Freeze fracture immunocytochemistry of light-harvesting pigment complexes in a cryptophyte

Summary Immunocytochemical techniques using colloidal gold as the marker have been used to examine the location of the two light harvesting pigment-protein complexes in cryptophyte chloroplasts. A comparison of post-embedding thin section labelling and freeze fracture labelling has been carried out onRhodomonas salina using polyclonal antibodies to a chlorophylla/c ₂ light-harvesting complex, phycoerythrin and the -subunit of phycoerythrin. The effect of different fixation procedures on the intensity of labelling and ac curacy of antigen location have been examined and the effectiveness of uranyl acetate and tannic acid in improving both the preservation of thylakoid structure and labelling density of phycoerythrin has been demonstrated. Freeze fracture labelling gives better spatial res olution of the different antigens than post-embedding labelling, as well as better definition of thylakoid membranes. It confirms the location of phycoerythrin in the thylakoid lumen and the location of the chlorophylla/c ₂ LHC in both appressed and unappressed thylakoid membranes.Abbreviations PE phycoerythrin - chl chlorophyll - LHC light-har-vesting complex     

Localization of 32 000 dalton chloroplast protein pools in thylakoids: Significance in atrazine binding

The location of the 32 kilodalton (kD) polypeptide which controls triazine binding has been investigated in Chlamydomonas reinhardi. By radioactive pulse labelling, chase and photoaffinity labelling experiments two pools of the 32 kD polypeptide were found. One is located in the unstacked thylakoid membranes. The 32 kD molecules of this pool do not bind to azido-atrazine. The pool size of these 32 kD polypeptides is estimated to account for 30–35% of total 32 kD polypeptides. The 32 kD polypeptides of this pool are transferred to the stacked membranes where they are integrated within active photosystem II (PS II) complexes. Only those 32 kD polypeptides which are functionally integrated bind azido-atrazine.     

Mass-spectrometric quantitation of cytokinins in tobacco crown-gall tumours induced by mutated octopine Ti plasmids of Agrobacterium tumefaciens

The levels of the major cytokinins, zeatin, zeatin riboside, zeatin riboside-5-monophosphate and zeatin-7-glucoside were measured in tobacco (Nicotiana tabacum L.) crown-gall tissues carrying insertion and deletion mutations in the T-DNA. Measurements were made by combined gas chromatography-mass spectrometry using selected ion monitoring with ¹⁵N- and ²H-labelled internal standards. The results demonstrate that, relative to wild-type tumour tissue, cytokinin levels are considerably elevated in tissues lacking functional T-DNA auxin-biosynthetic genes. From a detailed analysis of the major cytokinin metabolites it is concluded that a reduction in the extent of cytokinin degradation via N⁶-side-chain cleavage is an important factor leading to increased cytokinin levels in these tissues.Abbreviations IAA indole-3-acetic acid - SIM selected ion monitoring - Z zeatin - [7G]Z zeatin-7-glucoside - [9R]Z zeatin-9-riboside - [9R-5P]Z zeatin riboside-5-monophosphate     

The response of a cytokinin resistant mutant is highly specific and permits a new cytokinin bioassay

