Multivalent Ligand System Carrying Enkephalin and Neurotensin Coimmobilized on Liposomes

A multivalent ligand system was constructed by coimmobilization of two kinds of peptide ligands, enkephalin and neurotensin derivatives having a dioctadecyl group, on dimyristoylphosphatidylcholine (DMPC) liposomes. The enkephalin derivatives are Tyr-D -Ala-Gly-Trp-Leu- (Sar-Sar-Pro)_n-[N(C₁₈H₃₇)₂] (Enk3nD, n=0, 1, 2), where a dioctadecyl group was connected to the C-terminal side of enkephalin directly or through a hydrophilic and flexible spacer chain of different lengths. The neurotensin derivatives are Ac-Glu[N(C₁₈H₃₇)₂]-(Sar-Sar-Pro)_n-Arg-Arg-Pro-Tyr-Ile-Leu-OH (D3nNT, n=0, 1, 2, 3). The derivatives were spontaneously immobilized on DMPC liposomes by overnight incubation. The receptor affinity of the enkephalin derivatives became significantly higher upon immobilization on liposomes. The highest affinity was obtained for the δ receptor by Enk6D immobilized on DMPC liposomes. This affinity is higher than that of enkephalinamide. Neurotensin derivatives coimmobilized with large amounts of Enk3D on DMPC liposomes show higher affinity than the neurotensin derivatives immobilized alone. The effect of Enk3D on the receptor affinity of the coimmobilized neurotensin derivative disappeared by the addition of [Ala², MePhe⁴, Gly-ol⁵]enkephalin (DAGO). Therefore, the receptor affinity of a peptide hormone is altered by immobilization on DMPC liposomes and by coimmobilization with other peptide hormones. It was confirmed by fluorescent microscopy that the multivalent ligand system binds to receptors without release of the bound ligands from DMPC liposomes.     

Monosialoganglioside liposome-entrapped enzyme uptake by hepatic cells

Monosialogangliosde liposomes are rapidly taken up by the liver as compared to dicetylphosphate, phosphatidic acid or neutral liposomes. Asialoganglioside G_{M 1} liposomes are taken up with the same avidity as ganglioside G_{M 1} liposomes. Competition experiments with asialofetuin suggest that this uptake is mediated by specific recognition of the terminal galactose residues of the glycolipid liposomes by the receptor present on the plasma membrane of the parenchymal cells of liver. Thus liposomes containing glycolipids with terminal β-galactosyl residues should provide an approach for specifically directing biologically active molecules to liver parenchymal cells.     

Daxx过表达对氧化应激诱导的肝肿瘤细胞凋亡的影响

死亡结构域相关蛋白Daxx可以敏化多种肿瘤细胞的凋亡过程,但对于肝肿瘤细胞株HepG2的影响未见报道．为了研究Daxx增加肝HepG2细胞对药物敏感性的影响及机制,为开发药物新的药理作用提供理论依据,分别转染pEGFP-C1和pEGFP-C1-Daxx这两个载体到HepG2细胞．实验分组如下：（1）正常对照组（未转染细胞组）;（2）pEGFP-C1空载体转染组（HepG2/GFP细胞）;（3）pEGFP-C1-Daxx表达载体转染组（nepG2/GFP-Daxx细胞）．筛选稳定细胞株,用逆转录聚合酶链反应检测mRNA的表达;用过氧化氢孵育24h诱导细胞凋亡,采用MTT法和流式细胞术检测细胞凋亡率,Western blot检测蛋白质的表达．经G418筛选稳定的细胞运用RT-PCR技术分析其mRNA,结果显示,转染绿色荧光蛋白Daxx表达载体的细胞Daxx的mRNA明显上调：用荧光显微镜观察到Daxx蛋白主要定位于细胞核．用过氧化氢诱导HepG2细胞凋亡,观察到过氧化氢呈浓度依赖性地抑制HepG2细胞活性．正常对照细胞、HepG2／GFP、HepG2／GFP-Daxx 3组细胞的IC50值分别是0．72、0．76、0．49mmol／L．并且运用流式细胞仪检测到HepG2／GFP-Daxx组细胞凋亡率明显高于转染空载体质粒组与未转染组（（42．9±8．42）vs（27．3±6．38）or（28．5±4．71））．提示HepG2/GFP-Daxx细胞对过氧化氢的反应性较未转染细胞和HepG2/GFP敏感．还运用Western-blot检测到活化的caspase3在Daxx转染组细胞表达最强,达到（204．66±19．68）％,而未转染和HepG2/GFP组细胞分别是（100±3．1）％、（107．39±20．1）％,进一步说明了Daxx可以增加HepG2细胞对于过氧化氢的敏感性．同时,观察到过氧化氢处理24h后,Daxx转染组细胞磷酸化的JNK表达明显高于空载体转染组和未转染细胞组．上述结果表明：a．Daxx可以增加肝HepG2细胞对过氧化氢诱导的细胞凋亡敏感性;b．Daxx蛋白敏化过氧化氢诱导的HepG2细胞凋亡可能与协同增加JNK活性有关．     

