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1.
The transfer of phospholipid molecules between biological and synthetic membranes is facilitated by the presence of soluble catalytic proteins, such as those isolated from bovine brain which interacts with phosphatidylinositol and phosphatidylcholine and from bovine liver which is specific for phosphatidylcholine. A series of tertiary amine local anesthetics decreases the rates of protein-catalyzed phospholipid transfer. The potency of inhibition is dibucaine>tetracaine>lidocaine>procaine, an order which is compared with and identical to those for a wide variety of anesthetic-dependent membrane phenomena. Half-maximal inhibition of phosphatidylinositol transfer by dibucaine occurs at a concentration of 0.18 mM, significantly lower than the concentration of 1.9 mM required for half-maximal inhibition of phosphatidylcholine transfer activity of the brain protein. Comparable inhibition of liver protein phosphatidylcholine transfer activity is observed at 1.6 mM dibucaine. For activity measurements performed at different pH, dibucaine is more potent at the lower pH values which favor the equilibrium toward the charged molecular species. With membranes containing increasing molar proportions of phosphatidate, dibucaine is increasingly more potent. No effect of Ca2+ on the control transfer activity or the inhibitory action of dibucaine is noted. These results are discussed in terms of the formation of specific phosphatidylinositol or phosphatidylcholine complexes with the amphiphilic anesthetics in the membrane bilayer. 相似文献
2.
A recently developed fluorimetric transfer assay (Somerharju, P., Brockerhoff, H. and Wirtz, K.W.A. (1981) Biochim. Biophys. Acta 649, 521–528) has been applied to study the substrate specificity and membrane binding of the phosphatidylinositol-transfer protein from bovine brain. The substrate specificity was investigated by measuring the rate of transfer, either directly or indirectly, for a series of phosphatidylinositol analogues which included phosphatidic acid, phosphatidylglycerol as well as three lipids obtained from yeast phosphatidylinositol by partial periodate oxidation and subsequent borohydride reduction. Phosphatidylglycerol and the oxidation products of phosphatidylinositol were transferred at about one tenth of the rate observed for phosphatidylinositol while phosphatidic acid was not transferred. It is concluded that an intact inositol moiety favours the formation of the putative transfer protein-phosphatidylinositol complex. In addition to phosphatidylinositol, the transfer protein also transfers phosphatidylcholine. In order to obtain information on the possible occurrence of two sites of interaction, vesicles consisting of either pure 1-acyl-2-parinaroylphosphatidylinositol or 1-acyl-2-parinaroylphosphatidylcholine were titrated with the protein. Binding of labeled phospholipid to the protein was represented by an increase of lipid fluorescence and found to be much more efficient for phosphatidylinositol than for phosphatidylcholine. This is interpreted to indicate that the protein contains an endogenous phosphatidylinositol molecule which can be easily replaced by exogenous phosphatidylinositol but not by phosphatidylcholine, a lipid with a lower affinity for this protein. Thus the binding sites for the two phospholipids are mutually exclusive, i.e. phosphatidylinositol and phosphatidylcholine cannot be bound to the protein simultaneously. Finally, the effect of acidic phospholipids on the transfer protein activity was studied either by varying the content of phosphatidic acid in the acceptor vesicles or by adding vesicles of pure acidic phospholipids to the normal assay system. The latter vesicles consisted of either phosphatidic acid, phosphatidylglycerol, phosphatidylserine, phosphatidylinositol or cardiolipin. In both instances the transfer protein activity was inhibited, obviously through the enhanced association of the protein with the negatively charged vesicles. These findings strongly suggest that relatively nonspecific ionic forces rather than specific protein-phospholipid headgroup interactions contribute to the association of the phosphatidylinositol-transfer protein with membranes. 相似文献
3.
We have developed a simple fluorescence-based method to monitor antibody internalization. Panitumumab was dual-labeled with the fluorophore IRDye 800CW and quencher IRDye QC-1 to yield the biomolecular probe Pan800QC. The fluorescence of IRDye 800CW is quenched by IRDye QC-1 on the same intact antibody. After incubation with epidermal growth factor receptor (EGFR)-expressing cells, internalization of Pan800QC was detected by an increase in fluorescence signal due to enzymatic digestion of the antibody and separation of IRDye 800CW and IRDye QC-1. By optimizing reaction conditions, a signal-to-background ratio of 8.5 was obtained. This homogeneous assay can be applied in the characterization and screening of internalizing antibodies. 相似文献
4.
