acid sequence indicates that the 9 kDa polypeptide is initially synthesised with an N-terminal leader sequence of 44 amino acids to direct it across the thylakoid membrane. The leader sequence consists of a positively charged N-terminal region, a long hydrophobic region and a typical cleavage site. These features have analogous counterparts in the thylakoid-transfer domain of lumenal polypeptides from chloroplasts of higher plants. These findings support the view of the proposed function of this domain in the two-stage processing model for import of lumenal, nuclear-encoded polypeptides. In addition, there is striking primary sequence homology between the leader sequences of the 9 kDa polypeptide and those of alkaline phosphatase (from the periplasmic space of Escherichia coli) and, particularly in the region of the cleavage site, the 16 kDa polypeptide of the oxygen-evolving apparatus in the thylakoid lumen of spinach chloroplasts.     

Immunogold localization of acyl carrier protein in plants and Escherichia coli: Evidence for membrane association in plants

Immunogold labelling was used to study the distribution of acyl carrier protein (ACP) in Escherichia coli and a variety of plant tissues. In E. coli, ACP is distributed throughout the cytoplasm, confirming the observation of S. Jackowski et al. (1985, J. Bacteriol., 162, 5–8_. In the mesocarp of Avocado (Persea americana) and maturing seeds of oil-seed rape (Brassica napus cv. Jet Neuf), over 95% of the ACP is localised to plastids. The protein is almost exclusively located in the chloroplasts of leaf material from oil-seed rape. Approximately 80% of the gold particles associated with the ACP were further localized to the thylakoid membrane of the chloroplast. Since acetyl-CoA carboxylase has been reported to be localized to the thylakoid membrane (C.G. Kannangara and C.J. Jensen, 1975, Eur. J. Biochem., 54, 25–30), these results are consistent with the view that the two sequential enzymes in fatty-acid synthesis are in close spacial proximity.Abbreviations ACC acetyl CoA carboxylase - ACP acyl carrier protein - FAS fatty-acid synthetase     

Inhibition of the transthylakoid gradient of electrochemical proton potential by the local anesthetic dibucaine

The effects of the local anesthetic dibucaine on coupling between electron transport and ATP synthesis-hydrolysis by the coupling-factor complex (CF₀CF₁ ATPase) were investigated in thylakoid membranes from Spinacia oleracea L. cv. Monatol. Evidence is presented that inhibition of ATP synthesis was produced by a specific uncoupling mechanism which was based on dibucaine-membrane surface interactions rather than on the interaction of dibucaine with the ATPase complex. Dibucaine reduced the osmotic space of thylakoid vesicles. At low pH of the medium it stimulated ATP hydrolysis beyond the rates obtained with optimum concentrations of ‘classical’ uncouplers. After addition of dibucaine, there was displacement of membrane-bound Mg²⁺ and strong thylakoid stacking in the presence of only low Mg²⁺ concentrations. Inhibition of ATP synthesis and transmembrane pH gradient increased with medium pH. Hydrolysis of ATP by isolated CF₁ and the CF₀CF₁ complex was only slightly affected by dibucaine. The data are discussed assuming the involvement of localized proton channels on the membrane surface in protonic coupling of electron transport and ATP synthesis. A hypothesis for the mechanisms of action of local anesthetics at the thylakoid membrane is presented.     

Degradation of the 32-kilodalton thylakoid-membrane polypeptide of Chlamydomonas reinhardi Y-1