Isolation and Characterization of a Neutral Glycosphingolipid from the Epimastigote Form of Trypanosoma mega1

ABSTRACT. A glycosphingolipid fraction from Trypanosoma mega was isolated after acetylation and was further purified on a silicic acid column. Final purification was by preparative thin-layer chromatography. The carbohydrate components of the glycolipid were fucose and galactose in approximately equimolar amounts. The neutral glycolipid of T. mega has a sphingosine base composition that consists of sphingosine and traces of dihydrosphingosine. Fatty acids forming amide groups with the sphingosine bases were analyzed by gas-liquid chromatography-mass spectrometry and are a mixture of normal and α-hydroxy fatty acids. Normal C_16:0, C_18:0, and 2-hydroxy C_18:0 are the predominant fatty acids.     

Presence of ATP-sensitive and ATP-insensitive Ribonucleases in the Fruit Body of Flammulina velutipes

Neonatally streptozotocin-induced diabetic (n-STZ) rats were given food containing Lactobacillus GG cells (GG) or a control diet (control), from 9 to 18 weeks of age. The GG cells significantly lowered the blood hemoglobin A_1C (HbA_1C) level and improved glucose tolerance in n-STZ rats (p<0.05). In the GG group, the serum insulin level at 30 min after glucose loading was significantly higher than in the control group (p<0.05).     

Thyroid hormone receptors and stimulation of angiotensinogen production in HepG2 cells

Summary Binding characteristics and effects of 3,5,-3′-triiodo-l-thyronine (T₃) on angiotensinogen production in HepG₂ were studied in serum-free medium. Binding was performed on intact cells and on partially purified isolated nuclei using [¹²⁵I]T₃. Scatchard plots revealed one class of high affinity binding sites with a K_d of approximately 80 pmol/liter. Calculation of maximum binding showed that HepG₂ possess approximately 1000 binding sites per cell. Unlabeled T₃ and T₄ competed for binding sites on intact HepG₂ with 50% inhibition of [¹²⁵I]T₃ binding at approximately 3.0 and 38.0 pmol/liter, respectively. The HepG₂ showed a dose-dependent increase in angiotensinogen production in serum-free medium which was maximal at 10⁻⁵ mol/liter (two-fold increase/10⁶ cells/24 h) and had an EC₅₀ of approximately 5.0×10⁻⁸ mol/liter. T₃ also produced after 24 h a dose-dependent increase in DNA highly correlated with T₃ applied (r=0.88,P<0.01). In conclusion, this study shows that HepG₂ possess specific high affinity binding sites for T₃ and that T₃ stimulates angiotensinogen production and DNA synthesis in these cells. Dr. Darby is supported by INSERM (France)/NH and MRC (Australia) exchange fellowship.     

Receptor-mediated uptake of asialoganglioside liposomes: sub-cellular distribution of the liposomal marker in isolated liver cell types

The use of asialo GM1-containing small unilamellar liposome preparations in vivo caused a 2.8-fold increase in the uptake by the liver as compared with the control (neutral) preparations (without asialo GM1). The uptake of negatively charged dicetylphosphate and dipalmitoyl phosphatidic acid-containing small unilamellar liposomes was found to be 1.6-and 1.8-fold respectively higher than that of the neutral preparations. In studies with isolated liver cell types, inhibition of the galactosylated liposome uptake by asialofetuin indicated a possible involvement of hepatic galactose receptors in the recognition of asialo GM1 liposomes by the hepatic parenchymal cells, which in turn were found to be mainly responsible for the enhanced incorporation of these liposomes in the liver. Sub-cellular distribution studies with isolated liver cell types indicated lysosomal localization of the liposomes both in parenchymal and nonparenchymal cells, and it has been proposed that the asialo GM1 liposomes are cointernalized with asialofetuin through a common lysosomal route of ligand internalization.     