A novel fluorescent phospholipid, whose structure was tentatively assigned as 1-(2′-thio-1′-hydroxyethyl)-2-(ethylphosphatidyl)isoindole), was synthesized by reacting O-phthalaldehyde and β-mercaptoethanol with phosphatidylethanolamine. The fluorescent lipid product was purified by silicic acid chromatography. The purity was demonstrated by thin-layer chromatography. This fluorescent phospholipid could not form stable lipid vesicles. However, a mixture of phosphatidylcholine and this fluorescent phospholipid did form stable vesicles after sonication, as demonstrated by Sepharose 4B column chromatography and electron microscopy. The absorption and fluorescence properties of this lipid, both as aqueous micelles or incorporated into vesicles, have been determined. The potential usage of this new fluorescent phospholipid in membrane studies is discussed. 相似文献
5.
Two fluorescence energy transfer assays for phospholipid vesicle-vesicle fusion have been developed, one of which is also sensitive to vesicle aggregation. Using a combination of these assays it was possible to distinguish between vesicle aggregation and fusion as induced by poly(ethylene glycol) PEG 8000. The chromophores used were 1-(4′-carboxyethyl)-6-diphenyl-trans-1,3,5-hexatriene as fluorescent ‘donor’ and 1-(4′-carboxyethyl)-6-(4″-nitro)diphenyl-trans-1,3,5-hexatriene as ‘acceptor’. These acids were appropriately esterified giving fluorescent phospholipid and triacylglycerol analogues. At 20°C poly(ethylene glycol) 8000 (PEG 8000) caused aggregation of l-α-dipalmitoylphosphatidylcholine (DPPC) vesicles without extensive fusion up to a concentration of about 35% (w/w). Fusion occurred above this poly(ethylene glycol) concentration. The triacylglycerol probes showed different behaviour from the phospholipids: while not exchangeable through solution in the absence of fusogen, they appeared to redistribute between bilayers under aggregating conditions. DPPC vesicles aggregated with < 35% poly(ethylene glycol) could not be disaggregated by dilution, as monitored by the phospholipid probes. However, DPPC vesicles containing approx. 5% phosphatidylserine which had been aggregated by poly(ethylene glycol) could be disaggregated by either dilution or sonication. Phospholipid vesicles aggregated by low concentrations of poly(ethylene glycol) appear to fuse to multilamellar structures on heating above the lipid phase transition temperature. 相似文献
6.
Fluorescence quenching and resonance energy transfer have been used to determine the localization of the local anesthetic tetracaine in vesicles composed of 1,2-dimyristoyl-sn-glycero-3-phosphatidylcholine (DMPC) as a function of both temperature and ionic strength. The fluorescence behaviour of tetracaine in vesicles can be attributed to its different partition coefficients in acid and basic solution, in gel phase and fluid phase vesicles, respectively. Using both steady-state and time-resolved fluorescence measurements we show that a saturable binding rather than a partitioning model holds for the interaction of tetracaine with gel phase bilayers. The relative quenching efficiencies of the series of n-AS dyes depend on the phase state of the bilayer and suggest a deeper incorporation of tetracaine in fluid phase than in gel phase membranes. Resonance energy transfer measurements support the view that tetracaine is incorporated predominantly in the region of the 9-AS chromophore in DMPC-bilayers. 相似文献
7.
Takuo Osawa Nobuo N. Noda 《Protein science : a publication of the Protein Society》2019,28(6):1005-1012
The degradation of cytoplasmic components via autophagy is crucial for intracellular homeostasis. In the process of autophagy, a newly synthesized isolation membrane (IM) is developed to sequester degradation targets and eventually the IM seals, forming an autophagosome. One of the most poorly understood autophagy‐related proteins is Atg2, which is known to localize to a contact site between the edge of the expanding IM and the exit site of the endoplasmic reticulum (ERES). Recent advances in structural and biochemical analyses have been applied to Atg2 and have revealed it to be a novel multifunctional protein that tethers membranes and transfers phospholipids between them. Considering that Atg2 is essential for the expansion of the IM that requires phospholipids as building blocks, it is suggested that Atg2 transfers phospholipids from the ERES to the IM during the process of autophagosome formation, suggesting that lipid transfer proteins can mediate de novo organelle biogenesis. 相似文献
8.