We have previously isolated six independent cytokinin-resistant mutants of Nicotiana plumbaginifolia which define three complementation groups, zeal, zea2 and zea3. We report here the characterization of the phenotypic response to cytokinin treatment of the mutant 1–64, belonging to the zeal group, and the result of the study of the specificity of this response. The phenotype of this mutant grown in the presence of cytokinin concentrations higher than 0.1 M is characterized by a hypertrophy of the cotyledons and hypocotyl which results in an increase of plantlet fresh weight. This hypertrophy is correlated to cytokinin concentration in a range between 0.01 to 10 M. The specificity of this response has been verified by using adenine and urea type cytokinins, as well as enantiomers of methylzeatin and methylbenzyladenine which differ widely in their cytokinin activities. We show that the high specificity of the hypertrophic response to cytokinins can be used as a convenient bioassay to screen the cytokinin activity of adenine or urea type molecules.Abbreviations zeatin [6-(4-hydroxy-3-methylbut-trans-2-enylamino)purine] - iP isopentenyladenine [6-(3-methylbut-2-enylamino)purine] - BA benzyladenine [6-(benzylamino)purine] - (R)-(+)-MeZea [(R)--methylzeatin] - (S)-(–)-MeZea [(S)--methylzeatin] - (R)-(+)-MeBA [(R)--methylbenzyladenine] - (S)-(–)-MeBA [(S)--methylbenzyladenine] - CPPU N-(2-chloro-4-pyridyl)-N-phenylurea - thidiazuron N-(1,2,3-thiadiazol-5-pyridyl)-N-phenylurea The authors dedicate this paper to the memory of Jean-Pierre Bourgin, Director of the Laboratoire de Biologie Cellulaire, who died suddenly on October 29, 1994.     

Reconstitution of iron-sulfur center B of Photosystem I damaged by mercuric chloride

Incubation of thylakoid membranes from spinach with low concentrations of mercuric chloride induces the loss of one of the iron-sulfur centers, F_B, in Photosystem I (PS I) and inhibits the electron transfer from PS I to the soluble electron carrier, ferredoxin. Reconstitution of this damaged iron-sulfur center has been carried out by incubating treated thylakoid membranes with exogenous FeCl₃ and Na₂S in the presence of-mercaptoethanol under anaerobic conditions. Low temperature EPR measurements indicate that center F_B is largely restored. Kinetic experiments show that the restored F_B can be photoreduced from P700. However, these reconstituted thylakoid membranes are still incompetent in the photoreduction of ferredoxin and NADP⁺, even though ferredoxin binding to the modified membranes was not impaired, indicating additional changes in the structure of the PS I complex must have occurred.     

Characterization of photosystem II in stroma thylakoid membranes

The functional state of the PS II population localized in the stroma exposed non-appressed thylakoid region was investigated by direct analysis of the PS II content of isolated stroma thylakoid vesicles. This PS II population, possessing an antenna size typical for PS II, was found to have a fully functional oxygen evolving capacity in the presence of an added quinone electron acceptor such as phenyl-p-benzoquinone. The sensitivity to DCMU for this PS II population was the same as for PS II in control thylakoids. However, under more physiological conditions, in the absence of an added quinone acceptor, no oxygen was evolved from stroma thylakoid vesicles and their PS II centers were found to be incapable to pass electrons to PS I and to yield NADPH. By comparison of the effect of a variety of added quinone acceptors with different midpoint potentials, it is concluded that the inability of PS II in the stroma thylakoid membranes to contribute to NADPH formation probably is due to that Q_A of this population is not able to reduce PQ, although it can reduce some artificial acceptors like phenyl-p-benzoquinone. These data give further support to the notion of a discrete PS II population in the non-appressed stroma thylakoid region, PS II, having a higher midpoint potential of Q_A than the PS II population in the appressed thylakoid region, PS II. The physiological significance of a PS II population that does not produce any NADPH is discussed.Abbreviations pBQ p-benzoquinone - Chl chlorophyll - DCBQ 2,6-dichloro-p-benzoquinone - DCIP 2,6-dichloroindophenol - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - DMBQ 2,5-dimethyl-p-benzoquinone - DQ duroquinone(tetramethyl-p-benzoquinone) - FeCN ferricyanide (potassium hexacyanoferrat) - MV methylviologen - NADPH,NADP⁺ reduced or oxidized form of nicotinamide adenine dinucleotide phosphate respectively - PpBQ phenyl-p-benzoquinone - PQ plastoquinone - PS II photosystem II - PS I photosystem I - Q_A primary quinone acceptor of PS II - Q_B secondary quinone acceptor of PS II - E microEinstein     

Calcium binding to the subunit c ofE. coli ATP-synthase and possible functional implications in energy coupling