Selection of valid reference genes for expression studies of hepatic cell lines under IFN-α treatment

The proper selection of reference genes to normalize the quantitative real-time PCR (RT-qPCR) results under particular experimental conditions is crucial for validation of the gene quantification data. Herein, using SYBR green RT-qPCR, five reference genes (GAPDH, ACTB, HMBS, HPRT-1 and TBP) were evaluated to determine the most stable reference genes in hepatic cell lines (Huh-7 and HepG₂) under IFN-α treatment conditions. Analyses by geNorm program ranked GAPDH and HPRT-1 in Huh-7 and that of ACTB and HMBS in HepG₂ cells as the most stable reference genes under IFN-α treatment. While, same reference gene pairs were ranked by NormFinder program in Huh-7 cells, GAPDH was assessed as the most stable gene in HepG₂ group by this program, implying the importance of the employed algorithm in comparative interpretation of the data. Finally, cumulative analyses by one-way ANOVA, geNorm and NormFinder programs indicated that use of two reference genes (HMBS and GAPDH) in Huh-7 and three (HMBS, ACTB and GAPDH) in HepG₂ cells would greatly improve the normalization of the RT-qPCR data under IFN-α. Data presented in this paper will aid the selection of the most stable reference genes in RT-qPCR studies on evaluation of hepatic viral proteins and IFN pathway.     

Tissue distribution of 99mic-labeled liposomes prepared from synthetic amphiphiles containing amino acid residues

Abstract

The tissue distribution of ^99mTc-labeled liposomes prepared from synthetic amphiphiles containing amino acid residues was investigated for application to radiopharmaceuticals. The amphiphiles used were N,N-didodecyl-N α-[6-(trimethylammoniohexanoyl]-L-ala-ninamide bromide (N+C₅Ala2C₁₂), N,N-didodecyl-N_α-{6-[dimethyl(2-carboxyethyl)ammonio]hexanoyl}-L-alaninamide bromide (CAC₂N⁺C₅Ala2C₁₂) and S-{l-carboxy-2-([2,3-bis (he xadecyloxy)propoxy]carbony1)ethyl}homocy ste ine. These liposomes were stable in saline and 50% serum at 37° for at least 24h in comparison with the liposomes prepared from phosphatidylcholine and cholesterol (1:1). Most of the radioactivity of N+C₅Ala2C₁₂ and CAC₂N+C₅Ala2C₁₂ liposomes was firmly bound to Ehrlich ascites tumor cells in vitro. But the accumulation of three liposomes into the tumor of Ehrlich solid tumor-bearing mice after intravenous injection was low and most of the liposomes was taken up highly in liver and spleen which belong to the reticuloendothelial system (RES). Some approaches were made to reduce the RES uptake of N+C5Ala2C12 liposomes as follows: (1) the pretreatment of dextran sulfate depressed the uptake of the liposomes in the liver accompanied by increasing uptake in tumor and other tissues except stomach, (2) the modification of the liposomes with n-dodecyl glucoside or n-dodecyl sucrose depressed the uptake in liver and spleen, resulting in an increase in blood and other tissues such as tumor, duodenum and kidney, (3) the modification of the liposomes with ganglioside GM3 or GM1 reduced the uptake in liver and spleen, but increased scarcely the uptake in blood and tumor because of the rapid excretion into urine, (4) the intraperitoneal injection reduced the uptake of the liposomes in liver and increased significantly the accumulation in pancreas.     

Acetate synthesis from 2 CO2 in acetogenic bacteria: is carbon monoxide an intermediate?

Cultures of Acetobacterium woodii and Clostridium thermoaceticum growing on fructose or glucose, respectively, were found to produce small, but significant amounts of carbon monoxide. In the gas phase of the cultures up to 53 ppm CO were determined. The carbon monoxide production was completely inhibited by 1 mM cyanide. Cultures and cell suspensions of both acetogens incorporated ¹⁴CO specifically into the carboxyl group of acetate. This CO fixation into C₁ of acetate was unaffected by cyanide (1 mM). The findings are taken to indicate that CO (in a bound form) is the physiological precursor of the C₁ of acetate in acetate synthesis from CO₂. The cyanide inhibition experiments support the hypothesis that the cyanide-sensitive carbon monoxide dehydrogenase may serve to reduce CO₂ to CO rather than to incorporate the carbonyl into C₁ of acetate.     

