Time course localization of immunoglobulin M monoclonal antibody and its fragments in leukemic tumor-bearing mice

Summary In vivo localization of a mouse monoclonal antibody (F₂-10.23 IgM) binding leukemic L 1210 cells was studied in DBA/2 mice bearing an L 1210 tumor. F(ab)₂ fragments were prepared and their specific binding to L 1210 cells was analyzed by flow cytofluorometry. Radiolocalization studies were performed by using ¹²⁵I- or ¹³¹I-labeled IgM monoclonal antibody or its F(ab')₂ fragments to ascertain their capacity to visualize the L 1210 tumor. F(ab)₂ fragments were cleared more rapidly than the whole IgM; the clearance was as fast in healthy as in tumor-bearing mice. The tumor-to-muscle ratio observed 24 h after injection of ¹²⁵I-radiolabeled F(ab)₂ fragments and ¹²⁵I-radiolabeled IgM was 10; the radioactivity level in the blood with F(ab)₂ fragments was lower than with IgM, and so -camera imaging was workable with F(ab)₂ fragments without background substraction. The tumor localization was studied over a period of 5 days by recording the distribution of the iodinated fragments in the tumor-bearing leg compared with that in the normal leg, and by computer analysis of the region of interest. F(ab)₂ fragments gave better results than intact IgM in tumor visualization. Nevertheless, the rapid clearance of this antibody or its F(ab)₂ fragments make them hardly suitable as carriers of toxic drugs. Abbreviations used are: MEM Minimum essential medium; SDS sodium dodecylsulfate; PAGE polyacrylamide gel electrophoresis     

A modified immunohistochemical procedure for the detection of estrogen receptor in mouse tissues

Summary A horseradish peroxidase (HRP) labeled antibody method was developed for use with a monoclonal antibody to detect estrogen receptor (ER) in mouse tissue. Combined use of HRP labeled F(ab)₂ fragment absorbed with mouse liver protein to minimize background staining and imidazol-DAB reaction gave the most reliable and sensitive immunostaining.The method was applied to uterine, vaginal, pituitary and liver tissues in ovariectomized adult mice. In uterus and vagina, ER was recognized in nuclei of epithelial cells, stromal cells and smooth muscle cells of the muscle layer and blood vessels. Liver tissue showed positive nuclear immunostaining in parenchymal cells; however, no reaction was present in endothelial cells, Kupffer cells, bile ductal cells, and smooth muscle cells of blood vessels. ER was localized in the nuclei of anterior pituitary cells while weak reaction was also recognized in cells of the intermediate lobe. No staining was detected in the posterior pituitary.Results demonstrate that both occupied and unoccupied ER are localized in the cell nucleus from several target tissues. Weak immunostaining in samples could not be enhanced by multiple procedures. It is suggested that nuclear ER is partially hidden by nuclear components such as nuclei acid and chromatin proteins.     

Mechanisms of stable serum resistance of Neisseria gonorrhoeae

Neisseria gonorrhoeae that resist complement-dependent killing by normal human serum (NHS) are sometimes killed by immune convalescent sera from patients recovering from disseminated gonococcal infection (DGI). In these studies, killing by immune serum was prevented or blocked by immunoglobulin G (IgG) or F(ab)₂ isolated from NHS. Purified human IgG antibodies directed against gonococcal protein III, contained most of the blocking activity in IgG. In addition, immune convalescent DGI serum, which did not exhibit bactericidal activity, was restored to killing by selective immunodepletion of protein III antibodies. Blocking IgG or F(ab)₂ prepared from IgG, partially inhibited binding of bactericidal antibody to N. gonorrhoeae. Also, binding of a monoclonal antibody recognizing N. gonorrhoeae outer membrane protein PIII was almost completely inhibited by blocking F(ab)₂.Presensitization of N. gonorrhoeae with increasing concentrations of blocking IgG or F(ab)₂ before incubation with bactericidal antibody and an antibody free source of complement, increased consumption and deposition of the third component of human complement (C3) and the ninth component of complement (C9) but inhibited killing in dose-related fashion.     