Pfaeffle HJ Fischer KJ Manson TT Tomaino MM Herndon JH Woo SL 《Journal of biomechanics》1999,32(12):447-1335
Previous approaches to measuring forces in the forearm have made the assumption that forces acting in the radius and ulna are uniaxial near the wrist and elbow. To accurately describe forces in the forearm and the forces in the interosseous ligament, we have developed a new methodology to quantitatively determine the 3-D force vectors acting in forearm structures when a compressive load is applied to the hand. A materials testing machine equipped with a six degree-of-freedom universal force–moment sensor (UFS) was employed to apply a uniaxial compressive force to cadaveric forearms gripped at the hand and humerus. Miniature UFSs were implanted into the distal radius and proximal ulna to measure force vectors there. A 3-D digitizing device was used to measure transformations between UFS coordinate systems, utilized for calculating the force vectors in the distal ulna, proximal radius, and the interosseous ligament (IOL). This method was found to be repeatable to within 3 N, and accurate to within 2 N for force magnitudes. Computer models of the forearm, generated from CT scans, were used to visualize the force vectors in 3-D. Application of this methodology to eight forearm specimens showed that the radius carries most of the load at the wrist while force in the IOL relieves load acting in the radius at the mid-forearm. For a 136 N applied hand force, the force in the IOL was 36±21 N. Advantages of this methodology include the determination of 3-D force vectors, especially those in the IOL, as well as computer generated 3-D visualization of results. 相似文献
9.
Sabatini RA Bersanetti PA Farias SL Juliano L Juliano MA Casarini DE Carmona AK Paiva AC Pesquero JB 《Analytical biochemistry》2007,363(2):255-262
An assay using fluorescence resonance energy transfer peptides was developed to assess angiotensin I-converting enzyme (ACE) activity directly on the membrane of transfected Chinese hamster ovary cells (CHO) stably expressing the full-length somatic form of the enzyme. The advantage of the new method is the possibility of using selective substrates for the two active sites of the enzyme, namely Abz-FRK(Dnp)P-OH for somatic ACE, Abz-SDK(Dnp)P-OH for the N domain, and Abz-LFK(Dnp)-OH for the C domain. Hydrolysis of a peptide bond between the donor/acceptor pair (Abz/Dnp) generates detectable fluorescence, allowing quantitative measurement of the enzymatic activity. The kinetic parameter K(m) for the hydrolysis of the three substrates by ACE in this system was also determined and the values are comparable to those obtained using the purified enzyme in solution. The specificity of the activity was demonstrated by the complete inhibition of the hydrolysis by the ACE inhibitor lisinopril. Therefore, the results presented in this work show for the first time that determination of ACE activity directly on the surface of intact CHO cells is feasible and that the method is reliable and sensitive. In conclusion, we describe a methodology that may represent a new tool for the assessment of ACE activity which will open the possibility to study protein interactions in cells in culture. 相似文献
10.
Anchoring of a monotopic membrane protein: the binding of prostaglandin H2 synthase-1 to the surface of a phospholipid bilayer 总被引:3,自引:0,他引:3
Prostaglandin H2 synthases (PGHS-1 and -2) are monotopic peripheral membrane proteins that catalyse the synthesis of prostaglandins in the
arachidonate cascade. Picot et al. (1994) proposed that the enzyme is anchored to one leaflet of the bilayer by a membrane
anchoring domain consisting of a right-handed spiral of amphipathic helices (residues 73–116) forming a planar motif. Two
different computational approaches are used to examine the association of the PGHS-1 membrane anchoring domain with a membrane
via the proposed mechanism. The electrostatic contribution to the free energy of solvation is obtained by solving numerically
the finite-difference Poisson equation for the protein attached to a membrane represented as a planar slab of low dielectric.
The nonpolar cavity formation and van der Waals contributions to the solvation free energy are assumed to be proportional
to the water accessible surface area. Based on the optimum position determined from the continuum solvent model, two atomic
models of the PGHS-1 anchoring domain associated with an explicit dimyristoylphosphatidylcholine (DMPC) bilayer differing
by the thickness of the membrane bilayer were constructed. A total of 2 ns molecular dynamics simulation were performed to
study the details of lipid- protein interactions at the microscopic level. In the simulations the lipid hydrocarbon chains
interacting with the anchoring domain assume various shapes, suggesting that the plasticity of the membrane is significant.