Glycine decarboxylase is confined to the bundle-sheath cells of leaves of C3−C4 intermediate species

Immunogold labelling has been used to determine the cellular distribution of glycine decarboxylase in leaves of C₃, C₃–C₄ intermediate and C₄ species in the genera Moricandia, Panicum, Flaveria and Mollugo. In the C₃ species Moricandia foleyi and Panicum laxum, glycine decarboxylase was present in the mitochondria of both mesophyll and bundle-sheath cells. However, in all the C₃–C₄ intermediate (M. arvensis var. garamatum, M. nitens, M. sinaica, M. spinosa, M. suffruticosa, P. milioides, Flaveria floridana, F. linearis, Mollugo verticillata) and C₄ (P. prionitis, F. trinervia) species studied glycine decarboxylase was present in the mitochondria of only the bundle-sheath cells. The bundle-sheath cells of all the C₃–C₄ intermediate species have on their centripetal faces numerous mitochondria which are larger in profile area than those in mesophyll cells and are in close association with chloroplasts and peroxisomes. Confinement of glycine decarboxylase to the bundle-sheath cells is likely to improve the potential for recapture of photorespired CO₂ via the Calvin cycle and could account for the low rate of photorespiration in all C₃–C₄ intermediate species.Abbreviation and symbol kDa kilodaltons - CO₂ compensation point     

Changes of Lipid Composition with Growth Phase of Cryptococcus neoformans

Qualitative and quantitative profiles of phospholipids, neutral lipids, and fatty acid composition in Cr. neoformans during the growth phase were investigated in relation to pyrophosphatidic acid. A marked increase of the total lipid content, which depended on the accumulation of triglyceride in yeast cells with the growth, was observed. The total phospholipid contents in yeast cells remained almostly constant during the exponential phase and slightly decreased in the stationary phase. The major phospholipids of this yeast were phosphatidylcholine, phosphatidylethanolamine, phosphatidylinositol, phosphatidylserine, and cardiolipin, the next groups being pyrophosphatidic acid, phosphatidic acid, lysophos-phatidylcholine, and unidentified components. The amounts of phosphatidylcholine, phosphatidylinositol, and cardiolipin were fairly constant throughout the growth phase, but the amount of phosphatidylethanolamine increased and that of phosphatidylserine decreased with progressive growth. The pyrophosphatidic acid contents were 0.9~0.7% for total phospholipid during the growth phase. The major fatty acids of pyrophosphatidic acid were C_16:0, C_18:1, and C_18:2 acids. The changing patterns of fatty acid composition in pyrophosphatidic acid through the growth phase closely resembled that of phosphatidic acid, which contained larger amounts of C_18:1 acid (35~45%) than C_16:0 acid (30~25%) and C_18:2 acid (30~25%). Phosphatidylserine and phosphatidylinositol contained considerable amounts of saturated fatty acid (C_16:0 acid, more than 55%). On the other hand, phosphatidylcholine, phosphatidylethanolamine, and cardiolipin contained extremely large amounts of unsaturated fatty acid (C_18:1 and C_18:2 acid, 85ç90%).     

Structural and biochemical bases of photorespiration in C<Subscript>4</Subscript> plants: quantification of organelles and glycine decarboxylase

In C₄ plants, photorespiration is decreased relative to C₃ plants. However, it remains unclear how much photorespiratory capacity C₄ leaf tissues actually have. We thoroughly investigated the quantitative distribution of photorespiratory organelles and the immunogold localization of the P protein of glycine decarboxylase (GDC) in mesophyll (M) and bundle sheath (BS) cells of various C₄ grass species. Specific differences occurred in the proportions of mitochondria and peroxisomes in the BS cells (relative to the M cells) in photosynthetic tissues surrounding a vein: lower in the NADP-malic enzyme (NADP-ME) species having poorly formed grana in the BS chloroplasts, and higher in the NAD-malic enzyme (NAD-ME) and phosphoenolpyruvate carboxykinase (PCK) species having well developed grana. In all C₄ species, GDC was localized mainly in the BS mitochondria. When the total amounts of GDC in the BS mitochondria per unit leaf width were estimated from the immunogold labeling density and the quantity of mitochondria, the BSs of NADP-ME species contained less GDC than those of NAD-ME or PCK species. This trend was also verified by immunoblot analysis of leaf soluble protein. There was a high positive correlation between the degree of granal development (granal index) in the BS chloroplasts and the total amount of GDC in the BS mitochondria. The variations in the structural and biochemical features involved in photorespiration found among C₄ species might reflect differences in the O₂/CO₂ partial pressure and in the potential photorespiratory capacity of the BS cells.Abbreviations BS Bundle sheath - GDC Glycine decarboxylase - M Mesophyll - NAD-ME NAD-malic enzyme - NADP-ME NADP-malic enzyme - PCK Phosphoenolpyruvate carboxykinase     