The effects of ‘gibberellin-insensitive’ dwarfing alleles in wheat on grain weight and protein content

Summary Three series of near-isogenic wheat lines differing in dwarfing alleles, in the varietal backgrounds of Maris Huntsman, Maris Widgeon and Bersee, and the F₂ grain on intravarietal F₁ hybrids, produced with a chemical hybridising agent, were examined for grain size and protein content. Individual F₂ grains from Rht1/rht, Rht2/rht and Rht3/rht F₁ spikes were classified for Rht genotype by assaying embryo half grains in a gibberellic acid seedling response test, while the remaining half was used for protein determination. Mean grain weight and protein percentage were lower in all homozygous isogenic lines and the Rht/rht F₁ hybrids than in the respective tall lines, in an allele dose-dependent manner. In all the hybrids, the Rht genotype of individual F₂ grains, which segregated within the spikes of F₁ plants, had no significant effects on grain weight or protein. Consequently, the pleiotropic effects of the Rht alleles on these yield and quality components must be attributed to their presence in maternal plant tissues rather than in the endosperm or embryo tissues of individual grains.     

Role of plastidial acyl-acyl carrier protein: Glycerol 3-phosphate acyltransferase and acyl-acyl carrier protein hydrolase in channelling the acyl flux through the prokaryotic and eukaryotic pathway

Monoclonal antibodies raised against extracts of the rachis abscission zone of Sambucus nigra L. were selected for high reactivity towards abscission-zone proteins. One antibody (YZ1/2.23) has been shown to cross-react, by both indirect and competition enzyme-linked immunosorbent assay and by Western blotting, with a number of plant enzymes including horseradish peroxidase, rice -glucosidase, almond -glucosidase and the lectins from Phaseolus vulgaris and Erythrina cristagalli.The major N-linked oligosaccharide isolated from horseradish peroxidase has the sequence Man 3(Man6)(Xyl2)Man4GlcNAc4(Fuc3) GlcNAc. This oligosaccharide was found to be a potent inhibitor of the binding of YZ1/2.23 to the intact glycoprotein. The common determinant is therefore contained within this structure.Abbreviations ELISA enzyme-linked immunosorbent assay - Fuc fucose - GlcNAc N-acetylglucosamine - HRP horseradish peroxidase - Ig immunoglobulin - Man mannose - SDS-PAGE Sodium dodecyl sulphate-polyacrylamide gel electrophoresis - Xyl xylose     

Immunological and biochemical study on tissue and subcellular distributions of protein kinase FA (an activating factor of ATP.Mg-dependent protein phosphatase): A simplified and efficient procedure for high quantity purification from brain

Although protein kinase F_A/GSK-3 (an activating factor of ATP.Mg-dependent protein phosphatase) has been established as a cytosolic enzyme in mammalian nonnervous tissues involved in the metabolic regulation, immunological and biochemical studies on tissue and subcellular distributions demonstrate that kinase F_A/GSK-3 is in fact a membrane-associated enzyme and most abundantly exists in brain particulate membrane fractions depending on the tissue homogenization conditions. For instance, when brain was homogenized in Polytron without 0.32M sucrose, approximately 40% of the total F_A/GSK-3 was found in the cytosol. However, when brain was homogenized in buffer containing 0.32M sucrose and in a glass homogenizer with Teflon pestle, more than 80% of the total F_A/GSK-3 was found associated with the particulate membrane fractions. By manipulating these findings, we have developed a simplified procedure for purification of homogeneous kinase F_A/GSK-3 in high recovery and in a substantial amount from brain tissue. The data explain why kinase F_A/GSK-3 cannot be isolated in a reasonable amount from most mammalian tissues for the past years. The specific pure antibody that can specifically recognize kinase F_A/GSK-3 from crude tissue extracts together with the high quantity purification of the enzyme as presented in this report provides an initial key step for studies on the role of kinase F_A/GSK-3 in the regulation of brain functions especially in the brain particulate membrane fractions.     