The 8-kDa subunit c of theE. coli F₀ ATP-synthase proton channel was tested for Ca⁺⁺ binding activity using a⁴⁵Ca⁺⁺ ligand blot assay after transferring the protein from SDS-PAGE gels onto polyvinyl difluoride membranes. The purified subunit c binds⁴⁵Ca⁺⁺ strongly with Ca⁺⁺ binding properties very similar to those of the 8-kDa CF₀ subunit III of choloroplast thylakoid membranes. The N-terminal f-Met carbonyl group seems necessary for Ca⁺⁺ binding capacity, shown by loss of Ca⁺⁺ binding following removal of the formyl group by mild acid treatment. The dicyclohexylcarbodiimide-reactive Asp-61 is not involved in the Ca⁺⁺ binding, shown by Ca⁺⁺ binding being retained in twoE. coli mutants, Asp61Asn and Asp61Gly. The Ca⁺⁺ binding is pH dependent in both theE. coli and thylakoid 8-kDa proteins, being absent at pH 5.0 and rising to a maximum near pH 9.0. A treatment predicted to increase the Ca⁺⁺ binding affinity to its F₀ binding site (chlorpromazine photoaffinity attachment) caused an inhibition of ATP formation driven by a base-to-acid pH jump in whole cells. Inhibition was not observed when the Ca⁺⁺ chelator EGTA was present with the cells during the chlorpromazine photoaffinity treatment. An apparent Ca⁺⁺ binding constant on the site responsible for the UV plus chlorpromazine effect of near 80–100 nM was obtained using an EGTA-Ca⁺⁺ buffer system to control free Ca⁺⁺ concentration during the UV plus chlorpromazine treatment. The data are consistent with the notion that Ca⁺⁺ bound to the periplasimic side of theE. coli F₀ proton channel can block H⁺ entry into the channel. A similar effect occurs in thylakoid membranes, but the Ca⁺⁺ binding site is on the lumen side of the thylakoid, where Ca⁺⁺ binding can modulate acid-base jump ATP formation. The Ca⁺⁺ binding to the F₀ and CF₀ complexes is consistent with a pH-dependent gating mechanism for control of H⁺ ion flux across the opening of the H⁺ channel.This work was supported in part by grants from the Department of Energy and the U.S. Department of Agriculture.On leave from the Institute of Soil Science and Photosynthesis, Russian Academy of Science, Pushchino, Russia.     

Effect of heptane-extraction on the stability of subunit organization of photosystem I reaction center complexes

Treatment of lyophilized thylakoid membranes of the thermophilic cyanobacterium Synechococcus sp. with n-heptane for 6 h resulted in marked changes in the pattern of photosystem I reaction center complexes resolved by sodium dodecylsulfate-polyacrylamide gel electrophoresis. CP1-a, which consists of two large subunits and three small subunits, was a major chlorophyll-containing band resolved from the lyophilized thylakoid membranes, whereas the heptane-extracted membranes produced mainly CP1-e which totally lacks the small subunits. Electron transport from the primary donor P700 to the secondary acceptor P430 was not affected by the heptane-extraction of the membranes. The heptane-treatment removed 97% of -carotene present in the membranes, whereas all chlorophyll a, a major part of xanthophylls, more than a half of phylloquinone and one third of plastoquinone remained unextracted. The data suggest that -carotene has an important structural effect to stabilize the subunit organization of photosystem I reaction center complexes but is not essential for the early photochemical events of photosystem I.Abbreviations SDS sodium dodecylsulfate - PS photosystem     

Comparative shotgun proteomic analysis of Clostridium acetobutylicum from butanol fermentation using glucose and xylose

Background

Cytokinin is a plant hormone that plays a crucial role in several processes of plant growth and development. In recent years, major breakthroughs have been achieved in the elucidation of the metabolism, the signal perception and transduction, as well as the biological functions of cytokinin. An important activity of cytokinin is the involvement in chloroplast development and function. Although this biological function has already been known for 50 years, the exact mechanisms remain elusive.

