PR-1 gene family of grapevine: a uniquely duplicated PR-1 gene from a Vitis interspecific hybrid confers high level resistance to bacterial disease in transgenic tobacco

A functional contribution of pathogenesis-related 1 (PR-1) proteins to host defense has been established. However, systematic investigation of the PR-1 gene family in grapevine (Vitis spp.) has not been conducted previously. Through mining genomic databases, we identified 21 PR-1 genes from the Vitis vinifera genome. Polypeptides encoded by putative PR-1 genes had a signal sequence of about 25 residues and a mature protein of 10.9–29 kDa in size. PR-1 mature proteins contained a highly conserved six-cysteine motif and pI values ranging from 4.6 to 9. A major cluster with 14 PR-1 genes was mapped to a 280-kb region on chromosome 3. One particular PR-1 gene within the cluster encoding a basic-type isoform (pI 7.77), herein named VvPR1b1, was isolated from various genotypes of grapevine (Vitis spp.) for functional studies. Sequence analysis of PCR-amplified DNA revealed that all genotypes contained a single VvPR1b1 gene except for a broad-spectrum bacterial and fungal disease resistant Florida bunch grape hybrid, ‘BN5-4’, from which seven different homologues were identified. Duplication of VvPR1b1-related genes encoding acidic-type PR-1 isoforms was also observed among several genotypes. However, transgenic expression analysis of grapevine PR-1 genes under strong constitutive promoters in transgenic tobacco revealed that only the basic-type VvPR1b1 gene duplicated in ‘BN5-4’ was capable of conferring high level resistance to bacterial disease caused by Pseudomonas syringae pv. tabaci.     

Characterization of a Highly Purified, Fully Active, Crystallizable RC–LH1–PufX Core Complex from Rhodobacter sphaeroides

Photosynthetic complexes in bacteria absorb light and undergo photochemistry with high quantum efficiency. We describe the isolation of a highly purified, active, reaction center-light-harvesting 1–PufX complex (RC–LH1–PufX core complex) from a strain of the photosynthetic bacterium, Rhodobacter sphaeroides, which lacks the light-harvesting 2 (LH2) and contains a 6 histidine tag on the H subunit of the RC. The complex was solubilized with diheptanoyl-sn-glycero-3-phosphocholine (DHPC), and purified by Ni-affinity, size-exclusion and ion-exchange chromatography in dodecyl maltoside. SDS-PAGE analysis shows the complex to be highly purified. The quantum efficiency was determined by measuring the charge separation (DQ_A → D⁺Q_A^-) in the RC as a function of light intensity. The RC–LH1–PufX complex had a quantum efficiency of 0.95 ± 0.05, indicating full activity. The stoichiometry of LH1 subunits per RC was determined by two independent methods: (i) solvent extraction and absorbance spectroscopy of bacteriochlorophyll, and (ii) density scanning of the SDS-PAGE bands. The average stoichiometry from the two measurements was 13.3 ± 0.9 LH1/RC. The presence of PufX was observed in SDS-PAGE gels at a stoichiometry of 1.1 ± 0.1/RC. Crystals of the core complex have been obtained which diffract X-rays to 12 Å. A preliminary analysis of the space group and unit cell analysis indicated a P1 space group with unit cell dimensions of a = 76.3 Å, b = 137.2 Å, c = 137.5 Å; α = 60.0°, β = 89.95°, γ =90.02°.     

Temporal and subcellular localization of PR-1 proteins in tomato stem tissues infected by virulent and avirulent isolates of Phytophthora capsici

Summary. Immunoblot analysis and immunogold labeling of PR-1 protein (pathogenesis-related protein 1) in tomato (Lycopersicon esculentum Mill.) were performed to examine the temporal and spatial expression patterns of PR-1 protein induced by Phytophthora capsici infection. Soluble proteins with molecular masses of 10, 17, 25, 27 and 75 kDa were induced and accumulated in P. capsici-infected stem tissues during the compatible and incompatible interactions. Western blot analysis revealed that expression of PR-1 protein (17 kDa), at 12 to 24 h after inoculation, occurred earlier in the incompatible than in the compatible interaction. Immunogold labeling of PR-1 proteins occurred over cell walls and cytoplasm of the host and the oomycete pathogen and at the interface between host and oomycete cell walls at 24 h after inoculation in the compatible interaction. In the incompatible interaction, numerous PR-1 proteins accumulated predominantly over oomycete cell walls and at the interface between host and oomycete cell walls. The quantity of PR-1 proteins deposited in both host and oomycete cells was much less in the compatible than the incompatible interaction. Healthy tomato stem tissue was nearly free of immunogold labeling of PR-1 proteins. Received October 9, 2001 Accepted January 18, 2002     

