PP2A is activated by cytochrome c upon formation of a diffuse encounter complex with SET/TAF-Iß.

Intrinsic protein flexibility is of overwhelming relevance for intermolecular recognition and adaptability of highly dynamic ensemble of complexes, and the phenomenon is essential for the understanding of numerous biological processes. These conformational ensembles-encounter complexes-lack a unique organization, which prevents the determination of well-defined high resolution structures. This is the case for complexes involving the oncoprotein SET/template-activating factor-Iß (SET/TAF-Iß), a histone chaperone whose functions and interactions are significantly affected by its intrinsic structural plasticity. Besides its role in chromatin remodeling, SET/TAF-Iß is an inhibitor of protein phosphatase 2A (PP2A), which is a key phosphatase counteracting transcription and signaling events controlling the activity of DNA damage response (DDR) mediators. During DDR, SET/TAF-Iß is sequestered by cytochrome c (Cc) upon migration of the hemeprotein from mitochondria to the cell nucleus. Here, we report that the nuclear SET/TAF-Iß:Cc polyconformational ensemble is able to activate PP2A. In particular, the N-end folded, globular region of SET/TAF-Iß (a.k.a. SET/TAF-Iß ΔC)-which exhibits an unexpected, intrinsically highly dynamic behavior-is sufficient to be recognized by Cc in a diffuse encounter manner. Cc-mediated blocking of PP2A inhibition is deciphered using an integrated structural and computational approach, combining small-angle X-ray scattering, electron paramagnetic resonance, nuclear magnetic resonance, calorimetry and molecular dynamics simulations.

Effect of enzyme-assisted hydrolysis on protein pattern, technofunctional, and sensory properties of lupin protein isolates using enzyme combinations.

The modification of lupin protein isolates (LPI) by means of enzymatic hydrolysis (Lupinus angustifolius cultivar Boregine) was performed with four enzyme preparations (Alcalase 2.4 L, Papain, Corolase 7089, and Neutrase 0.8 L) in a one- and two-step process to determine the efficacy for the destruction of major IgE-reactive polypeptides and the evaluation of the technofunctional and sensory properties of lupin protein hydrolysates. Combinations of Alcalase 2.4 L and Papain were most effective in the degradation of polypeptides in L. angustifolius as measured by sodium dodecylsulfate-polyacrylamide gel electrophoresis. The enzymatic hydrolysis of the LPI increased their technofunctional properties such as protein solubility, foam activity, and emulsifying capacity almost independently of the enzyme preparation used. The sensory results showed a significant increase in bitterness from 1.9 for LPI to 5.7 for the combination of Alcalase 2.4 L and Papain in one-step process. The aroma attributes of the hydrolysates were very similar to untreated LPI. The results of this study show the possibility of enzymatic hydrolysis of LPI to destroy the major IgE-reactive polypeptides that increase the technofunctional properties of the isolates and thus their use in human nutrition as food ingredients.

Single-cell cloning enables the selection of more productive Drosophila melanogaster S2 cells for recombinant protein expression.

The generation of monoclonal cell lines is an important early process development step for recombinant protein production. Although single-cell cloning is an established method in mammalian cell lines, straightforward protocols are not yet available for insect cells. We describe a new method for the generation of monoclonal insect cells without using fetal bovine serum and/or feeder cells pretreated by irradiation or exposure to mitomycin. Highly productive clones of Drosophila melanogaster S2 cells were prepared in a two-step procedure, comprising the establishment of a polyclonal population and subsequent single cell isolation by limiting dilution. Necessary growth factors were provided by co-cultivation of single transformants with untransfected feeder cells, which were later removed by antibiotic selection. Enhanced expression of EGFP and two target peptides was confirmed by flow cytometry and dot/western blotting. Highly productive clones were stable, showed a uniform expression profile and typically a sixfold to tenfold increase in cell-specific productivity.

Expression and purification of RHC-EGFP fusion protein and its application in hyaluronic acid assay.

Hyaluronan is a widely distributed glycosaminoglycan which has multiple functions. Hyaluronic acid (HA) accumulation has been reported in many human diseases. Understanding the role of hyaluronan and its binding proteins in the pathobiology of disease will facilitate the development of novel therapeutics for many critical diseases. Current techniques described for the analysis of HA are mainly for HA quantification in solutions, not for the direct detection of HA in tissues or on cell surfaces. In our study, a fusion protein, named C-terminal domain of RHAMM-enhanced green fluorescence protein (RHC-EGFP), combined the HA-binding domain, C-terminal of receptor for hyaluronan-mediated motility, with EGFP, a widely used enhanced green fluorescence protein, was expressed and purified from Escherichia coli with high purity. Based on the sensitivity and convenience of fluorescence detection, methods for direct assay of HA in solutions, on cell surface or in tissues were established using RHC-EGFP. The binding specificity was also confirmed by competitive binding experiment and hyaluronidase degradation experiment. Our results provide an alternative choice for the specific and convenient assay of HA in various samples, and maybe helpful for further understanding of the fundamental and comprehensive functions of HA.

