Image processing of electron micrographs of human alpha 2-macroglobulin half-molecules induced by Cd2+

Human alpha 2-macroglobulin is a tetrameric plasma inhibitor of proteinases. Its dissociation by Cd2+ gives functional dimers. Electron microscopy of negatively stained dimers shows their round-ended cylindrical shape with furrows delimiting 3 main stain-excluding domains. Image processing of electron micrographs shows the existence of 2 main orientations of the dimers on the carbon support film. The dimer is composed of 2 curved monomers linked in a central domain, and related by a 90 degree rotation. Taking into account the known primary structure of alpha 2-macroglobulin and the linkage of the 2 constitutive monomers by 2 disulfide bonds, the molecular organization of the dimer is discussed, extended to the tetrameric molecule and compared to the published models of human alpha 2-macroglobulin.     

Mannose-specific lectins bind alpha-2-macroglobulin and an unknown protein from human plasma.

GNA, the mannose-specific lectin from Galanthus nivalis was confirmed to bind alpha-2-macroglobulin (A2M) but another protein was copurified with A2M from total human plasma. A total of 23 other lectins with diverse specificities were tested for reaction with human A2M and with three other members of the A2M family. NPA, a mannose-specific lectin isolated from Narcissus pseudonarcissus bulbs, and RSA, the Rhizoctonia solani agglutinin, were selected for further testing. For isolation of A2M, immobilized NPA was superior to GNA because its binding capacity was an order of magnitude higher. The specificity of these lectins must be very similar however, because the same unknown plasma protein was also bound by NPA. A2M and the unknown protein must share a unique mannose carbohydrate structure not present in any other human plasma protein. The copurified protein subunit size of 185 kDa is very similar to that of A2M, but the native molecular mass of 350 kDa indicated a noncovalent homodimer structure. Together with the acid isoelectric point this is not typical for any known plasma protein nor for any unidentified spot on the two-dimensional map of human plasma proteins. No immunological reaction with available antisera was evident. A specific antiserum raised to the unknown protein demonstrated its presence in all human plasma samples examined. The N-terminal residue was blocked, whereas internal protein sequences obtained after CNBr fragmentation and proteolysis were not homologous to any known protein sequence. These data demonstrate that this protein is unknown and not a proteinase inhibitor of the A2M family.     

A monoclonal antibody that inhibits translation in Sf21 cell lysates is specific for glyceraldehyde-3-phosphate dehydrogenase

Monoclonal antibody (Mab) 8B7 was shown in a previous study to inhibit protein translation in lysates of Sf21 cells. The antibody was thought to be specific for a 60-kDa form of elongation factor-1 alpha (EF-1alpha), primarily because the antigen immunoprecipitated by Mab 8B7 cross-reacted with Mab CBP-KK1, an antibody generated to EF-1alpha from Trypanosoma brucei. The purpose of the current study was to investigate further the antigenic specificity of Mab 8B7. The concentration of the 60-kDa antigen relative to total cellular protein proved insufficient for its definitive identification. However, subcellular fractionation of Sf21 cells yielded an additional protein of 37 kDa in the cytosolic and microsomal fractions that was reactive with Mab 8B7. The 37-kDa protein could be easily visualized by colloidal Coomassie Blue G-250 staining as a series of pI 6.9-8.4 spots on two-dimensional gels. Excision of an abundant immunoreactive spot enabled identification of the protein as glyceraldehyde-3-phosphate dehydrogenase (GAPDH) by matrix-assisted laser desorption/ionization-mass spectrometry (MALDI-MS) and protein database searching. Subsequent immunoblotting of purified rabbit skeletal muscle GAPDH with Mab 8B7 confirmed the antibody's specificity for GAPDH. Besides the pivotal role GAPDH plays in glycolysis, the enzyme has a number of noncanonical functions, including binding to mRNA and tRNA. The ability of Mab 8B7 to disrupt these lesser-known functions of GAPDH may account for the antibody's inhibitory effect on in vitro translation.     

Localization of basic residues required for receptor binding to the single alpha-helix of the receptor binding domain of human alpha2-macroglobulin.