Constitutive expression of the neutral PR-5 (OLP, PR-5d) gene in roots and cultured cells of tobacco is mediated by ethylene-responsive cis-element AGCCGCC sequences

The constitutive accumulation of tobacco neutral PR-5 (osmotin-like protein; OLP, PR-5d) in roots and cultured cells was studied in transgenic tobacco plants harboring the OLP promoter::GUS gene. This construct showed strong β-glucuronidase expression in vascular tissues and cortex of roots as well as in cultured cells. Analysis using a mutated promoter showed that ethylene-responsive elements (AGCCGCC) were necessary for constitutive expression in roots and cultured cells. An electrophoretic mobility shift assay indicated that ERF3 (EREBP3), an ethylene-responsive-element-binding factor that was reported to be expressed in roots and in cultured cells as well as in ethephon-treated leaves, could bind to the AGCCGCC sequences of the OLP gene. These findings suggest that AGCCGCC sequences and ERFs mediate the constitutive expression of the OLP gene in roots and cultured cells of tobacco. Received: 14 November 1997 / Revision received: 29 May 1998 / Accepted: 8 July 1998     

Dimerization and protease resistance: New insight into the function of PR-1

The group 1 pathogenesis-related (PR-1) proteins have long been considered hallmarks of hypersensitive response/defense pathways in plants, but their biochemical functions are still obscure despite resolution of the NMR/X-ray structures of several PR-1-like proteins, including P14a (the prototype PR-1). We report here the characterization of two basic PR-1 proteins (PR-1-1 and PR-1-5) recently identified from hexaploid wheat (Triticum aestivum). Both proteins were expressed in Pichia pastoris as a single major species of ∼15 kDa. Sequence identity of the expressed PR-1 proteins was verified by MALDI-TOF/TOF analysis. Accumulation of the native PR-1-5 protein in pathogen-challenged wheat was confirmed by protein gel blot analysis. Low-temperature SDS-PAGE and yeast two-hybrid assays revealed that PR-1-1 exists primarily as a monomer whereas PR-1-5 forms homodimers. Both PR-1 proteins are resistant to proteases compared to bovine serum albumin, but PR-1-1 shows resistance mainly to subtilisin and protease K (serine proteases) whereas PR-1-5 shows resistance to subtilisin, protease K and papain (a cysteine protease). Site-specific mutations at the five putative active sites in the PR-1 domain all affected dimerization, with the mutations at Glu-72 and Glu-102 (in the PR-1-5 numeration) also diminishing protease resistance. Sequence analysis revealed that the Glu-72 and Glu-102 residues are located in motif-like sequences that are conserved in both PR-1 and the human apoptosis-related caspase proteins. These findings prompt us to examine the function of PR-1 for a role in protease-mediated programmed cell death pathways in plants.     

Over-expression of the cloned rice thaumatin-like protein (PR-5) gene in transgenic rice plants enhances environmental friendly resistance to Rhizoctonia solani causing sheath blight disease

 A 1.1-kb DNA fragment containing the coding region of a thaumatin-like protein (TLP-D34), a member of the PR-5 group, was cloned into the rice transformation vector pGL2, under the control of the CaMV 35S promoter. The Indica rice cultivars, ‘Chinsurah Boro II’, ‘IR72’, and ‘IR51500’ were transformed with the tlp gene construct by PEG-mediated direct gene transfer to protoplasts and by biolistic transformation using immature embryos. The presence of the chimeric gene in T₀, T₁, and T₂ transgenic plants was detected by Southern blot analysis. The presence of the expected 23-kDa TLP in transgenic plants was confirmed by Western blot analysis and by staining with Coomassie Brilliant Blue. Bioassays of transgenic plants challenged with the sheath blight pathogen, Rhizoctonia solani, indicated that over-expression of TLP resulted in enhanced resistance compared to control plants. Received: 11 August 1998 / Accepted: 26 August 1998     

Molecular Characterization of an Oomycete-Responsive PR-5 Protein Gene from <Emphasis Type="Italic">Zingiber zerumbet</Emphasis>