Results

To elucidate the effects of altered endogenous cytokinin content on the structure and function of the chloroplasts, chloroplast subfractions (stroma and thylakoids) from transgenic Pssu-ipt and 35S:CKX1 tobacco (Nicotiana tabacum) plants with, respectively, elevated and reduced endogenous cytokinin content were analysed using two different 2-DE approaches. Firstly, thykaloids were analysed by blue-native polyacrylamide gel electrophoresis followed by SDS-PAGE (BN/SDS-PAGE). Image analysis of the gel spot pattern thus obtained from thylakoids showed no substantial differences between wild-type and transgenic tobacco plants. Secondly, a quantitative DIGE analysis of CHAPS soluble proteins derived from chloroplast subfractions indicated significant gel spot abundance differences in the stroma fraction. Upon identification by MALDI-TOF/TOF mass spectrometry, these proteins could be assigned to the Calvin-Benson cycle and photoprotective mechanisms.

Conclusion

Taken together, presented proteomic data reveal that the constitutively altered cytokinin status of transgenic plants does not result in any qualitative changes in either stroma proteins or protein complexes of thylakoid membranes of fully developed chloroplasts, while few but significant quantitative differences are observed in stroma proteins.     

The effect of auxin on cytokinin levels and metabolism in transgenic tobacco tissue expressing an ipt gene

The ipt gene from the T-DNA of Agrobacterium tumefaciens was transferred to tobacco (Nicotiana tabacum L.) in order to study the control which auxin appears to exert over levels of cytokinin generated by expression of this gene. The transgenic tissues contained elevated levels of cytokinins, exhibited cytokinin and auxin autonomy and grew as shooty calli on hormone-free media. Addition of 1-naphthylacetic acid to this culture medium reduced the total level of cytokinins by 84% while 6-benzylaminopurine elevated the cytokinin level when added to media containing auxin. The cytokinins in the transgenic tissue were labelled with ³H and auxin was found to promote conversion of zeatin-type cytokinins to ³H-labelled adenine derivatives. When the very rapid metabolism of exogenous [³H]zeatin riboside was suppressed by a phenylurea derivative, a noncompetitive inhibitor of cytokinin oxidase, auxin promoted metabolism to adenine-type compounds. Since these results indicated that auxin promoted cytokinin oxidase activity in the transformed tissue, this enzyme was purified from the tobacco tissue cultures. Auxin did not increase the level of the enzyme per unit tissue protein, but did enhance the activity of the enzyme in vitro and promoted the activity of both glycosylated and non-glycosylated forms. This enhancement could contribute to the decrease in cytokinin level induced by auxin. Studies of cytokinin biosynthesis in the transgenic tissues indicated that trans-hydroxylation of isopentenyladenine-type cytokinins to yield zeatin-type cytokinins occurred principally at the nucleotide level.Abbreviations Ade adenine - Ados adenosine - BA 6-benzylaminopurine - C control - Con A concanavallin A - CP cellulose phosphate - IPT isopentenyl transferase - NAA 1-naphthylacetic acid - NP normal phase - NPPU N-(3-nitrophenyl)-N-phenylurea - RIA radioimmunoassay - RP reversed phase We wish to thank Dr. J. Zwar for supplying phenylurea derivitives.     

Sequence analysis of photoaffinity-labelled peptides derived by proteolysis of photosystem-2 reaction centres from thylakoid membranes treated with [14C]azidoatrazine.