Human fetuin/α2 HS glycoprotein in colloid and parenchymal cells in human fetal pituitary gland

An immunohistochemical study was undertaken, in an attempt to identify the acidic glycoprotein(s) present in colloid and in parenchymal cells in human fetal pituitary gland. As the colloid has been proposed to represent disintegrating cells, a series of antibodies against plasma glycoproteins and plasma proteins was applied; their presence intracellularly would generally be an indicator of plasma membrane leakage in dying parenchymal cells. In tissue sections from 9- to 20-week-old fetuses, the colloid showed prominent staining with an antibody to human fetuin/₂ HS glycoprotein. Anti-₂-HS glycoprotein labelled parenchymal cells in pars anterior and intermedia. Apart from a minor immunoreactivity for ₁ glycoprotein, no other plasma glycoprotein was seen in colloid or parenchymal cells. An antibody against bovine fetuin showed staining of the colloid and of some parenchymal cells in pars distalis and intermedia; the plasma and stroma of the pituitary gland were unstained. In contrast, the anti-human plasma protein antibodies all stained the stroma. The presence of ₂ HS glycoprotein in parenchymal cells and absence of other plasma glycoproteins imply integrity of the parenchymal cell plasma membrane. Thus, ₂ HS glycoprotein is either synthesized locally or taken up specifically in the parenchymal cells, which are proposed to participate in the formation of colloid. It is suggested that ₂ HS glycoprotein is part of a homeostatic system, which controls remodelling and physiological cell death during development.     

Endothelin-1 and insulin induce cellular inactivation of protein kinase FA/glycogen synthase kinase-3α in a common signaling pathway

In this study, we investigate the effects of endothelin-1 (ET-1) and insulin on the cellular activity of protein kinase F_A/glycogen synthase kinase-3 (kinase F_A/GSK-3) in rat adipocytes. The cellular activity of kinase F_A/GSK-3 is inhibited to 50% of control within 30 min when cells are treated with 1 nM ET-1 at 37°C; in addition, significant inhibition to 60% of control is observed at as low as 1 pM ET-1. Conversely, ET-1 at concentrations up to 1 nM has no direct effect on purified kinase F_A/GSK-3 in vitro. Immunoblotting analysis further reveals that the protein level of this kinase is not significantly changed when treated with 1 nM ET-1 for 30 min. Similar to ET-1, insulin as low as 10 nM can also induce inactivation of kinase F_A/GSK-3 to 50% of control in adipocytes when processed under identical conditions. Most importantly, when treated with both insulin and ET-1, the activity of kinase F_A/GSK-3 can be decreased only to 50% of control. Taken together, the results provide initial evidence that ET-1 and insulin may regulate this important multisubstrate/multifunctional protein kinase in a common signaling pathway in cells.     

Inheritance of the dwarf plant type in blackgram (Vigna mungo (L.) Hepper)

Summary The inheritance of the dwarf plant type was studied in blackgram (V. mungo (L.) Hepper). Type 9 has erect plant type with normal internode length. The mutant line, EMSD has reduced internode length. The F₁, F₂ and F₃ generations of a cross between Type 9 and EMSD and its reciprocal were studied. The extreme dwarf plant type appeared to be governed by a single recessive gene, dw ₁ dw ₁ with no cytoplasmic effect.Part of Ph.D. Thesis submitted by the first author     

Flow cytometric analysis of antibody producing cells using double immunofluorescent staining

Summary Double fluorescent labeling, with fluorescein isothiocyanate (FITC)-labeled F(ab)₂ specific for the heavy chain and R-phycoerythrin (R-PE)-labeled F(ab)₂ specific for the light chain, was demonstrated as a convenient means for the accurate evaluation of a heterogeneous non-antibody-producing population. Furthermore, it could be used for monitoring the changes in each immunoglobulin (Ig) chain content of the cells during the batch culture, which will facilitate the study on antibody synthesis, assembly and secretion.     