SEASONAL CHANGES IN THE PROXIMATE AND FATTY ACID COMPOSITION OF SOME NATURALLY GROWN FRESHWATER CHLOROPHYTES1

The protein content of the filamentous Cladophora glomerata (L.) Kz., Ulothrix zonata (Web, & Mohr) Kz. and Spirogyra sp., collected from natural populations for 1 year, averaged 8.0–12.4% of the total dry weight; whereas, the corresponding levels of lipid, cellulose and ash were 11.9–16.1%, 10.0–17.8% and 14.6–24.0%, respectively. Mean values for carbohydrates, estimated by difference, ranged from 32.8 to 56.0%. The colonial Scenedesmus dimorphus (Turp.) Kz. and the unicellular Cosmarium laeve Rab., on the other hand, contained more protein, lipid and carbohydrate (estimated by difference) averaging 13–15.0%, 22.5–25.9% and 415–46.8%, respectively, and less cellulose (7.5–9.8%) and ash (8.2–9.8%). A consistent pattern of seasonal variation in the proximate composition was not normally evident for any species, reflecting the influence of several environmental parameters on the algae. Cladophora contained the greatest amount of phospholipid averaging; 10% by weight of total lipid with the smallest quantity (5%) in Scenedesmus. The predominant phospholipid fatty acid in all species was C_18:1 followed by C_18:2, C_18:3 and C_16:1 in Cladophora, Ulothrix and Spirogyra, and C_16:1, C_18:2 and C_16:0 in Scenedesmus and Cosmarium. Oleic (C_18:1) and hexadecanoic (C_16:1) acids were predominant in the neutral lipids of all the algae, followed by C_16:0, C_18:2 and C_18:3. The concentration of the different fatty acids of each Species varied considerably during the year with the proportion of C_16:0 and C_16:1, usually rising and that of C_18:1 failing during the colder months.     

Immunostimulatory and anti-tumor activity of a water-soluble polysaccharide from <Emphasis Type="Italic">Phellinus baumii</Emphasis> mycelia

A 17-kDa water-soluble polysaccharide (PB) was isolated and purified from Phellinus baumii using the DEAE-Sephadex A-50 and LPLC-Sephadex G-75 methods. Exposure of RAW264.7 macrophages to PB resulted in a significant increase of the cellular proliferation rate, nitric oxide production and expression levels of the IL-1β, IL-18, IL-6, IL-12p35 and IL-12p40 genes. An MTT assay indicated that PB markedly suppressed the proliferation of HepG₂ human liver cancer cells in a dose-dependent manner. Cell cycle analysis demonstrated that PB caused cell cycle arrest at the S phase, and 400 μg/ml of PB induced apoptotic cell death in HepG₂ cells after 48 h. The results suggested that PB inhibited the proliferation of HepG₂ cells by inducing cell cycle arrest at S phase, leading to apoptosis. In summary, our data indicate that the PB exerts immunoregulatory and anti-tumor activities in vitro.     

A model of photosynthetic CO2 assimilation and carbon-isotope discrimination in leaves of certain C3−C4 intermediates

A model of leaf, photosynthesis has been developed for C₃–C₄ intermediate species found in the generaPanicum, Moricandia, Parthenium andMollugo where no functional C₄ pathway has been identified. Model assumptions are a functional C₃ cycle in both mesophyll and bundle-sheath cells and that glycine formed in the mesophyll, as a consequence of the oxygenase activity of ribulose-1,5-bisphosphate carboxylase-oxygenase (Rubisco, EC 4.1.1.39), diffuses to the bundle sheath, where most of the photorespiratory CO₂ is released. The model describes the observed gas-exchange characteristics of these C₃–C₄ intermediates, such as low CO₂-compensation points () at an O₂ pressure of 200 mbar, a curvilinear response of to changing O₂ pressures, and typical responses of CO₂-assimilation rate to intercellular CO₂ pressure. The model predicts that bundle-sheath CO₂ concentration is highest at low mesophyll CO₂ pressures and decreases as mesophyll CO₂ pressure increases. A partitioning of 5–15% of the total leaf Rubisco into the bundle-sheath cells and a bundlesheath conductance similar to that proposed for C₄ species best mimics the gas-exchange results. The model predicts C₃-like carbon-isotope discrimination for photosynthesis at atmospheric levels of CO₂, but at low CO₂ pressures it predicts a higher discrimination than is typically found during C₃ photosynthesis at lower CO₂ pressures.Abbreviations and symbols PEP phosphoenolpyruvate - Rubisco ribulose-1,5-bisphosphate carboxylase-oxygenase (EC 4.1.1.39) - RuBP ribulose-1,5-bisphosphate - p(CO₂) partial pressure of CO₂ - p(O₂) partial pressure of O₂. See also p. 471     