To better understand the structural basis for the binding of proteinase-transformed human alpha2-macroglobulin (alpha2M) to its receptor, we have used three-dimensional multinuclear NMR spectroscopy to determine the secondary structure of the receptor binding domain (RBD) of human alpha2M. Assignment of the backbone NMR resonances of RBD was made using 13C/15-N and 15N-enriched RBD expressed in Escherichia coli. The secondary structure of RBD was determined using 1H and 13C chemical shift indices and inter- and intrachain nuclear Overhauser enhancements. The secondary structure consists of eight strands in beta-conformation and one alpha-helix, which together comprise 44% of the protein. The beta-strands form three regions of antiparallel beta-sheet. The two lysines previously identified as being critical for receptor binding are located in (Lys1374), and immediately adjacent to (Lys1370) the alpha-helix, which also contains an (Arg1378). Secondary structure predictions of other alpha-macroglobulins show the conservation of this alpha-helix and suggest an important role for this helix and for basic residues within it for receptor binding.     

Binding characteristics of a monoclonal beta-endorphin antibody recognizing the N-terminus of opioid peptides

The present paper describes the isolation and characterization of a clone of hybrid myelomas (3-E7) secreting a mouse monoclonal antibody to beta-endorphin. An examination of its specificity against a series of human beta-lipotropin fragments and other opioid peptides revealed that the N-terminus portion of beta-endorphin is the determinant. Complete or almost complete cross-reactivity was obtained to methionine- and leucine-enkephalin, beta-lipotropin 60-65, and BAM 22; partial cross-reactivity was seen to dynorphin1-13 and alpha-neo-endorphin, whereas beta-lipotropin, alpha-N-acetyl-beta-endorphin, Des-Tyr1-beta-endorphin, in addition to a series of synthetic enkephalin derivatives, completely lacked cross-reactivity. The use of the monoclonal antibody in radioimmunoassay (RIA) for beta-endorphin resulted in a lower sensitivity related to respective polyclonal antibodies. An increase of 100% in tracer binding could, however, be obtained by use of beta-endorphin iodinated with its N-terminal tyrosine protected by coupling to an antibody. A solid-phase RIA was developed involving the internally 3H-labeled monoclonal antibody, which resulted in a 10-fold increase in sensitivity as compared with the homogenous RIA. These data indicate that for the binding to this antibody a tyrosine residue in position 61 is essential, and it thus recognizes a site that is of functional significance for many naturally occurring opioid peptides.     

Affinity of nonhomologous amphiphilic peptides toward a monoclonal antibody raised against apolipoprotein A-I

Monoclonal antibodies against human apolipoprotein A-I (apoA-I) were generated by the hybridoma technique. Clone G-10 was selected on the basis of its highest titer. The affinity of this antibody toward a series of synthetic peptides differing in length, amino acid composition, and amphiphilicity was tested by using both the indirect and the competitive enzyme-linked immunosorbent techniques (ELISA). From these measurements we calculated dissociation constants of the complexes of the antibody with apoA-I bound to the surface of the microtiter plate, apoA-I in solution, and any of the several peptides in solution. The dissociation constant (Kd) of the immobilized apoA-I/anti-apoA-I-complex, Kd = 2 x 10(-9) M, was significantly lower than that of the complex resulting from the interaction between anti-apoA-I and either apoA-I in solution or any of the several amphiphilic helical peptides in solution. Peptides devoid of amphiphilic secondary structure were inert. These data are consistent with the proposal that monoclonal G-10 recognizes in antigenic peptides an alpha-helical secondary structure of defined hydrophilic-lipophilic balance and comparatively less the specific amino acid side chains. We propose that the highest contribution to the free energy of binding (8 Kcal/mole) is derived from the docking of the helix to the antibody. It follows that in probing the specificity of a monoclonal antibody the conformation and the physical environment of the interacting antigen must be taken into account.     

The interaction of CK2alpha and CK2beta, the subunits of protein kinase CK2, requires CK2beta in a preformed conformation and is enthalpically driven

The protein kinase CK2 (former name: "casein kinase 2") predominantly occurs as a heterotetrameric holoenzyme composed of two catalytic chains (CK2alpha) and two noncatalytic subunits (CK2beta). The CK2beta subunits form a stable dimer to which the CK2alpha monomers are attached independently. In contrast to the cyclins in the case of the cyclin-dependent kinases CK2beta is no on-switch of CK2alpha; rather the formation of the CK2 holoenzyme is accompanied with an overall change of the enzyme's profile including a modulation of the substrate specificity, an increase of the thermostability, and an allocation of docking sites for membranes and other proteins. In this study we used C-terminal deletion variants of human CK2alpha and CK2beta that were enzymologically fully competent and in particular able to form a heterotetrameric holoenzyme. With differential scanning calorimetry (DSC) we confirmed the strong thermostabilization effect of CK2alpha on CK2beta with an upshift of the CK2alpha melting temperature of more than 9 degrees . Using isothermal titration calorimetry (ITC) we measured a dissociation constant of 12.6 nM. This high affinity between CK2alpha and CK2beta is mainly caused by enthalpic rather than entropic contributions. Finally, we determined a crystal structure of the CK2beta construct to 2.8 A resolution and revealed by structural comparisons with the CK2 holoenzyme structure that the CK2beta conformation is largely conserved upon association with CK2alpha, whereas the latter undergoes significant structural adaptations of its backbone.     