Very slow growth of Bacillus polymyxa: Stringent response and maintenance energy

Bacillus polymyxa grown in a recycling fermentor shows the same behavior previously observed with Escherichia coli: 3 successive growth phases. In the last 2 phases the growth rate is linear and the apparent maintenance energy demand rate and the molar growth yield are both independent of the specific growth rate, , and of the cells mass. The final phase of very slow growth is an indefinitely prolonged state of strong, stringent control, the regulatory system based on guanosine 3-diphosphate 5-diphosphate, and guanosine 3-diphosphate 5-triphosphate. The maximum cost of this stringent response is calculated to be 9% of the energy available to these energy-limited cells. There is a further energy cost contained in substantial amounts of DNA, RNA, and protein released from the cells during the latter 2 growth phases. The cost of production of these extra cellular anabolites ranges from 8–11% of the available energy.After a carbon-energy upshift in phase 3, the population growth rate immediately returned to that of early phase 2 growth, 50 h or more earlier.If maintenance energy is considered as energy expended by cells to maintain homeostasis, catabolic capacity, or anabolic potential, then the cost of stringent control — which preserves the fidelity of protein synthesis in slowly growing cells — must be considered a maintenance energy cost.Abbreviations GPR glucose provision rate - F_R medium flow rate - S_R substrate concentration - V_F fermentor volume - F_S filtrate removal rate - ppGpp guanosine 3-diphosphate 5-diphosphate - pppGpp guanosine 3-diphosphate 5-triphosphate     

Ultrastructural evidence of GABA-ergic inhibition and glutamatergic excitation in the pacemaker nucleus of the gymnotiform electric fish,Hypopomus

The medullary pacemaker nucleus of Hypopomus triggers each electric organ discharge (EOD) by a single command pulse. It consists of electrotonically coupled pacemaker cells, which generate the rhythm, and relay cells, which follow the pacemaker cells and excite the spinal motoneurons of the electric organ. The pacemaker cells receive two inputs from the complex of the diencephalic prepacemaker nucleus (PPn), a GABA-ergic inhibition and a glutamatergic excitation. Relay cells, on the other hand, receive two glutamatergic inputs, one from a subnucleus of the PPn, the PPn-C, and a second from the sublemniscal prepacemaker nucleus (SPPn).We have labelled afferents to the pacemaker nucleus by injecting HRP to specific sites of the prepacemaker complex. By using immunogold-labelled antibodies and en-grid staining techniques, we demonstrated GABA and glutamate immunoreactivity in labelled synaptic profiles of ultra-thin sections of the pacemaker nucleus. The two types of synapses were interspersed on the surfaces of pacemaker cells, with GABA-immunoreactive synapses apparently representing the GABA-mediated input of the PPn-I, an inhibitory subdivision of the PPn, and glutamate-immunoreactive synapses representing the input of the PPn-G, an excitatory subdivision of the PPn. Only glutamate-immunoreactive synapses were found on relay cells.Abbreviations AMPA -Amino-3-hydroxy-5-methylisoxazole-4-propionic acid - CP central posterior nucleus - EOD electric organ discharge - GABA -aminobutyric acid - GAD L-glutamate decarboxylase - HRP horseradish peroxidase - JAR jamming avoidance response - NMDA N-methyl-D-aspartate - PPn (diencephalic) prepacemaker nucleus - SPPn sublemniscal prepacemaker nucleus     

Cross-linking of the endogenous inhibitor protein (IF1) with rotor (gamma,epsilon) and stator (alpha) subunits of the mitochondrial ATP synthase