Isolated thylakoid membranes of Chlamydomonas reinhardi Y-1 with the 32-kDa polypeptide either radioactively labelled or unlabelled were incubated in vitro under various conditions in order to gain information about the degradation of the 32-kDa polypeptide. The degradation was higher at pH 6 compared with pH 7 and pH 8 and exhibited a temperature maximum between 20° C and 25° C (pH 6, pH 8). A light-dependent part of the total degradation was linearly dependent on white light of energy fluence rate between 1 and 20 mW·cm^-2 at 25° C and leveled out at higher fluence rates. The degradation in light was only slightly stimulated by ATP but was reduced by 3-(3-4-dichlorophenyl)-1,1-dimethylurea. Adenosine-5-diphosphate and heparin (2.7 mM and 200 g per 100 l, respectively) known to inhibit kinases, caused a 50% decrease in degradation indicating that a phosphorylation step is involved in degradating the 32-kDa polypeptide. Out of various inhibitors specific for different types of proteases, only those for thiol- and endoproteases showed intense effects. These results point to a proteolytic degradation of the 32-kDa polypetide by a thylakoid-membrane-bound thiol-endoprotease. Its activity yields soluble breakdown products with relative molecular masses (M_rs) of 23, 16.5, 11.3 and 10.7 kDa, and these are accumulated in the in-vitro system. Partial proteolytic digestion of thylakoids with Staphylococcus aureus V8 protease results in at least two labelled breakdown products (M_rs 23, and 16.5 kDa). It is assumed that cleaving at identical amino-acid residues of the 32-kDa polypeptide by the thylakoid-membrane-bound thiolendoprotease and the V8 protease results in these two breakdown products. They are derived from subsequent cleavage at amino-acid residues 60–242 and 60–189 according to the deduced protein sequence (Erickson et al. 1984, EMBO J. 3, 2753–2762).Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea (diuron) - LDS-PAGE lithiumdodecyl sulphate-polyacrylamide gel electrophoresis - M apparent molecular mass - PSII photosystem II - TCA trichloroacetic acid - Tris 2-amino-2-(hydroxymethyl)-1,3-propanediol     

Purification and characterization of thylakoid-bound Mn-superoxide dismutase in spinach chloroplasts

Thylakoid-bound superoxide dismutase (SOD; EC 1.15.1.1) was solubilized by Triton X-100 from spinach and purified to a homogeneous state. The molecular weight of thylakoid-bound SOD was 52000; the enzyme was composed of two equal subunits. Its activity was not sensitive to cyanide and hydrogen peroxide, and the isolated SOD contained Mn, but neither Fe nor Cu. Thus, the thylakoid-bound SOD is a Mn-containing enzyme. The subunit molecular weight of thylakoid Mn-SOD is the highest among Mn-SODs isolated so far, a fact which might reflect its binding to the membranes.     

Effects of physical and chemical treatments on chloroplast manganese. NMR and ESR studies

Measurements were made of the water proton relaxation rate (T^?1₂ = R₂), electron spin resonance (ESR) six-line signal of ‘free’ Mn²⁺, and O₂-evolution activity in thylakoid membranes from pea leaves. The main results are: (1) Aging of thylakoids at 35°C causes a parallel decrease in O₂-evolution activity, in R₂ and in the content of bound Mn, suggesting that R₂ may be related to the loosely bound Mn involved in O₂ evolution. (2) Treatment of thylakoids with tetraphenylboron (TPB) at [TPB] > 2 mM produces a 2-fold increase in R₂, without release of Mn²⁺. The titration curve exhibits three sharp end points. The first end point occurs at a $\text{[}\text{TPB}\text{]}\text{[}\text{chlorophyll}\text{]}$ of 1.25, at which the O₂ evolution is completely inhibited. (3) Treatment of thylakoids with NH₂OH also increases R₂ by nearly 2-fold, either by the reduction of the higher oxidation states of Mn to Mn²⁺ and / or by exposing the Mn to solvent protons. Also, progressive release of bound Mn occurs at [NH₂OH] ≥ 1 mM as shown by an increase increase in the Mn²⁺ ESR signal and a decrease in R₂. (4) Addition of H₂O₂ (0.1–1.0%) to thylakoids causes an enhancement of R₂ similar to that by NH₂OH, but without the release of Mn²⁺. (5) Heat treatment of thylakoids at 40–50°C releases Mn²⁺ and increases R₂. Conversely, pH values of 7 to 4 release Mn²⁺ without changing R₂ while pH values of 7–9 increase R₂ without releasing Mn²⁺. Thus, both high and low pH values as well as the heat treatment cause structural changes enhancing the relaxivity of the bound Mn or of other paramagnetic species.     