The three-dimensional structure of the antigen-binding fragment of a monoclonal antibody to human interleukin-2 in two crystal forms at 2.2 and 2.9 Å resolution

The three-dimensional structure of the antigen-binding fragment of a monoclonal antibody to human interleukin-2 was determined in two crystal forms by the X-ray method of molecular replacement at 2.2 and 2.9 Å resolutions. The spatial structure of the protein and the stereochemistry of its antigen-binding site were analyzed.     

Uptake of 125I-labelled α2-macroglobulin and albumin by human placental syncytiotrophoblast in vitro

We have investigated the binding and internalization of α₂-macroglobulin and serum albumin by human placental syncytiotrophoblast cells in vitro. The time course (obtained at 4°C) of α₂-macroglobulin binding indicated that an equilibrium was reached after 4 h. The binding of ¹²⁵I-labelled α₂-macroglobulin to syncytiotrophoblast cells was competitively reduced in the presence of excess unlabelled α₂-macroglobulin. When the concentration-dependence of binding was examined over a wide concentration range, non-linear regression analysis yielded a K_d of 6.4 nM. In the case of albumin, binding was weak and ligand dissociated from the cell surface during aqueous washing making it impractical to analyze the binding reaction. In other experiments, syncytiotrophoblast cells were incubated with ¹²⁵I-labelled α₂-macroglobulin at 37°C. Under these conditions, trypsin-resistant cell-associated radioactivity increased with time consistent with ligand internalization. ¹²⁵I-Labelled-ligand was internalized with a t_1/2 of about 5 min. After a lag period some radioactivity was released back into the incubation medium. When measured at times up to 210 min, this was found to consist of mostly TCA-precipitable material that had been lost from the cell surface. However, when the incubation was extended to 24 h, almost 15% of the initial cell-associated radioactivity was released to the extracellular medium as TCA-soluble material, consistent with a slow rate of ligand degradation. The specific binding of ⁶⁵Zn-labelled α₂M was similar to that of the ¹²⁵I-labelled ligand and trypsin-resistance measurements provided evidence of α₂M-mediated ⁶⁵Zn uptake. These results support a role for syncytiotrophoblast in the metabolism of α₂-macroglobulin during pregnancy and are also consistent with a role for α₂-macroglobulin in the maternal-fetal transport of zinc. J. Cell. Biochem. 68:427–435, 1998. © 1998 Wiley-Liss, Inc.     

Production and characterization of a monoclonal antibody for Pefloxacin and mechanism study of antibody recognition

In this report, an artificial antigen (PFLX–BSA: Pefloxacin connected bovine serum albumin) was successfully prepared. The monoclonal antibody against pefloxacin was produced and characterized using a direct competitive ELISA. The linear range of detection was 0.115–6.564 µg/L. The limit of detection defined as IC₁₅ was 0.170 ± 0.05 µg/L and the IC₅₀ was 0.902 ± 0.03 µg/L. The antibody variable region genes were amplified, assembled, and sequenced. A three–dimensional structural model of the variable region was constructed to study the mechanism of antibody recognition using molecular docking analysis. Three predicted essential amino acids, Thr53, Arg97 of heavy chain and Thr52 of light chain, were mutated to verify the theoretical model. Three mutants lost binding activity signi?cantly against pefloxacin as predicted. These may provide useful insights for studying antigen–antibody interaction mechanisms to improve antibody affinity maturation in vitro.     