Photosystem-2 reaction centres were prepared from pea thylakoid membranes that had been photoaffinity labelled with [14C]-azidoatrazine (2-azido-4-ethylamino-6-isopropylamino-s-triazine), a derivative of the herbicide atrazine which binds to the secondary plastoquinone electron-acceptor site of photosystem 2. SDS/PAGE of the 14C-labelled reaction centres followed by fluorography revealed photoaffinity-labelled proteins of apparent molecular masses 30 kDa and 55 kDa, which corresponded to the D1 polypeptide and to an SDS-stable heterodimer of the D1 and D2 polypeptides, respectively. To obtain sequence information on the site of photoaffinity labelling, an 8-kDa photoaffinity-labelled peptide, generated by proteolysis of the reaction-centre material with trypsin, was isolated and purified to apparent homogeneity using reverse-phase and size-exclusion HPLC techniques. The amino terminus of the photoaffinity-labelled peptide was determined to be Leu-Gly-Met-Arg-Pro-Xaa-Ile-Ala-Val-Ala-Tyr by Edman sequencing. This corresponds to the amino terminus of a predicted tryptic peptide of D1 and confirms that azidoatrazine photolabels the D1 polypeptide of photosystem 2 in the region Leu137-Arg225. Chymotrypsin/trypsin digestion of photoaffinity-labelled reaction centres followed by reverse-phase HPLC was used to isolate a smaller photoaffinity-labelled peptide. On Edman sequencing, Ser-Ala were identified as the first two residues and 14C was released on the third cycle, after which further degradation was blocked. The two potential peptide fragments with Ser-Ala at the amino terminus in the region Leu137-Arg225 are Ser148-Ala-Pro and Ser212-Ala-Met. Proline is an unlikely target for reaction with the nitrene of the photoactivated azidoatrazine, and the data are thus consistent with Met214 as the site of photoaffinity labelling on D1 when thylakoid membranes are illuminated with ultraviolet irradiation in the presence of [14C]azidoatrazine.     

Immuno-gold localization of α-L-arabinofuranosyl residues in pollen tubes of Nicotiana alata Link et otto

Immuno-gold labelling using a monoclonal antibody (PCBC3) with a primary specificity for -L-arabinofuranosyl residues was used to locate these residues in pollen tubes of Nicotiana alata grown in vivo. The antibody bound to the outer fibrillar layer of the pollen-tube wall: the inner, non-fibrillar wall layer was not labelled. Cytoplasmic vesicles (0.2 m diameter) were also labelled. The antibody may bind to an arabinan in the pollen-tube wall.     

Comparison of photosystem II complexes isolated from tobacco and two chlorophyll deficient tobacco mutants

A comparative study of photosystem II complexes isolated from tobacco (Nicotiana tabacum L. cv. John William's Broadleaf) which contains normal stacked thylakoid membranes, and from two chlorophyll deficient tobacco mutants (Su/su and Su/su var. Aurea) which have low stacked grana or essentially unstacked thylakoids with occasional membrane doublings, has been carried out. The corresponding photosystem II complexes had an O₂ evolving activity ranging from 290 (for the wild type) to 1100 mol O₂ x mg chlorophyll^-1 x h^-1 (for the mutant Su/su var. Aurea). The reduced photosynthetic unit size was also obvious in the mangenese and cytochrome_b559 content. The photosystem II complex from the wild type contained 4 Mn and 1 cytochrome_b559 per 200 to 280 chlorophylls, while the corresponding value for the mutant Su/su var. Aurea was 4 Mn and 1 cytochrome_b559 per 35 to 60 chlorophylls. We have also examined the polypeptide composition and show that the photosystem II complex from the wild type consisted of polypeptides of 48, 42, 33, 32, 30, 28, 23, 21, 18, 16 and 10 kDa, while the mutant complex mainly contained the polypeptides of 48, 42, 33, 32, 30, 28 and 10 kDa. In the mutant photosystem II complex the light-harvesting chlorophyll protein (peptide of 28 kDa) was reduced by a factor of 5 to 6 as compared to the wild type. With respect to the peptide composition and the photosynthetic unit size, the Triton-solubilized photosystem II complex from the mutant Su/su var. Aurea was very similar to O₂ evolving photosystem II reaction center core complexes.Abbreviations PS photosystem - chl chlorophyll - LHCP light-harvesting chlorophyll a/b protein complex     

A Two-Dimensional Separation of Proteins from Chloroplast Thylakoids and Other Membranes