Soluble form of the ST2 gene product exhibits growth promoting activity in NIH-3T3 cells.

The ST2 gene is induced in murine fibroblast cells at the start of cell proliferation. Although IL-33 has been identified as a ligand for one of the two major gene products of ST2 - namely, the transmembrane receptor form ST2L - prompting immunological research on inflammation, the roles of the ST2 gene products in cell proliferation remain to be elucidated. Using a cell proliferation assay system with NIH-3T3 cells, a normal murine fibroblast cell line, we found that treatment with recombinant ST2 caused an acceleration of cell proliferation, suggesting that ST2 acts in an autocrine/paracrine fashion. Strikingly, shRNA-induced knockdown of both ST2 gene products, ST2 and ST2L, reduced cell proliferation. This effect was effectively canceled by the expression of shRNA-resistant ST2, but not shRNA-resistant ST2L. The novel enhancement of cell proliferation by ST2 appears to involve positive feedback. Since the ST2 level is increased in various diseases involving inflammation, future investigations into the role of ST2 gene products in relation to various diseases, including malignancies, may be warranted.

Characterization of vegetative storage protein (VSP) and low molecular proteins induced by water deficit in stolon of white clover.

In stolon of white clover (Trifolium repens L.), the 17.3 kDa protein has been newly identified as a vegetative storage protein (VSP) which has preponderant roles in N accumulation and mobilization to sustain growth when capacity of N uptake is strongly reduced. To characterize the water deficit effect on this protein, the kinetic pattern of soluble protein, SDS-PAGE, Western blotting, and proteomic analysis was studied in the stolon of white clover during 28 days of water-deficit. Water deficit led to decrease protein concentration. SDS-PAGE revealed that two major proteins of 17.3 and 16 kDa were accumulated to high level in response to water stress. These proteins cross-reacted positively with antibodies raised against the 17.3 kDa VSP, a protein which shared biochemical features with stress proteins implied in dehydration tolerance. Using two-dimensional electrophoresis (2-DE) gel and matrix-assisted laser desorption/ionization time-of-flight mass spectrometer (MALDI-TOF-MS) analysis, it was demonstrated that 19.5 and 17.3 kDa protein spots were up-regulated by water stress, and both spots were identical to nucleoside diphosphate kinase (NDPK) and lipid transfer proteins (LTPs), respectively. These results suggest that low molecular proteins induced by water-deficit in the stolon of white clover act as an alternative N reserves or play significant roles in plant protection against water-deficit stress.

Transthyretin suppresses the toxicity of oligomers formed by misfolded proteins in vitro.

Although human transthyretin (TTR) is associated with systemic amyloidoses, an anti-amyloidogenic effect that prevents Aß fibril formation in vitro and in animal models has been observed. Here we studied the ability of three different types of TTR, namely human tetramers (hTTR), mouse tetramers (muTTR) and an engineered monomer of the human protein (M-TTR), to suppress the toxicity of oligomers formed by two different amyloidogenic peptides/proteins (HypF-N and Aß42). muTTR is the most stable homotetramer, hTTR can dissociate into partially unfolded monomers, whereas M-TTR maintains a monomeric state. Preformed toxic HypF-N and Aß42 oligomers were incubated in the presence of each TTR then added to cell culture media. hTTR, and to a greater extent M-TTR, were found to protect human neuroblastoma cells and rat primary neurons against oligomer-induced toxicity, whereas muTTR had no protective effect. The thioflavin T assay and site-directed labeling experiments using pyrene ruled out disaggregation and structural reorganization within the discrete oligomers following incubation with TTRs, while confocal microscopy, SDS-PAGE, and intrinsic fluorescence measurements indicated tight binding between oligomers and hTTR, particularly M-TTR. Moreover, atomic force microscopy (AFM), light scattering and turbidimetry analyses indicated that larger assemblies of oligomers are formed in the presence of M-TTR and, to a lesser extent, with hTTR. Overall, the data suggest a generic capacity of TTR to efficiently neutralize the toxicity of oligomers formed by misfolded proteins and reveal that such neutralization occurs through a mechanism of TTR-mediated assembly of protein oligomers into larger species, with an efficiency that correlates inversely with TTR tetramer stability.