The tropical spice crop ginger (Zingiber officinale Roscoe) is highly susceptible to soft rot disease caused by the necrotrophic oomycete Pythium aphanidermatum (Edson) Fitzp. However, Zingiber zerumbet (L.) Smith, a wild relative of ginger, is resistant to P. aphanidermatum and has been proposed as a potential donor for soft rot resistance to Z. officinale. We identified a member of the pathogenesis-related protein group 5 (PR-5) gene family in Z. zerumbet that is expressed constitutively but upregulated in response to infection by P. aphanidermatum. Expression of this gene was upregulated as early as 1.5 h post inoculation (hpi) with the pathogen, peaked at 6 hpi, declined by 9 hpi, and again peaked at 15 hpi before declining at 48 hpi. A cDNA of this PR-5 gene, designated as ZzPR5, encodes a 226-amino-acid predicted protein with a calculated pI of 5.05. The N terminus of this protein contains a 22-amino-acid signal peptide, suggesting that the protein may show apoplastic accumulation like other acidic PR-5 proteins. Phylogenetic analysis revealed high similarity between ZzPR5 and PR-5 proteins reported from other plant species, especially from other Zingiberales. Molecular modeling of ZzPR5 protein revealed an acidic surface cleft, a feature characteristic of glycoside hydrolases and antifungal PR-5 proteins. In molecular docking studies, a linear polymeric molecule of (1,3)-β-d-glucan, a major constituent of the oomycete cell wall, fitted favorably into the surface cleft of ZzPR5 and interacted with acidic amino acids known to be involved in glucan hydrolysis, suggesting a potential antioomycete activity for ZzPR5 protein. Elucidation of the molecular mechanism of ZzPR5 may provide important insight toward engineering soft rot resistance into the obligatory asexual ginger.     

Intranuclear synthesized and native glycogen particles in human gastric cancer: Ultrastructure and histochemistry

Summary Ultrastructural and histochemical studies on human gastric cancer cells disclosed the presence of native and synthesized glycogen particles. The glycogen particles were investigated in the histochemical synthesis of glycogen particles from glucose 1-phosphate by the phosphorylase-branching glycosyltransferase system and non-incubated native glycogen in human gastric adenocarcinoma tubulare.It was observed that focal synthesis localized in the intracytoplasmic matrix and intranucleus. Intranuclear synthesized glycogen appeared as a rosette form ranging from 1100 to 1300 Å in diameter and free particles ranging from 325 to 900 Å in diameter. The synthesis of glycogen appeared in the nucleus as well as in the cytoplasm of the human gastric cancer cells, and the synthesized glycogen was observed as a group of particles. Newly formed glycogen particles appeared occasionally in the interchromatin area as a large macromolecular structure of rosette form.Native glycogen appeared as a free-particle (250–333 Å, medium=300 Å) and aggregated rosette from (694–1050 Å, medium=917 Å) in the autophagosome of gastric cancer cells. There was not, however, a native glycogen particle in the nuclei of gastric cancer cells.Under certain conditions the nuclei of gastric cancer cells can acquire the capacity to synthesize glycogen.     

Proteomic analysis of pathogenesis-related proteins (PRs) induced by compatible and incompatible interactions of pepper mild mottle virus (PMMoV) in Capsicum chinense L3 plants