Tumour necrosis factor alpha production by polymorphonuclear neutrophils treated with mouse anti-human CD19 monoclonal antibody

Polymorphonuclear neutrophils (PMNs) play pivotal roles as phagocytic cells in immune defence against bacteria and parasites, exerting their effects by production of reactive oxygen species, several cytokines, chemokines and by phagocytotic reaction. In our investigation of properties of activated PMNs, we discovered that one of the two kinds of mouse anti-human CD19 monoclonal antibodies (mAbs) clone SJ25-C1, weakly binds to freshly prepared PMNs. Moreover, the treatment of freshly prepared PMNs with anti-CD19 mAb (clone SJ25-C1) at 37 degrees C for 6 h induces the production and the secretion of tumour necrosis factor alpha (TNF alpha) by PMNs in vitro which was detectable in culture supernatants by bioassay using mouse cell line L929 cells. The concentration of TNF alpha secreted into the culture supernatant of PMNs cultured in the presence of anti-CD19 mAb (clone SJ25-C1) was higher than those of PMNs treated at 37 degrees C for 6 h with various PMN activators, such as anti-CD24 mAb, granulocytes-macrophage colony stimulation factor (GM-CSF) or interferon gamma (IFN gamma). In contrast, another clone of anti-CD19 mAb, HD37, did not bind to freshly prepared PMNs and failed to produce TNF alpha. To confirm that anti-CD19 mAb (clone SJ25-C1)-treated PMNs definitely produce TNF alpha, we measured the levels of intracellular expression of TNF alpha in PMNs permeabilized by saponin. These cells were treated with fluorescence-conjugated mouse anti-human TNF alpha mAb for detection of intracellular TNF alpha expression. Consequently, large amounts of intracellular TNF alpha were detected in PMNs treated with anti-CD19 mAb (clone SJ25-C1) but not in those treated with anti-CD19 mAb (clone HD37).     

Purification of human haptoglobin 1-1, 2-1, and 2-2 using monoclonal antibody affinity chromatography

Similar to blood type, human plasma haptoglobin (Hp) is classified as 3 phenotypes: Hp 1-1, 2-1, or 2-2. The structural and functional relationship between the phenotypes, however, has not been studied in detail due to the complicated and difficult isolation procedures. This report provides a simple protocol that can be used to purify each Hp phenotype. Plasma was first passed through an affinity column coupled with a high affinity Hp monoclonal antibody. The bound material was washed with a buffer containing 0.2M NaCl and 0.02 M phosphate, pH 7.4, eluted at pH 11, and collected in tubes containing 1M Tris-HCl, pH 6.8. The crude Hp fraction was then chromatographed on a HPLC Superose 12 column in 0.05 M ammonium bicarbonate at a flow rate of 0.5 ml/min. The homogeneity of purified Hp 1-1, 2-1, or 2-2 was greater than 95% as judged by SDS-polyacrylamide gel electrophoresis. Essentially, each Hp isolated was not contaminated with hemoglobin and apolipoprotein A-I as that reported from the other methods, and was able to bind hemoglobin. Neuraminidase treatment demonstrated that the purified Hp possessed a carbohydrate moiety, while Western blot analysis confirmed alpha and beta chains corresponding to each Hp 1-1, 2-1, and 2-2 phenotype. The procedures described here represent a significant improvement in current purification methods for the isolation of Hp phenotypes. Circular dichroic spectra showed that the alpha-helical content of Hp 1-1 (29%) was higher than that of Hp 2-1 (22%), and 2-2 (21%). The structural difference with respect to its clinical relevance is discussed.     

Role of phosphorylation of the cytoplasmic domain of the alpha(2)-macroglobulin receptor (LRP)

The low density lipoprotein receptor-related protein (alpha(2)MR/LRP) is a cell surface receptor which is present on most cells and tissues. We show that the 85 kDa subunit, containing the transmembrane region and cytoplasmic domain is phosphorylated in vivo. Comparison of the phosphorylation of the low density lipoprotein receptor (LDLR) with a chimeric receptor containing the cytoplasmic domain of the alpha(2)MR/LRP (LDLR/LRP) showed that phosphorylation is exclusive to the cytoplasmic domain. Staurosporine, a general kinase inhibitor, resulted in a 40% lowering of phosphorylation of LDLR/LRP, but did not give rise to measurable changes in its membrane traffic in MDCK cells. The role of phosphorylation on degradation of the receptor was studied using inhibitors of lysosomal and proteasomal degradation. These studies showed that LDLR/LRP was rapidly turned over by proteasomal degradation but that this turnover was also not a consequence of phosphorylation.     