• 1 A two-dimensional, highly reproducible, analytical separation procedure for Triton/urea extractable proteins, using isoelectric focusing in the first dimension and gelelectrophoresis with sodium dodecylsulfate (SDS) in the second, is described. The separation of erythrocyte membrane proteins compares the reliability with that of published procedures.
• 2 From the thylakoid membranes of the green alga Chlamydomonas reinhardii and of spinach, two-dimensional maps of the Triton/urea extractable proteins were established, containing 58 and 33 peptide spots, respectively, which were characterized by their molecular weights and apparent isoelectric points. In Chlamydomonas some of the spots could be attributed to the photosystem I and II particles. A few major spots in the maps of the thylakoid proteins from the two non-related plants were found at the same relative positions.
• 3 A one-dimensional electrophoretic comparison of the SDS and the Triton/urea-extractable proteins showed that in the Triton/urea extract of thylakoid membranes some proteins of the photosystem II region, and in that of erythrocyte membranes, some components of the band 3 and 5 region are reduced or missing.

     

Viral membrane penetration: lytic activity of a nodaviral fusion peptide

The auto-cleavage product from the C-terminal part of the capsid protein of the flock house virus, namely the ₁ peptide, was used as a model peptide to characterize the initial steps of viral membrane penetration. Monolayers at the air–water interface were used to investigate the phase behaviour of ternary lipid–peptide mixtures, whereas solid-supported membranes were used to visualize the lytic activity of the ₁ peptide. 1,2-Dipalmitoyl-sn-glycero-phospatidylcholine/1,2-dipalmitoyl-sn-glycero-phospatidylserine (4:1) membranes were used as negatively charged model membranes. By means of film balance techniques lipid/peptide discrimination was found resulting in a lipid-rich and a peptide-rich phase. Quartz crystal microbalance and scanning force microscopy experiments led to the conclusion of a detergent-like mechanism of the ₁ peptide resulting in mixed lipid–peptide micelles with a molar ratio of 2.8:1. A monolayer adsorption with an ongoing lysis of membranes was found with ₁ peptide molecules interacting at membrane defects.     

Interaction between Phycobilisomes from <Emphasis Type="Italic">Porphyridium cruentum</Emphasis> and Thylakoid Membranes from <Emphasis Type="Italic">Gymnodinium</Emphasis> sp. or Spinach

Thylakoid membranes were isolated from Gymnodinium sp. and spinach, whereas the phycobilisomes were isolated and purified from red alga Porphyridium cruentum. The absorption spectra of the purified phycobilisomes (PBS) showed three peaks at 548, 564, and 624 nm, respectively, and the ratio of the fluorescence intensity at the ₆₈₀ ^em to that at ₅₈₀ ^em was about 7.3. All these results demonstrated that the purified PBS remained intact. The thylakoid membranes were incubated with the purified phycobilisomes, and the thylakoid membranes, which harbored the phycobilisomes, were purified by sucrose density gradient centrifugation. Meantime, the conjugates of phycobilisome-thylakoid membranes were constructed using glutaraldehyde and further purified. Their characteristics were studied by measuring the absorption spectra and fluorescence emission spectra. The results showed that the phycobilisomes from Porphyridium cruentum can attach to the thylakoid membranes from Gymnodinium sp. and spinach without covalent cross-linking, but the excited energy transfer did not occur. The conjugate of phycobilisome-thylakoid membranes with covalent cross-linking exhibits the excited energy transfer between the phycobilisomes and the thylakoid membranes.__________From Fiziologiya Rastenii, Vol. 52, No. 3, 2005, pp. 331–337.Original English Text Copyright © 2005 by Zhu, Wang, Tseng.This article was submitted by the authors in English.     