Resistance conferred by the L³ gene is active against most ofthe tobamoviruses, including the Spanish strain (PMMoV-S), aP_1,2 pathotype, but not against certain strains of pepper mildmottle virus (PMMoV), termed P_1,2,3 pathotype, such as the Italianstrain (PMMoV-I). Both viruses are nearly identical at theirnucleotide sequence level (98%) and were used to challenge Capsicumchinense PI159236 plants harbouring the L³ gene in order tocarry out a comparative proteomic analysis of PR proteins inducedin this host in response to infection by either PMMoV-S or PMMoV-I.PMMoV-S induces a hypersensitive reaction (HR) in C. chinensePI159236 plant leaves with the formation of necrotic local lesionsand restriction of the virus at the primary infection sites.In this paper, C. chinense PR protein isoforms belonging tothe PR-1, β-1,3-glucanases (PR-2), chitinases (PR-3), osmotin-likeprotein (PR-5), peroxidases (PR-9), germin-like protein (PR-16),and PRp27 (PR-17) have been identified. Three of these PR proteinisoforms were specifically induced during PMMoV-S-activationof C. chinense L³ gene-mediated resistance: an acidic β-1,3-glucanaseisoform (PR-2) (M_r 44.6; pI 5.1), an osmotin-like protein (PR-5)(M_r 26.8; pI 7.5), and a basic PR-1 protein isoform (M_r 18;pI 9.4–10.0). In addition, evidence is presented for adifferential accumulation of C. chinense PR proteins and mRNAsin the compatible (PMMoV-I)–C. chinense and incompatible(PMMoV-S)–C. chinense interactions for proteins belongingto all PR proteins detected. Except for an acidic chitinase(PR-3) (M_r 30.2; pI 5.0), an earlier and higher accumulationof PR proteins and mRNAs was detected in plants associated withHR induction. Furthermore, the accumulation rates of PR proteinsand mRNA did not correlate with maximal accumulation levelsof viral RNA, thus indicating that PR protein expression mayreflect the physiological status of the plant. Key words: Capsicum chinense, compatible interaction, incompatible interaction, HR-induction, PMMoV, PR proteins Received 5 December 2007; Revised 21 January 2008 Accepted 22 January 2008     

Evidence that the role of plant defensins in radish defense responses is independent of salicylic acid

Radish leaves contain two homologous 5-kDa plant defensins which accumulate systemically upon infection by fungal pathogens (F.R.G. Terras et al., 1995, Plant Cell 7: 573–588). Here we report on the molecular cloning of the cDNAs encoding the two pathogen-inducible plant defensin isoforms from radish (Raphanus sativus L.) leaves. Tissue-print and whole-leaf electroblot immunostaining showed that the plant defensin peptides not only accumulate at high levels at or immediately around the infection sites in leaves inoculated with Alternariabrassicicola, but also accumulate in healthy tissue further away from the infection sites and in non-infected leaves from infected plants. Gel blot analysis of RNA confirmed that expression of plant defensin genes is systemically triggered upon fungal infection whereas radish PR-1 gene expression is only activated locally. In contrast to the radish PR-1 gene(s), expression of the radish plant defensin genes was not induced by external application of salicylic acid. Activation of the plant defensin genes, but not that of PR-1 genes, occurred upon treatment with methyl jasmonate, ethylene and paraquat. Received: 3 December 1997 / Accepted: 3 March 1998     

The ultrastructure of multilamellar bodies and surfactant in the human lung

Summary Normal tissues from human lungs were dehydrated through Epon 812 resin to retain many of the lipids and carbohydrates in thin section. The three-dimensional structure of the multilamellar body was determined. The paired layer of phospholipid heads (PH) is 36Å thick; the layer of fatty-acid tails (FA) is 31Å, the same as reported previously for non-human primates and rodents. The human multilamellar body is apparently unique: the lamellae of the major focus divide into two or three lamellae; the matrix material of the core is without vesicular bodies and a projection core is present. When compared with those of the rat, human tissues contain a greater number of lamellar foci and fewer lamellae per focus. The presence of a peripheral layer of lamellae, an ever-present external limiting membrane, and the fusion of multilamellar bodies are also characteristic. Tubular myelin surfactant has the same appearance as in other mammals.Multilamellar bodies were observed in direct communication with Golgi vesicles. Their origin from multivesicular bodies and their maturation through secretion and exocytosis were demonstrated.Untransformed multilamellar bodies in the alveolar space demonstrated three periodicities (P): (1) compact regular lamellae, PH = 36Å, FA = 31Å, P = 66Å; (2) compact broad lamellae, PH = 72Å, FA = 22Å, P = 94Å; (3) loose lamellae, PH = 36Å, FA = 36Å, FA = 31Å with a variable interlamellar space.Appreciation is expressed to Nuket Olson and Phil Offenhauser for their technical assistance. Supported by a grant from the American Lung Association     

Crystallization and Characterization of Pumilio: A Novel RNA Binding Protein

Axis determination in early Drosophila embryos is controlled, in part, by regulation of translation of mRNAs transcribed in maternal cells during oogenesis. The Pumilio protein is essential in posterior determination, binding to hunchback mRNA in complex with Nanos to suppress hunchback translation. In order to understand the structural basis of RNA binding, Nanos recruitment, and translational control, we have crystallized a domain of the Drosophila Pumilio protein that binds RNA. The crystals belong to the space group P6₃ with unit cell dimensions of a = b = 94.5 Å, c = 228.9 Å, α = β = 90°, γ = 120° and diffract to 2.6 Å with synchrotron radiation. We show that the purified protein actively binds RNA and is likely to have a novel RNA binding fold due to a very high content of α-helical secondary structure.     