The hydrophobic residues in the membrane side of the helices interact with the hydrophobic membrane core, while the positively
charged residues interact with the lipid polar headgroups to stabilize the anchoring of the membrane domain to the upper half
of the bilayer. The phosphate headgroup of one DMPC molecule disposed at the center of the spiral formed by helices A, B,
C and D interacts strongly with Arg120, a residue on helix D that has previously been identified as being important in the
activity of PGHS-1. In the full enzyme structure, this position corresponds to the entrance of a long hydrophobic channel
leading to the cyclooxygenase active site. These observations provide insights into the association of the arachidonic acid
substrate to the cyclooxygenase active site of PGHS-1.
Received: 20 December 1999 / Revised version: 26 March 2000 / Accepted: 26 March 2000 相似文献
11.
Kyrychenko A Sevriukov IY Syzova ZA Ladokhin AS Doroshenko AO 《Biophysical chemistry》2011,154(1):8-17
Successful use of fluorescence sensing in elucidating the biophysical properties of lipid membranes requires knowledge of the distribution and location of an emitting molecule in the bilayer. We report here that 2,6-bis(1H-benzimidazol-2-yl)pyridine (BBP), which is almost non-fluorescent in aqueous solutions, reveals a strong emission enhancement in a hydrophobic environment of a phospholipid bilayer, making it interesting for fluorescence probing of water content in a lipid membrane. Comparing the fluorescence behavior of BBP in a wide variety of solvents with those in phospholipid vesicles, we suggest that the hydrogen bonding interactions between a BBP fluorophore and water molecules play a crucial role in the observed “light switch effect”. Therefore, the loss of water-induced fluorescence quenching inside a membrane are thought to be due to deep penetration of BBP into the hydrophobic, water-free region of a bilayer. Characterized by strong quenching by transition metal ions in solution, BBP also demonstrated significant shielding from the action of the quencher in the presence of phospholipid vesicles. We used the increase in fluorescence intensity, measured upon titration of probe molecules with lipid vesicles, to estimate the partition constant and the Gibbs free energy (ΔG) of transfer of BBP from aqueous buffer into a membrane. Partitioning BBP revealed strongly favorable ΔG, which depends only slightly on the lipid composition of a bilayer, varying in a range from − 6.5 to − 7.0 kcal/mol. To elucidate the binding interactions of the probe with a membrane on the molecular level, a distribution and favorable location of BBP in a POPC bilayer were modeled via atomistic molecular dynamics (MD) simulations using two different approaches: (i) free, diffusion-driven partitioning of the probe molecules into a bilayer and (ii) constrained umbrella sampling of a penetration profile of the dye molecule across a bilayer. Both of these MD approaches agreed with regard to the preferred location of a BBP fluorophore within the interfacial region of a bilayer, located between the hydrocarbon acyl tails and the initial portion of the lipid headgroups. MD simulations also revealed restricted permeability of water molecules into this region of a POPC bilayer, determining the strong fluorescence enhancement observed experimentally for the membrane-partitioned form of BBP. 相似文献
12.
The ganglioside-activator protein is an essential cofactor for the lysosomal degradation of ganglioside GM2 (GM2) by beta-hexosaminidase A. It mediates the interaction between the water-soluble exohydrolase and its membrane-embedded glycolipid substrate at the lipid-water interphase. Mutations in the gene encoding this glycoprotein result in a fatal neurological storage disorder, the AB variant of GM2-gangliosidosis. In order to efficiently and sensitively probe the glycolipid binding and membrane activity of this cofactor, we synthesized two new fluorescent glycosphingolipid (GSL) probes, 2-NBD-GM1 and 2-NBD-GM2. Both compounds were synthesized in a convergent and multistep synthesis starting from the respective gangliosides isolated from natural sources. The added functionality of 2-aminogangliosides allowed us to introduce the chromophore into the region between the polar head group and the hydrophobic anchor of the lipid. Both fluorescent glycolipids exhibited an extremely low off-rate in model membranes and displayed very efficient resonance energy transfer to rhodamine-dioleoyl phosphoglycerol ethanolamine (rhodamine-PE) as acceptor. The binding to GM2-activator protein (GM2AP) and the degrading enzyme was shown to be unaltered compared to their natural analogues. A novel fluorescence-resonance energy transfer (FRET) assay was developed to monitor in real time the protein-mediated intervesicular transfer of these lipids from donor to acceptor liposomes. The data obtained indicate that this rapid and robust system presented here should serve as a valuable tool to probe quantitatively and comprehensively the membrane activity of GM2AP and other sphingolipid activator proteins and facilitate further structure-function studies aimed at delineating independently the lipid- and the enzyme-binding mode of these essential cofactors. 相似文献
13.