Synthesis of RGD amphiphilic cyclic peptide as fibrinogen or fibronectin antagonist

This paper investigates the effect of the incorporation of adiazaethylene glycol derivative (Deg, 2) into a cyclic peptide containingthe tripeptide sequence Arg-Gly-Asp (RGD). This motif is a common structuralelement of many integrin ligands. The synthesis of cyclo-(Arg-Gly-Asp-Deg)(7) has been accomplished in solution using standard peptide chemistry. Theintent was to improve the bioavailability of this new RGD cyclic peptide,which is shown to interact with _IIb33or _{5 1} receptors. A preliminary stepfor the conformational study of peptide 7 was done in DMSO-d₆using nuclear magnetic resonance spectroscopy techniques.     

Concerning the presence of the cytokinin,N 6-(Δ2-isopentnyl) adenine,in cultures of Corynebacterium fascians

Summary Corynebacterium fascians causes a fasciation disease in a number of dicotyledons and this disease appears to be caused by compounds with cytokinin activity elaborated by the infecting bacteria. Extractions of C. fascians in late logarithmic phase under conditions where the pH never falls below 7.0 yield about 2 g/l of N ⁶-(², a potent cytokinin. If a mild acidification step is included in the extraction procedure the yield increases to about 12 g/l. This is due to release of N ⁶-(²-isopentenyl)adenine from C. fascians tRNA during the extraction procedure. In terms of total cytokinin activity present in C. fascians cultures, N ⁶-(²-isopentenyl)adenine appears to be a minor component.     

Demonstration of distinct agonist and antagonist conformations of the A1 adenosine receptor

A1 adenosine receptor-binding subunits can be visualized using high affinity antagonist and agonist photoaffinity radioligands. In the present study, we examined whether agonists and antagonists bind to the same receptor-binding subunit and if agonists and antagonists induce different conformational states of the receptor in intact membranes. It was demonstrated that several agonist and antagonist photoaffinity receptor-binding subunit. When the agonist and antagonist photoaffinity labeled peptides were denatured and subjected to partial peptide map analysis using a two-dimensional gel electrophoresis system similar peptide fragments were generated from each specifically labeled protein. This suggests that both classes of ligand label and incorporate into the same binding subunit. Proteolytic digestions of agonist- and antagonist-occupied receptors in native intact membranes revealed distinct and different peptide fragments depending on whether the ligand was an agonist or an antagonist. Manipulation of incubation conditions to perturb ligand-receptor interactions alter the pattern of peptide fragments generated with each specific protease. These data suggest that agonist and antagonist photoaffinity probes interact with an incorporate into the same binding subunit but that agonist binding is associated with a unique and detectable receptor conformation.     

Protein import pathways in ‘complex’ chloroplasts derived from secondary endosymbiosis involving a red algal ancestor

Heterokont algae such as diatoms and the raphidophyte Heterosigma akashiwo and peridinin-containing dinoflagellates such as Heterocapsa triquetra originally acquired their chloroplasts via secondary endosymbiosis involving a red algal endosymbiont and a eukaryote host, resulting in complex chloroplasts surrounded by four and three membranes, respectively. The precursors of both heterokont and dinoflagellate chloroplast-targeted proteins are first inserted into the ER with removal of an N-terminal signal peptide, but how they traverse the remaining membranes is unclear. Using a nuclear-encoded thylakoid lumen protein, PsbO, from the heterokont alga Heterosigma akashiwo, the dinoflagellate Heterocapsa triquetra and the red alga Porphyra yezoensis we show that precursors without the ER signal peptide can be imported into pea chloroplasts. In the case of the H. triquetra and Porphyra PsbO, the precursors were processed to their predicted mature size and localized within the thylakoid lumen, using the Sec-dependent pathway. We report for the first time a stromal processing peptidase (SPP) activity from an alga of the red lineage. The enzyme processes the Heterosigma PsbO precursor at a single site and appears to have different substrate and reaction specificities from the plant SPP. In spite of the fact that we could not find convincing homologs of the plant chloroplast import machinery in heterokont (diatom) and red algal genomes, it is clear that these three very different lines of algae use similar mechanisms to import chloroplast precursors.