Ultrastructural Evidence for Neuromuscular Systems in Coelenterates

Cellular interrelationships and synaptic connections in tentaclesof several species of coelenterates were examined by means ofelectron microscopy to determine if neuromuscular pathways werepresent. The presence of sensory cells, ganglion cells, epitheliomuscularcells, interneuronal synapses, and neuromuscular junctions suggeststhat neuromuscular pathways are present in coelenterates. Nakedaxons without sheath cells form several synapses en passantwith the same and with different epitheliomuscular cells aswell as with nematocytes and other neurons. Interneuronal synapsesand neuromuscular and neuronematocyte junctions have clear ordense-cored vesicles (700–1500 Å in diameter) associatedwith a dense cytoplasmic coat on the presynaptic membrane, acleft (100–300 Å in width) with intracleft filaments,and a subsynaptic membrane with a dense cytoplasmic coat. Atscyphozoan neuromuscular junctions there is a subsurface cisternaof endoplasmic reticulum, which is separated from the epitheliomuscularcell membrane by a narrow cytoplasmic gap (100–300 Åin width) . Neuromuscular junctions in coelenterates resembleen passant axonal junctions with smooth muscle in higher animals. Morphological evidence is presented for a simple reflex involvinga two-cell (sensory or ganglion-epitheliomuscular cell) or three-cell(sensory-ganglion-epitheliomuscular cell) pathway that may resultin the coordinated contraction of the longitudinal muscle intentacles of coelenterates.     

What can we learn about the lipid vesicle structure from the small-angle neutron scattering experiment?

Small-angle neutron scattering (SANS) on the unilamellar vesicle (ULV) populations (diameter 500 and 1,000 Å) in D₂O was used to characterize lipid vesicles from dimyristoylphosphatidylcholine (DMPC) at three phases: gel L_β′, ripple P_β′ and liquid L_α. Parameters of vesicle populations and internal structure of the DMPC bilayer were characterized on the basis of the separated form factor (SFF) model. Vesicle shape changes from nearly spherical in the L_α phase to elliptical in the P_β′ and L_β′ phases. This is true for vesicles prepared via extrusion through pores with the diameter 500 Å. Parameters of the internal bilayer structure (thickness of the membrane and the hydrophobic core, hydration and the surface area of the lipid molecule) were determined on the basis of the hydrophobic–hydrophilic (HH) approximation of neutron scattering length density across the bilayer ρ(x) and of the step function (SF) approximation of ρ(x). DMPC membrane thickness in the L_α phase (T=30°C) demonstrates a dependence on the membrane curvature for extruded vesicles. Prepared via extrusion through 500 Å diameter pores, vesicle population in the L_α phase has the following characteristics: average value of minor semi-axis 266±2 Å, ellipse eccentricity 1.11±0.02, polydispersity 26%, thickness of the membrane 48.9±0.2 Å and of the hydrophobic core 19.9±0.4 Å, surface area 60.7±0.5 Ų and number of water molecules 12.8±0.3 per DMPC molecule. Vesicles prepared via extrusion through pores with the diameter 1,000 Å have polydispersity of 48% and membrane thickness of 45.5±0.6 Å in the L_α phase. SF approximation was used to describe the DMPC membrane structure in L_β′ (T=10°C) and P_β′ (T=20°C) phases. Extruded DMPC vesicles in D₂O have membrane thickness of 49.6±0.5 Å in the L_β′ phase and 48.3±0.6 Å in the P_β′ phase. The dependence of the DMPC membrane thickness on temperature was restored from the SANS experiment.     