Degradation of long-chain n-alkanes by the yeast Candida maltosa

Summary The yeast Candida maltosa precultivated on liquid n-alkanes utilized different solid n-alkanes (especially C₂₀–C₂₅) in the presence of pristane as an organic phase with rates comparable to, or somewhat larger than, those of liquid n-alkanes. Analysis of cellular fatty acids indicated an assimilation of solid n-alkanes via monoterminal oxidation. The resulting fatty acids with substrate chain length were chain-shortened by C₂ units down to an optimal range of chain length from C₁₆ to C₁₈ and incorporated into cellular, lipids directly or after desaturation. The intermediates of chain-shortening with numbers of carbon atoms higher than C₁₈, as well as the unusually long-chain fatty acids of substrate chain length, were detected in trace amounts only. Even-carbon-numbered and odd-numbered fatty acids predominated in experiments with evenchain and odd-chain n-alkanes, respectively. Studies with cerulenin indicated that de novo synthesis of fatty acids was negligible. Oxidation of solid n-alkanes by the yeast C. maltosa yielded fatty acid patterns similar to those of cells grown on liquid n-alkanes.     

Reassimilation of carbon dioxide by Flaveria (Asteraceae) species representing different types of photosynthesis

The capability to reassimilate CO₂ originating from intracellular decarboxylating processes connected with the photorespiratory glycolate pathway and-or decarboxylation of C₄ acids during C₄ photosynthesis has been investigated with four species of the genus Flaveria (Asteraceae). The C₃-C₄ intermediate species F. pubescens and F. anomala reassimilated CO₂ much more efficiently than the C₃ species F. cronquistii and, with respect to this feature, behaved similarly to the C₄ species F. trinervia. Therefore, under atmospheric conditions the intermediate species photorespired with rates only between 10–20% of that measured with F. cronquistii. At low oxygen concentrations (1,5%) the reassimilation potential of F. anomala approached that of F. trinervia and was distinct from that found with F. pubescens. The data are discussed with respect to a possible sequence of events during evolution of C₄ photosynthesis. If compared with related data for C₃-C₄ intermediate species from other genera they support the hypothesis that, during evolution of C₄ photosynthesis, an efficient capacity for CO₂ reassimilation evolved prior to a CO₂-concentrating mechanism.Abbreviations C₃, C₄ assimilated CO₂ initially found in 3-phosphoglycerate (C₃) or malate and aspartate (C₄) - D reassimilation coefficient - R _n , R _t net, total CO₂ evolution as measured with 0.03 and 3% CO₂, respectively - RuBP ribulose-1,5-bisphosphate - TPS true photosynthesis     

Probing the steric barrier of nonionic surfactant vesicles with melittin

The role of the surface polymer brush of nonionic surfactant vesicles (NSV) in inhibiting interactions with small membrane-perturbing molecules was investigated using the bee venom peptide melittin as a probe. The interaction between melittin and NSV was compared with that of distearoylphosphatidylcholine (DSPC) vesicles and sterically stabilised liposomes (SSL) containing 5 mol% pegylated distearoylphosphatidylethanolamine (DSPE.E₄₄). The degree of melittin interaction with the various vesicles was determined by measuring peptide binding and folding, using intrinsic tryptophan fluorescence and circular dichroism respectively, in addition to monitoring the release of encapsulated carboxyfluorescein dye. NSV composed of 1,2-di-O-octadecyl-rac-glyceryl-3-(ω-dodecaethylene glycol) (2C₁₈E₁₂) showed a strong affinity for melittin, whilst exhibiting ~ 50% less bound peptide than SSL. 2C₁₈E₁₂:Chol vesicles showed reduced melittin interaction, in a manner consistent with Chol incorporation into DSPC vesicles. These results are discussed with respect to the effect of Chol on the in-plane order of 2C₁₈E₁₂ bilayers and consequent attenuation of hydrophobic interactions with the peptide. NSV formed from equimolar mixtures of polyoxyethylene-n-stearoyl ethers C₁₈E₂ and C₁₈E₂₀ showed a greater interaction with melittin than 2C₁₈E₁₂. However, replacing C₁₈E₂₀ with C₁₈E₁₀ was sufficient to achieve an attenuation of melittin interaction similar to that observed in 2C₁₈E₁₂:Chol vesicles. This indicates that the presence of surface polymer brush alone may confer resistance to melittin, provided hydrophobic interactions between the peptide and the vesicles can be minimised, through improved in-plane bilayer order.     