The location of the endogenous inhibitor protein ( IF₁) in the rotor/stator architecture of the bovine mitochondrial ATP synthase was studied by reversible cross-linking with dithiobis(succinimidylpropionate) in soluble F₁I and intact F₁F₀I complexes of submitochondrial particles. Reducing two-dimensional electrophoresis, Western blotting, and fluorescent cysteine labeling showed formation of –IF₁, IF₁–IF₁, –IF₁, and –IF₁ cross-linkages in soluble F₁I and in native F₁F₀I complexes. Cross-linking blocked the release of IF₁ from its inhibitory site and therefore the activation of F₁I and F₁F₀I complexes in a dithiothreitol-sensitive process. These results show that the endogenous IF₁ is at a distance 12 Å,to and subunits of the central rotor of the native mitochondrial ATP synthase. This finding strongly suggests that, without excluding the classical assumption that IF₁ inhibits conformational changes of the catalytic subunits, the inhibitory mechanism of IF₁ may involve the interference with rotation of the central stalk.     

Recent developments on structural and functional aspects of the F1 sector of H+-linked ATPases

Summary This review concerns the catalytic sector of F₁ factor of the H⁺-dependent ATPases in mitochondria (MF₁), bacteria (BF₁) and chloroplasts (CF₁). The three types of Ft have many similarities with respect to the structural parameters, subunit composition and catalytic mechanism. An ₃₃₂₂₂ stoichiometry is now accepted for MF₁ and BF₁; the ₂₂₂₂₂ stoichiometry for CFI remains as matter of debate. The major subunits , and are equivalent in MF₁, BF₁ and CF₁; this is not the case for the minor subunits and . The subunit of MFI corresponds to the subunit of BF₁ and CF₁, whereas the mitochondria) subunit equivalent to the subunit of BF₁ and CF₁ is probably the oligomycin sensitivity conferring protein (OSCP). The a assembly is endowed with ATPase activity, being considered as the catalytic subunit and y as a proton gate. On the other hand, the 6 and E subunits of BFI and CFI most probably act as links between the F₁ and F₀ sectors of the ATPase complex. The natural mitochondria) ATPase inhibitor, which is a separate protein loosely attached to MF₁, could have its counterpart in the E subunit of BF₁ and CF₁. The generally accepted view that the catalytic subunit in the different F₁ species is comes from a number of approaches, including chemical modification, specific photolabeling and, in the case of BF₁, use of mutants. The a subunit also plays a central role in catalysis, since structural alteration of a by chemical modification or mutation results in loss of activity of the whole molecule of F₁. The notion that the proton motive force generated by respiration is required for conformational changes of the F₁ sector of the H⁺-ATPase complex has gained acceptance. During the course of ATP synthesis, conversion of bound ADP and P_i into bound ATP probably requires little energy input; only the release of the F₁-bound ATP would consume energy. ADP and P_i most likely bind at one catalytic site of F₁, while ATP is released at another site. This mechanism, which underlines the alternating cooperativity of subunits in F₁, is supported by kinetic data and also by the demonstration of partial site reactivity in inactivation experiments performed with selective chemical modifiers. One obvious advantage of the alternating site mechanism is that the released ATP cannot bind to its original site. The chemistry of the condensation reaction of ADP and P_i to form ATP has not yet been elucidated. Although implicitly admitted, definite evidence that the condensation reaction does not involve a phosphorylated intermediate has been acquired recently by analysis of the stereochemical course of the phosphoric residue transfer in ATP synthesis or hydrolysis. Whereas the catalytic events of ATP synthesis are well understood, the regulatory mechanism, and particularly the role of the so-called inhibitory peptides, remain enigmatic.     

Linkage between isozyme markers and a locus affecting seed size in Phaseolus vulgaris L.