14.
Sonication: A new method for gene transfer to plants 总被引:9,自引:0,他引:9
Sonication is a novel method for gene transfer into plant protoplasts and intact plant cells. The mode of action of ultrasound and its chemical, biochemical and physiological effects are reviewed. The state of the art of acoustic transformation is presented and possible mechanisms are discussed. 相似文献
15.
The SCY1-like 1 binding protein 1 (SCYL1-BP1) protein was identified as an interacting partner of E3 ligase p53-induced RING H2 protein (Pirh2) and mouse double minute gene number 2 (MDM2) by yeast two-hybrid screening. Further investigation suggested there are two interactions involved in different mechanisms. SCYL1-BP1 can be ubiquitinated and degraded by Pirh2 but not by MDM2, which suggests that SCYL1-BP1 can be regulated by Pirh2. On the other hand, while SCYL1-BP1 binds to ubiquitin E3 ligase MDM2, it promotes MDM2 self-ubiquitination and results in a reduction of MDM2 protein level.
Structured summary
MINT-7904819, MINT-7904837, MINT-7904806, MINT-7904715: MDM2 (uniprotkb:Q00987) physically interacts (MI:0915) with SCYL1-BP1 (uniprotkb:Q5T7V8) by anti tag coimmunoprecipitation (MI:0007)MINT-7904857, MINT-7904899: SCYL1-BP1 (uniprotkb:Q5T7V8) physically interacts (MI:0915) with MDM2 (uniprotkb:Q00987) by anti bait coimmunoprecipitation (MI:0006) 相似文献16.
Ilien B Franchet C Bernard P Morisset S Weill CO Bourguignon JJ Hibert M Galzi JL 《Journal of neurochemistry》2003,85(3):768-778
Human M1 muscarinic receptor chimeras were designed (i) to allow detection of their interaction with the fluorescent antagonist pirenzepine labelled with Bodipy [558/568], through fluorescence resonance energy transfer, (ii) to investigate the structure of the N-terminal extracellular moiety of the receptor and (iii) to set up a fluorescence-based assay to identify new muscarinic ligands. Enhanced green (or yellow) fluorescent protein (EGFP or EYFP) was fused, through a linker, to a receptor N-terminus of variable length so that the GFP barrel was separated from the receptor first transmembrane domain by six to 33 amino-acids. Five fluorescent constructs exhibit high expression levels as well as pharmacological and functional properties superimposable on those of the native receptor. Bodipy-pirenzepine binds to the chimeras with similar kinetics and affinities, indicating a similar mode of interaction of the ligand with all of them. From the variation in energy transfer efficiencies determined for four different receptor-ligand complexes, relative donor (EGFP)-acceptor (Bodipy) distances were estimated. They suggest a compact architecture for the muscarinic M1 receptor amino-terminal domain which may fold in a manner similar to that of rhodopsin. Finally, this fluorescence-based assay, prone to miniaturization, allows reliable detection of unlabelled competitors. 相似文献
17.
Combining protein complementation assays with resonance energy transfer to detect multipartner protein complexes in living cells 总被引:1,自引:0,他引:1
Rebois RV Robitaille M Pétrin D Zylbergold P Trieu P Hébert TE 《Methods (San Diego, Calif.)》2008,45(3):214-218
A variety of fluorescent proteins with different spectral properties have been created by mutating green fluorescent protein. When these proteins are split in two, neither fragment is fluorescent per se, nor can a fluorescent protein be reconstituted by co-expressing the complementary N- and C-terminal fragments. However, when these fragments are genetically fused to proteins that associate with each other in cellulo, the N- and C-terminal fragments of the fluorescent protein are brought together and can reconstitute a fluorescent protein. A similar protein complementation assay (PCA) can be performed with two complementary fragments of various luciferase isoforms. This makes these assays useful tools for detecting the association of two proteins in living cells. Bioluminescence resonance energy transfer (BRET) or fluorescence resonance energy transfer (FRET) occurs when energy from, respectively, a luminescent or fluorescent donor protein is non-radiatively transferred to a fluorescent acceptor protein. This transfer of energy can only occur if the proteins are within 100 Å of each other. Thus, BRET and FRET are also useful tools for detecting the association of two proteins in living cells. By combining different protein fragment complementation assays (PCA) with BRET or FRET it is possible to demonstrate that three or more proteins are simultaneous parts of the same protein complex in living cells. As an example of the utility of this approach, we show that as many as four different proteins are simultaneously associated as part of a G protein-coupled receptor signalling complex. 相似文献
18.