Isolation of a brain peptide identical to the intestinal PHI (peptide HI)

The isolation of a brain peptide identical to the intestinal peptide PHI (peptide HI) is described. The peptide was isolated from porcine brain extract using a chemical assay method based on its C-terminal isoleucine amide structure. The complete amino acid sequence of the peptide was found to be: His-Ala-Asp-Gly-Val-Phe-Thr-Ser-Asp-Phe-Ser-Arg-Leu-Leu-Gly-Gln-Leu-Ser-Ala- Lys-Lys-Tyr-Leu-Glu-Ser-Leu-Ile-NH2. This sequence is identical to the intestinal peptide thus demonstrating PHI to be a brain-gut peptide. The role of PHI in the central nervous system as a neurotransmitter or neuromodulator is discussed.     

Changes in composition and function of thylakoid membranes as a result of photosynthetic adaptation of chloroplasts from pea plants grown under different light conditions

The hypothesis that chloroplasts having different light-saturated rates of photosynthesis will have different proportions of the intrinsic thylakoid complexes engaged in light-harvesting and electron transport (Anderson, J.M. (1982) Mol. Cell. Biochem. 46, 161–172) has been tested. Peas were grown in light regimes which varied in light intensity, quality and time of irradiance, and ranged from sunlight through red to blue-enriched light of very low radiation. The electron-transport capacity at saturating light of Photosystem I and Photosystem II of chloroplasts isolated from light-adapted peas was 2-fold and 5–6-fold lower, respectively, in the lowest radiation compared to sunlight. There was a marked increase in the amount of total chlorophyll associated with the main chlorophyll $\text{a}\text{b-}\text{proteins}$ (LHCP¹, LHCP² and LHCP³) and a 2-fold decrease in the core reaction centre complex of Photosystem II (CP a) as the radiation decreased; the $\text{LHCP}{}^{\mathrm{1–3}}\text{CP}$ a ratio changed from 3.5 to 9.0. The amount of chlorophyll associated with Photosystem I varied from 34% in sunlight to 27% in the lowest radiation, but the antenna size of Photosystem I was not markedly different; there was a 2-fold decrease in the amount of cytochrome f on a chlorophyll basis, which partly accounted for the decreased electron-transport capacity of Photosystem I. Since the increases or decreases in the levels of each of the components correlated with decreasing radiation, it is clear that the light-adaptation of both light-harvesting and electron-transport components is indeed closely co-ordinated.     

蓝藻藻胆体与类囊体膜之间光能传递的研究

从嗜热蓝藻优雅粘囊藻（Ｍｙｘｏｓａｒｃｉｎａ ｃｏｎｃｉｎｎａ Ｐｒｉｎｔｚ．）中分离到具有放氧活性的藻胆体－类囊体膜复合物。它的吸收峰位于６８０、６２８、４９０、４３８和４２０ ｎｍ ,在低离子强度（０．１～０．４ ｍ ｏｌ／Ｌ）磷酸缓冲液中的６６４ ｎｍ 荧光发射峰随离子强度的降低而升高,７１８ ｎｍ 荧光发射峰与此相反（７７ 。Ｋ,Ｅｘ＝ ５８０ ｎｍ ）。当把游离的藻胆体和已解离去藻胆体的类囊体膜在蔗糖磷酸缓冲液中重组时,随时间延长（０～６０ ｍ ｉｎ）,７１８ ｎｍ 荧光发射峰逐渐升高,６８５ ｎｍ 荧光发射峰逐渐下降（７７ 。Ｋ,Ｅｘ ＝ ５８０ ｎｍ ）,表明藻胆体与类囊体之间的解离和结合对光能传递的影响