Exploring the interaction of myricetin with human alpha-2-macroglobulin: biophysical and in-silico analysis

Myricetin (MYR) is a bioactive secondary metabolite found in plants that is recognized for its nutraceutical value and is an essential constituent of various foods and beverages. It is reported to exhibit a plethora of activities, including antioxidant, antimicrobial, antidiabetic, anticancer, and anti-inflammatory. Alpha-2-macroglobulin (α2M) is a major plasma anti-proteinase that can inhibit proteinases of both human and non-human origin, regardless of their specificity and catalytic mechanism. Here, we explored the interaction of MYR-α2M using various biochemical and biophysical techniques. It was found that the interaction of MYR brings subtle change in its anti-proteolytic potential and thereby alters its structure and function, as can be seen from absorbance and fluorescence spectroscopy. UV spectroscopy of α2M in presence of MYR indicated the occurrence of hyperchromism, suggesting complex formation. Fluorescence spectroscopy reveals that MYR reduces the fluorescence intensity of native α2M with a shift in the wavelength maxima. At 318.15 K, MYR binds to α2M with a binding constant of 2.4 × 10³ M⁻¹, which indicates significant binding. The ΔG value was found to be − 7.56 kcal mol⁻¹ at 298.15 K, suggesting the interaction to be spontaneous and thermodynamically favorable. The secondary structure of α2M does not involve any major change as was confirmed by CD analysis. The molecular docking indicates that Asp-146, Ser-172, Glu-174, and Tyr-180 were the key residues involved in α2M-MYR complex formation. This study contributes to our understanding of the function and mechanism of protein and flavonoid binding by providing a molecular basis of the interaction between MYR and α2M.     

Pharmacology and placental transfer of a human αv integrin monoclonal antibody in rabbits

BACKGROUND: Intetumumab is a human IgG1 anti‐αv‐integrin monoclonal antibody that inhibits angiogenesis. Integrin binding and angiogenesis are important in reproduction including fertilization, implantation, and embryofetal development. These studies were designed to determine the pharmacological relevance of the rabbit for the evaluation of potential effects on embryofetal development and to evaluate the placental transfer of intetumumab in rabbits. METHODS: In vitro pharmacology studies evaluated the binding of intetumumab to rabbit cells and the inhibition of vessel sprouting from rabbit aorta. For the evaluation of placental transfer, pregnant rabbits (8/group) were injected intravenously with intetumumab 50 or 100 mg/kg every 2 days from Gestation Day (GD)7 to GD19. Maternal sera, fetal homogenates/sera, and amniotic fluid were collected at necropsy on GD19 or GD28 for evaluation of intetumumab concentrations. Clinical condition of the dams was monitored and fetuses were screened for abnormalities. RESULTS: Intetumumab (5–40 µg/mL) inhibited aortic cell adhesion to vitronectin and vessel sprouting from rabbit aortic rings. Immunohistochemical staining of rabbit tissues demonstrated binding of intetumumab to placenta. Administration of intetumumab to pregnant rabbits was well tolerated by the dams and the fetuses did not show major abnormalities. Fetal exposure to intetumumab relative to maternal exposure was <0.1% on GD19 and 100–130% on GD29. CONCLUSIONS: The rabbit is a pharmacologically relevant species for evaluation of potential developmental effects of intetumumab. Intetumumab crosses the rabbit placenta during the fetal period (GD 19–28). Birth Defects Res (Part B) 89:116–123, 2010. © 2010 Wiley‐Liss, Inc.     

Recurrent alpha beta loop structures in TIM barrel motifs show a distinct pattern of conserved structural features.

A systematic survey of seven parallel alpha/beta barrel protein domains, based on exhaustive structural comparisons, reveals that a sizable proportion of the alpha beta loops in these proteins--20 out of a total of 49--belong to either one of two loop types previously described by Thornton and co-workers. Six loops are of the alpha beta 1 type, with one residue between the alpha-helix and beta-strand, and 13 are of the alpha beta 3 type, with three residues between the helix and the strand. Protein fragments embedding the identified loops, and termed alpha beta connections since they contain parts of the flanking helix and strand, have been analyzed in detail revealing that each type of connection has a distinct set of conserved structural features. The orientation of the beta-strand relative to the helix and loop portions is different owing to a very localized difference in backbone conformation. In alpha beta 1 connections, the chain enters the beta-strand via a residue adopting an extended conformation, while in alpha beta 3 it does so via a residue in a near alpha-helical conformation. Other conserved structural features include distinct patterns of side chain orientation relative to the beta-sheet surface and of main chain H-bonds in the loop and the beta-strand moieties. Significant differences also occur in packing interactions of conserved hydrophobic residues situated in the last turn of the helix. Yet the alpha-helix surface of both types of connections adopts similar orientations relative to the barrel sheet surface. Our results suggest furthermore that conserved hydrophobic residues along the sequence of the connections, may be correlated more with specific patterns of interactions made with neighboring helices and sheet strands than with helix/strand packing within the connection itself. A number of intriguing observations are also made on the distribution of the identified alpha beta 1 and alpha beta 3 loops within the alpha/beta-barrel motifs. They often occur adjacent to each other; alpha beta 3 loops invariably involve even numbered beta-strands, while alpha beta 1 loops involve preferentially odd beta-strands; all the analyzed proteins contain at least one alpha beta 3 loop in the first half of the eightfold alpha/beta barrel. Possible origins of all these observations, and their relevance to the stability and folding of parallel alpha/beta barrel motifs are discussed.     