Structural and functional characterization of the single-chain Fv fragment from a unique HCV E1E2-specific monoclonal antibody.

The nucleotide sequence of the unique neutralizing monoclonal antibody D32.10 raised against a conserved conformational epitope shared between E1 and E2 on the serum-derived hepatitis C virus (HCV) envelope was determined. Subsequently, the recombinant single-chain Fv fragment (scFv) was cloned and expressed in Escherichia coli, and its molecular characterization was assessed using multi-angle laser light scattering. The scFv mimicked the antibody in binding to the native serum-derived HCV particles from patients, as well as to envelope E1E2 complexes and E1, E2 glycoproteins carrying the viral epitope. The scFv D32.10 competed with the parental IgG for binding to antigen, and therefore could be a promising candidate for therapeutics and diagnostics.

Novel UMOD mutations in familial juvenile hyperuricemic nephropathy lead to abnormal uromodulin intracellular trafficking.

BACKGROUND: Familial juvenile hyperuricemic nephropathy (FJHN) is an autosomal dominant disorder characterized by hyperuricemia and progressive chronic kidney disease. Uromodulin gene (UMOD) mutations, leading to abnormalities of uromodulin intracellular trafficking contribute to the progress of the disease. METHODS: We did UMOD screening in three Chinese FJHN families. We thus constructed mutant uromodulin express plasmids by site-mutagenesis from wild type uromodulin vector and transfected them into HEK293 (human embryonic kidney) cells. And then we detected uromodulin expression by western blot and observed intracellular distribution by immunofluorescence. RESULTS: We found three heterozygous mutations. Mutation Val109Glu (c.326T/A; p.Val109Glu) and mutation Pro236Gln (c.707C/A; p.Pro236Gln) were newly indentified mutations in two distinct families (family F1 and family F3). Another previously reported UMOD mutation Cys248Trp (c.744C/G; p.Cys248Trp) was detected in family F2. Phenotypes varied both within the same family and between different families. Uromodulin expression is abnormal in the patient biopsy. Functional analysis of mutation showed that mutant types of uromodulin were secreted into the supernatant medium much less when compared with wild type. In mutant type uromodulin transfected cells, intracellular uromodulin localized less in the Golgi apparatus and more in endoplasmic reticulum(ER). CONCLUSIONS: Our results suggested that the novel uromodulin mutations found in the Chinese families lead to misfolded protein, which was retained in the endoplasmic reticulum, finally contributed to the phenotype of FJHN.

Structural characterization and IgE epitope analysis of arginine kinase from Scylla paramamosain.

Arginine kinase (AK) is reported to be the pan-allergen of shellfish. However, there is limited information on its IgE epitopes and structural characteristics. In this study, AK from Scylla paramamosain was purified and characterized. The purified AK is a glycoprotein with the molecular weight of 40 kDa and it demonstrates cross-reactivity with the related allergens present in other shellfish. The cDNA of S. paramamosain AK was cloned, which encodes 357 amino acid residues. Nine linear epitopes and seven conformational epitopes were predicted following bioinformatics analysis. In addition, the entire recombinant AK (rAK) and three partial recombinant AKs (rAK1, rAK2, and rAK3) were successfully expressed in Escherichia coli BL21 (DE3). The proteins of rAK1, rAK2 and rAK have strong IgE reactivity with the pooled sera from crab allergic patients, while rAK3 has significantly weaker IgE reactivity, which indicates that the IgE epitopes of AK are mainly distributed in the regions of rAK1 and rAK2. Furthermore, three experimental linear epitopes (epitope 1: AA 127-141, epitope 2: AA 141-155, and epitope 3: AA 211-225) were discovered in the region of rAK1 and rAK2 using synthetized overlapping peptides. The experimental linear epitopes were mapped onto the protein homology model of AK. Meanwhile, in the IgE-binding assays of the sera from nine crab allergic patients, only three sera reacted with the denatured, linear AK as shown by Western-blotting, eight sera reacted with the native, folded AK by both dot-blotting and ELISA, which indicates that the conformational IgE epitopes of S. paramamosain AK may be more predominant.

Development of specific dengue virus 2'-O- and N7-methyltransferase assays for antiviral drug screening.