Fujii R Shimonaka S Uchida N Gardiner AT Cogdell RJ Sugisaki M Hashimoto H 《Photosynthesis research》2008,95(2-3):327-337
Typical purple bacterial photosynthetic units consist of supra-molecular arrays of peripheral (LH2) and core (LH1-RC) antenna
complexes. Recent atomic force microscopy pictures of photosynthetic units in intact membranes have revealed that the architecture
of these units is variable (Scheuring et al. (2005) Biochim Bhiophys Acta 1712:109–127). In this study, we describe methods for the construction of heterologous photosynthetic
units in lipid-bilayers from mixtures of purified LH2 (from Rhodopseudomonas acidophila) and LH1-RC (from Rhodopseudomonas viridis) core complexes. The architecture of these reconstituted photosynthetic units can be varied by controlling ratio of added
LH2 to core complexes. The arrangement of the complexes was visualized by electron-microscopy in combination with Fourier
analysis. The regular trigonal array of the core complexes seen in the native photosynthetic membrane could be regenerated
in the reconstituted membranes by temperature cycling. In the presence of added LH2 complexes, this trigonal symmetry was
replaced with orthorhombic symmetry. The small lattice lengths for the latter suggest that the constituent unit of the orthorhombic
lattice is the LH2. Fluorescence and fluorescence-excitation spectroscopy was applied to the set of the reconstituted membranes
prepared with various proportions of LH2 to core complexes. Remarkably, even though the LH2 complexes contain bacteriochlorophyll
a, and the core complexes contain bacteriochlorophyll b, it was possible to demonstrate energy transfer from LH2 to the core complexes. These experiments provide a first step along
the path toward investigating how changing the architecture of purple bacterial photosynthetic units affects the overall efficiency
of light-harvesting. 相似文献
19.
AIMS: The beta-glucosidase activity is involved in the hydrolysis of several important compounds for the development of varietal wine flavour. The aim of the present study was to investigate the production of beta-glucosidase in a number of wine-related yeast strains and to measure and identify this activity over the course of grape juice fermentation. METHODS AND RESULTS: beta-glucosidase activity was measured as the amount of 4-methylumbelliferone released from 4-methylumbelliferyl-beta-d-glucopyranoside substrate. Intact cells of some grape and wine-spoilage yeasts showed beta-glucosidase activity much higher than those observed in wine yeasts "sensu stricto". During fermentation, three Saccharomyces cerevisiae strains, one Hanseniaspora valbyensis strain and one Brettanomyces anomalus strain showed beta-glucosidase activity both intra- and extracellularly. CONCLUSIONS: In the studied strains, beta-glucosidase activity was at its maximum when the cells were in the active growth phase. However, a lowering of medium pH to values around 3 during fermentation led to total loss of activity. SIGNIFICANCE AND IMPACT OF THE STUDY: During the course of this study, a new, rapid and reproducible method to assay beta-glucosidase activity was developed. The fact that Saccharomyces and non-Saccharomyces yeast strains are able to express beta-glucosidase activity during the alcoholic fermentation sheds new light on the contribution of these yeasts in the aroma expression of wines. 相似文献
20.
Cholesterol plays an important role in cellular function and membrane compartmentalization and is involved in the interaction with more than a dozen of different proteins. Using three cholesterol-metabolizing cytochrome P450s (P450s 7A1, 46A1, and 11A1), we have developed a rapid and simple assay for measurements of nanomolar to micromolar cholesterol affinities. In this assay, the P450 is incubated with a fixed amount of radiolabeled cholesterol and varying concentrations of cold cholesterol followed by separation of free and protein-bound cholesterol via filtration through a membrane. Free cholesterol is found in the flow-through fraction, whereas P450 binds to the membrane. The radioactivity of the membranes is then measured, and a saturation curve is generated after correction for nonspecific binding of cholesterol to the filter. The validity of the filter assay was confirmed by spectral assay, a traditional method to evaluate the interaction of the P450 enzymes with their substrates. Two types of membranes, one binding positively charged proteins and another binding negatively charged proteins, were identified. These membranes were also found to hold proteins through hydrophobic interactions. Thus, the cholesterol binding properties of a wide variety of proteins could be characterized using this filter assay. 相似文献