Epitope analysis of peanut allergen Ara h1 with human monoclonal IgM antibody 92-2

A human-mouse hybridoma clone 92-2 secreting IgM-class human monoclonal antibody to peanut allergen protein Ara h1 was established. To detect antibody-binding sequences on Ara h1, we synthesized a series of peptides of the Ara h1 protein on a multi-pin apparatus for the pin-peptide ELISA. The 92-2 human monoclonal antibody was found to recognize a sequence of GREGEQEWGTPGSHVREETS. Further analysis with shorter pin-peptides with eight amino acid-long showed that the sequence of QEWGTPGS was an essential linear sequence of this epitope. When the QEW part of the sequence was replaced by alanine, the 92-2 monoclonal antibody did not bind to the substituted peptide, showing that those amino acids play an important role in the binding of the 92-2 monoclonal antibody.     

The human prion protein alpha2 helix: a thermodynamic study of its conformational preferences

We have synthesized both free and terminally-blocked peptide corresponding to the second helical region of the globular domain of normal human prion protein, which has recently gained the attention of structural biologists because of a possible role in the nucleation process and fibrillization of prion protein. The profile of the circular dichroism spectrum of the free peptide was that typical of alpha-helix, but was converted to that of beta-structure in about 16 h. Instead, below 2.1 x 10(-5) M, the spectrum of the blocked peptide exhibited a single band centered at 200 nm, unequivocally associated to random conformations, which did not evolve even after 24 h. Conformational preferences of this last peptide have been investigated as a function of temperature, using trifluoroethanol or low-concentration sodium dodecyl sulfate as alpha- or beta-structure inducers, respectively. Extrapolation of free energy data to zero concentration of structuring agent highlighted that the peptide prefers alpha-helical to beta-type organization, in spite of results from prediction algorithms. However, the free energy difference between the two forms, as obtained by a thermodynamic cycle, is subtle (roughly 5-8 kJ mol(-1) at any temperature from 280 K to 350 K), suggesting conformational ambivalence. This result supports the view that, in the prion protein, the structural behavior of the peptide is governed by the cellular microenvironment.     

Epitope analysis of human monoclonal antibody specific for rice allergenic protein generated by in vitro immunization

We previously established an in vitro immunization protocol for generating antigen specific human monoclonal antibodies (mAbs). In vitro immunization was performed against the soluble protein of rice allergenic protein (RA), resulting in the generation of three B cell clones, AC7-1/F9, CB7-1/E2 and CB7-8/F5, all of which produce a RA-specific human monoclonal IgM antibody. We attempted to map the epitope regions recognized by thesem Abs to characterize their specificities. We performed two rounds of epitope mapping, rough mapping using 10-mer peptides covering the full-length RA with 5 amino acids overlapping, and fine mapping using 8-mer peptides covering the putative epitope regions from the rough mapping with 1amino acid overlapping. As a result of the fine mapping,we identified the epitope regions of these three mAbs as⁴⁵QVWQDCCRQ⁵⁴L, ⁵⁶AVDDGWCRCGA⁶⁷L and⁹¹FPGCRRG⁹⁸D on the RA molecule and found to be identical. Furthermore, we determined the putative core epitope regions, which are critical for mAb binding to each region, ⁴⁷WQDCC⁵²R and ⁶⁰GWC⁶³R. The information about the epitope region on the RA molecule,which might trigger the allergenic response, would be useful to establish a specific immunotherapy against rice allergy. This revised version was published online in July 2006 with corrections to the Cover Date.