Co-function of C3-and C4-photosynthetic pathways in C3, C4 and C3-C4 intermediate Flaveria species

The potential for C₄ photosynthesis was investigated in five C₃-C₄ intermediate species, one C₃ species, and one C₄ species in the genus Flaveria, using ¹⁴CO₂ pulse-¹²CO₂ chase techniques and quantum-yield measurements. All five intermediate species were capable of incorporating ¹⁴CO₂ into the C₄ acids malate and aspartate, following an 8-s pulse. The proportion of ¹⁴C label in these C₄ products ranged from 50–55% to 20–26% in the C₃-C₄ intermediates F. floridana Johnston and F. linearis Lag. respectively. All of the intermediate species incorporated as much, or more, ¹⁴CO₂ into aspartate as into malate. Generally, about 5–15% of the initial label in these species appeared as other organic acids. There was variation in the capacity for C₄ photosynthesis among the intermediate species based on the apparent rate of conversion of ¹⁴C label from the C₄ cycle to the C₃ cycle. In intermediate species such as F. pubescens Rydb., F. ramosissima Klatt., and F. floridana we observed a substantial decrease in label of C₄-cycle products and an increase in percentage label in C₃-cycle products during chase periods with ¹²CO₂, although the rate of change was slower than in the C₄ species, F. palmeri. In these C₃-C₄ intermediates both sucrose and fumarate were predominant products after a 20-min chase period. In the C₃-C₄ intermediates, F. anomala Robinson and f. linearis we observed no significant decrease in the label of C₄-cycle products during a 3-min chase period and a slow turnover during a 20-min chase, indicating a lower level of functional integration between the C₄ and C₃ cycles in these species, relative to the other intermediates. Although F. cronquistii Powell was previously identified as a C₃ species, 7–18% of the initial label was in malate+aspartate. However, only 40–50% of this label was in the C-4 position, indicating C₄-acid formation as secondary products of photosynthesis in F. cronquistii. In 21% O₂, the absorbed quantum yields for CO₂ uptake (in mol CO₂·[mol quanta]^-1) averaged 0.053 in F. cronquistii (C₃), 0.051 in F. trinervia (Spreng.) Mohr (C₄), 0.052 in F. ramosissima (C₃-C₄), 0.051 in F. anomala (C₃-C₄), 0.050 in F. linearis (C₃-C₄), 0.046 in F. floridana (C₃-C₄), and 0.044 in F. pubescens (C₃-C₄). In 2% O₂ an enhancement of the quantum yield was observed in all of the C₃-C₄ intermediate species, ranging from 21% in F. ramosissima to 43% in F. pubescens. In all intermediates the quantum yields in 2% O₂ were intermediate in value to the C₃ and C₄ species, indicating a co-function of the C₃ and C₄ cycles in CO₂ assimilation. The low quantum-yield values for F. pubescens and F. floridana in 21% O₂ presumably reflect an ineffcient transfer of carbon from the C₄ to the C₃ cycle. The response of the quantum yield to four increasing O₂ concentrations (2–35%) showed lower levels of O₂ inhibition in the C₃-C₄ intermediate F. ramosissima, relative to the C₃ species. This indicates that the co-function of the C₃ and C₄ cycles in this intermediate species leads to an increased CO₂ concentration at the site of ribulose-1,5-bisphosphate carboxylase/oxygenase and a concomitant decrease in the competitive inhibition by O₂.Abbreviations PEP phosphoenolpyruvate - PGA 3-phosphoglycerate - RuBP ribulose-1,5-bisphosphate