Organization of phenylalanine ammonia lyase (<Emphasis Type="Italic">PAL</Emphasis>), acidic <Emphasis Type="Italic">PR-5</Emphasis> and osmotin-like (<Emphasis Type="Italic">OSM</Emphasis>) defence-response gene families in the potato genome

Defence-response (DR) genes are candidates for the genetic functions underlying quantitative resistance to plant pathogens. The organization of three DR gene families encoding phenylalanine ammonia lyase (PAL), acidic PR-(pathogenesis-related) protein 5, and basic PR-5, or osmotin-like (OSM), proteins was studied in the potato genome. A bacterial artificial chromosome (BAC) library containing ~50,000 clones was constructed from high-molecular weight genomic DNA of the diploid potato clone PD59, a hybrid between Solanum tuberosum and S. phureja. BAC clones carrying one or more copies of the DR genes were identified and characterized by Southern hybridization, sequence analysis and genetic mapping. PAL, acidic PR-5 and OSM (basic PR-5) genes were all organized into gene families of varying complexity. The PAL gene family consisted of at least 16 members, several of which were physically linked. Four acidic PR-5 homologous were localized to a 45-kb segment on potato chromosome XII. One of these, PR-5/319, codes for the acidic thaumatin-like protein C found in intercellular fluids of potato. Nine OSM genes were organized at two loci: eight form a 90-kb cluster on chromosome VIII, and a single gene was found on chromosome XI. The topology of a phylogenetic tree based on PR-5 and OSM protein sequences from Solanaceae suggests a mode of evolution for these gene families. The results will form the basis for further studies on the potential role of these defence-related loci in quantitative resistance to pathogens.     

Protein kinase C activity and isoform expression during early postnatal development of rat myocardium

Total protein kinase C (PKC) activity, its isoform expression, and concentration and fatty acid (FA) composition of diacylglycerol (DAG) were determined in the left ventricular myocardium of the rat during early postnatal development (d 2, 3, 5, 7, and 10). PKC activity measured by the incorporation of ³²P into histone IIIS decreased between d 2 and 10 in the homogenate as well as in cytosolic, membrane (100,000g), and nuclear-cytoskeletal-myofilament fractions (1000g). Likewise, the expression of PKC isoforms (α, δ, and ε) determined by immunoblotting generally declined during the period analyzed, although with a variable pattern. In the membrane and nuclear cytoskeletal myofilament fractions, PKCδ and PKCε expression decreased markedly by d 3, returning to or close to the d 2 level immediately on d 5. PKCα expression in the membrane fraction remained almost unchanged by d 7, declining thereafter. PKCδ and PKCε were associated predominantly with particulate fractions, whereas PKCα was more abundant in the cytosolic fraction. DAG concentration exhibited a significant decline by d 5, consistent with the decrease in maximal PKC activity. The unsaturation index of FA in DAG tended to decrease on d 3 owing to the lowered proportion of all polyunsaturated FA of n−6 and n−3 series. These results demonstrate that the developmental decrease in PKC activity and expression in the rat myocardium is not linear and that subcellular localization of the enzyme exhibits isoform-specific day-by-day changes during the early postnatal period. These changes are compatible with the view that PKC signaling may be involved in the control of a rapid switch of myocardial growth pattern during the first week of life.     

Morphology of egg phosphatidylcholine-cholesterol single-bilayer vesicles,studied by freeze-etch electron microscopy

Summary Homogeneous, small, single-bilayer vesicles were prepared from egg phosphatidylcholine with various concentrations of cholesterol by ultrasonic dispersion in 0.1m KCl, 0.01m Tris, pH 8.0, buffer, followed by gel chromatography. The shape and size distributions of the fractionated vesicles were investigated for preparations with cholesterol compositions from 0 to 50 moles/100 moles, using freeze-etch electron microscopy. The size distribution was estimated from the shadow width of vesicles which were exposed by etching and the vesicle shape was checked by comparing the images obtained by tilting the replicas. The widths of the vesicle diameter distributions were relatively broad, corresponding to standard deviations in the range 60–90 Å, but showing no systematic variation with cholesterol composition. In all cases it was found that 70% of the vesicle diameters lay within 150 Å of the modal value. The apparent vesicle diameters remained constant for cholesterol compositions up to 20 moles/100 moles (modal diameter=330 ± 20 Å, mean diameter = 350 ± 3 Å), but there was a sharp net increase in diameter at 30 moles cholesterol/100 moles reaching a model diameter of 430 ± 20 Å (mean diameter = 430 ± 3 Å) at 50 moles cholesterol/100 moles. Using the tilted microscope stage it was found that all vesicles were spherical at all cholesterol compositions studied, including those above 30 moles cholesterol/100 moles. The molecular mechanism by which cholesterol controls the vesicle size is discussed in terms of the asymmetric distribution of cholesterol across the vesicle bilayer.