Summary Backcross and F₂ progenies were produced between two bean genotypes, XR-235 and Calima, which differ in seed weight by a factor of two. The small-seeded XR-235 was used as the pistillate and recurrent parent. These genotypes showed polymorphisms at nine isozyme loci and at the phaseolin locus. Seed size parameters (weight, length, width, and thickness) were determined for each BC₁ and F₂ individual, i.e., for seeds harvested from XR-235 after pollination with F₁ and from the F₁ after selfing, respectively. A combination of starch gel electrophoresis and enzyme activity staining was used to determine the genotype of each BC₁ and F₂ individual at the segregating loci. SDS-PAGE and Coomassie blue staining were used to determine geno-type at the phaseolin locus. Tests for independent assortment using two-way contingency and maximum likelihood tables revealed three linkage pairs: Aco-1 — 20 cM — Dia-1; Adh-1 — 2 cM — Got-2; and Est-2 — 11 cM — Pha. Statistical comparisons were made between the means of genotype classes at each segregating locus for all seed size parameters. The results from two independently obtained BC₁s and the F₂ consistently indicated that the Adh-1-Got-2 segment was linked to a locus that affected seed size and overcame maternal control over seed size. This locus has been designated Ssz-1. This gene exhibited additive gene action and accounted for 30–50% of the seed size difference between the parents.Florida Agricultural Experiment Station, Journal Series No. R00696     

Immunochemistry of membrane F1-Adenosine triphosphatase fromMicrococcus lysodeikticus. Role of the alpha subunit

The membrane-bound ATPase activity from two substrains ofMicrococcus lysodeikticus, designated as A and B, was inhibited by antibodies raised against the two forms of purified F₁-ATPase. Form B of the enzyme, which behaved as a poorer immunogen than form A, also showed less reactivity as an antigen, independent of the physical state of the F₁-ATPase form. Antibodies were raised against the two major subunits ( and ) isolated fromM. lysodeikticus F₁-ATPase form A, which was the most stable form of the enzyme. Anti-(-subunit) serum strongly inhibited the ATPase activity of membrane-bound ATPase but showed little inhibition of the purified, soluble F₁-ATPase. The anti-(-subunit) serum inhibited the soluble F₁-ATPase, but to a lesser extent than the membrane-bound enzyme. In any event, the effect of anti- antibodies on the membrane-bound ATPase was smaller than that of anti- antibodies. It was postulated that the subunit ofM. lysodeikticus F₁-ATPase plays an essential and regulatory role in the expression of the immunochemical properties of the protein.     

The inheritance of tetraploid wheat seed peroxidases

Summary Embryo and endosperm peroxidases from dry mature seeds of three subspecies of tetraploid wheat (Triticum turgidum L.) were subjected to genetic analysis. The inheritance of eight isozymes (embryo isozymes a₂, d₁, d₂, e and f; and endosperm isozymes b, d and 4) were studied in F₂'s obtained from different wheat accessions. Simple monogenic inheritance producing three banded: one null segregation and two epistatic segregations (97 and 151) were found. In the case of isozymes b, d and 4, monogenic or epistatic segregation depended on the F₂ analyzed. Segregation data indicated that at least 9 different loci would determine the peroxidase isozymes of tetraploid wheat seed, all the loci studied containing null alleles. Furthermore, several loci determining embryo peroxidases were noticed to be mutually linked. All these data are discussed in context of the inheritance of seed peroxidases in hexaploid wheat and rye.     

The photosynthetic F1-α3β3 and α1β1 catalytic core complexes

Minimal photosynthetic catalytic F₁() core complexes, containing equimolar ratios of the and subunits, were isolated from membrane-bound spinach chloroplast CF₁ and Rhodospirillum rubrum chromatophore RrF₁. A CF₁-₃₃ hexamer and RrF₁-₁₁ dimer, which were purified from the respective F₁() complexes, exhibit lower rates and different properties from their parent F₁-ATPases. Most interesting is their complete resistance to inhibition by the general F₁ inhibitor azide and the specific CF₁ inhibitor tentoxin. These inhibitors were earlier reported to inhibit multisite, but not unisite, catalysis in all sensitive F₁-ATPases and were therefore suggested to block catalytic site cooperativity. The absence of this typical property of all F₁-ATPases in the ₁₁ dimer is consistant with the view that the dimer contains only a single catalytic site. The ₃₃ hexamer contains however all F₁ catalytic sites. Therefore the observation that CF₁-₃₃ can bind tentoxin and is stimulated by it suggests that the F₁ subunit, which is required for obtaining inhibition by tentoxin as well as azide, plays an important role in the cooperative interactions between the F₁-catalytic sites.Abbreviations CF₀F₁ chloroplast F₀F₁ - CF₁ chloroplast F₁ - CF₁ chloroplast F₁ subunit - CF₁ chloroplast F₁ subunit - CF₁() a complex containing equal amounts of the CF₁ and subunits - MF₁ mitochondrial F₁ - RrF₀F₁ Rhodospirillum rubrum F₀F₁ - RrF₁ R. rubrum F₁ - RrF₁ R. rubrum F₁ subunit - RrF₁ R. rubrum F₁ subunit - RrF₁() a complex containing equal amounts of the RrF₁ and subunits - Rubisco Ribulose-1,5-bisphosphate carboxylase - TF₁ thermophilic bacterium PS3 F₁     

Functional analysis of the iron-stress induced CP 43′ polypeptide of PS II in the cyanobacterium Synechococcus sp. PCC 7942

Under conditions of iron-stress, the Photosystem II associated chlorophyll a protein complex designated CP 43, which is encoded by the isiA gene, becomes the major pigment-protein complex in Synechococcus sp. PCC 7942. The isiB gene, which is located immediately downstream of isiA, encodes the protein flavodoxin, which can functionally replace ferredoxin under conditions of iron stress. We have constructed two cyanobacterial insertion mutants which are lacking (i) the CP 43 apoprotein (designated isiA ^–) and (ii) flavodoxin (designated isiB ^–). The function of CP 43 was studied by comparing the cell characteristics, PS II functional absorption cross-sections and Chl a fluorescence parameters from the wild-type, isiA ^– and isiB ^– strains grown under iron-stressed conditions. In all strains grown under iron deprivation, the cell number doubling time was maintained despite marked changes in pigment composition and other cell characteristics. This indicates that iron-starved cells remained viable and that their altered phenotype suggests an adequate acclimation to low iron even in absence of CP 43 and/or flavodoxin. Under both iron conditions, no differences were detected between the three strains in the functional absorption crossection of PS II determined from single turnover flash saturation curves of Chl a fluorescence. This demonstrates that CP 43 is not part of the functional light-harvesting antenna for PS II. In the wild-type and the isiB ^– strain grown under iron-deficient conditions, CP 43 was present in the thylakoid membrane as an uncoupled Chl-protein complex. This was indicated by (1) an increase of the yield of prompt Chl a fluorescence (F_o) and (2) the persistence after PS II trap closure of a fast fluorescence decay component showing a maximum at 685 nm.Abbreviations Chl chlorophyll - CP 43, CP 47 and CP 43 Chl a binding protein complexes of indicated molecular mass - DCMU 3-(3,4-dichlorophenyl)-1,1-dimethylurea - F_m and F_m fluorescence when all PS II reaction centers are dosed in dark- and light-acclimated cells, respectively - F_o fluorescence when all PS II reaction centers are open in dark acclimated cells - F_v variable fluorescence after dark acclimation (F_m–F_o)     

Topography of the subunits of Micrococcus lysodeikticus F1-ATPase

Summary The combined use of proteolytic digestion and lactoperoxidase catalyzed labelling with [¹²⁵I] applied to membrane-bound or soluble pure F₁-ATPase from Micrococcus lysodeikticus has allowed us to establish the topography of its , , and subunits within the protein molecule and with respect to the plane of the membrane.The subunit is most externally located to the membrane bilayer looking towards the cytoplasmic face, a position consistent with its proposed catalytic role. The and subunits lie in an intermediate layer between the subunits and the membrane, in which the subunit occupies a central position within the F₁-ATPase molecule in contact with the subunit. The subunit appears to be tightly bound to the F₀ component of the ATPase complex, probably buried in the membrane bilayer. A molecular arrangement of M. lysodeikticus ATPase is proposed that, taking into account the subunit stoichiometry _{3 3 2 2} (MW 420 000), accommodates the role assigned to each subunit and most, if not all, the known properties of this bacterial energy-transducing protein.