Dengue virus (DENV) protein NS5 carries two mRNA cap methyltransferase (MTase) activities involved in the synthesis of a cap structure, (7Me)GpppA(2'OMe)-RNA, at the 5'-end of the viral mRNA. The methylation of the cap guanine at its N7-position (N7-MTase, (7Me)GpppA-RNA) is essential for viral replication. The development of high throughput methods to identify specific inhibitors of N7-MTase is hampered by technical limitations in the large scale synthesis of long capped RNAs. In this work, we describe an efficient method to generate such capped RNA, GpppA(2'OMe)-RNA74, by ligation of two RNA fragments. Then, we use GpppA(2'OMe)-RNA74 as a substrate to assess DENV N7-MTase activity and to develop a robust and specific activity assay. We applied the same ligation procedure to generate (7Me)GpppA-RNA74 in order to characterize the DENV 2'-O-MTase activity specifically on long capped RNA. We next compared the N7- and 2'-O-MTase inhibition effect of 18 molecules, previously proposed to affect MTase activities. These experiments allow the validation of a rapid and sensitive method easily adaptable for high-throughput inhibitor screening in anti-flaviviral drug development.

Engineering the pH-optimum of activity of the GH12 family endoglucanase by site-directed mutagenesis.

Endo-1,4-ß-glucanase from Penicillium verruculosum (PvEGIII) belongs to family 12 of glycoside hydrolases (GH12). Analysis of the enzyme 3D model structure showed that the amino acid residue Asp98 may directly affect the pH-profile of enzyme activity since it is located at the distance of hydrogen bond formation from Glu203 that plays the role of a general acid in catalysis. The gene encoding the PvEGIII was cloned into Escherichia coli. After the deletion of two introns, a plasmid construction was obtained allowing the PvEGIII expression in E. coli. Using site-directed mutagenesis, the Asp98Asn mutant of the PvEGIII was obtained. Both the wild type and mutant PvEGIIIs were expressed in E. coli with a yield of up to 1 g/L and then isolated in a highly purified form. The enzyme specific activity against soluble carboxymethylcellulose was not changed after a single amino acid substitution. However, the pH-optimum of activity of the mutant PvEGIII was shifted from pH 4.0 to 5.1, compared to the wild type enzyme. The shift in the enzyme pH-optimum to more neutral pH was also observed on insoluble cellulose, in the process of enzymatic depigmentation of denim fabric. Similar situation featuring the effect of the Asp/Asn residue, located near the Glu catalytic residue, on the enzyme activity pH-profile has previously been described for xylanases of the GH11 family. Thus, the glycoside hydrolases belonging to the GH11 and GH12 families function by a rather similar mechanism of catalysis.

Neutralización heteróloga e interacción de amanitinas con venenos de Bothropsy Crotalus y de abeja / Heterologous neutralization and interaction of toxic amanitins with Bothrops and Crotalus venoms, and honey bee venom / Neutralização heteróloga e interação das amanitinas tóxicas com veneno de Bothrops e Crotalus e veneno de abelha

En el presente trabajo se examinó la interacción de las amanitinas de Amanita phalloides (Basidiomycetes) con los venenos de las serpientes Bothrops neuwiedi diporus ("yarará pequeña"), B. alternatus ("yarará grande"), Crotalus durissus terrificus ("serpiente de cascabel") y de la abeja mielera Apis mellifera. Se aplicaron las técnicas de Ouchterlony, inmunotransferencia, electroforesis rocket y electroforesis en gel de poliacrilamida a los anti-venenos y anti-toxinas obtenidos por inmunización en caballos y/o en conejos. Los anti­sueros de serpientes y las amanitinas reaccionaron en forma cruzada, así como el veneno de abeja y las amanitinas. Cuando los venenos de Bothrops neuwiedii diporus y Crotalus durissus terrificus se preincubaron con las amanitinas y se analizaron por electroforesis en gel de poliacrilamida-dodecilsulfato de sodio (dodecylsulfate-polyacrylamide gel electrophoresis: SDS-PAGE), algunas bandas de proteínas desaparecieron y otras se redujeron notablemente. Estos resultados revelan por primera vez la interacción y la degradación de las proteínas de los venenos de serpientes por las amanitinas. Por otra parte, la modificación del tiempo de coagulación de la sangre humana, debida a los venenos, se corrigió con los ciclopéptidos de Amanita. Estos resultados también se informan por primera vez en este trabajo. La presencia de polipéptidos tóxicos en los venenos de serpientes y abejas, así como en A. phalloides y la reactividad cruzada demostradas en este trabajo, sugieren la existencia de epítopos comunes a todos ellos. Teniendo en cuenta estas reacciones, el uso de anti-venenos heterólogos parece ser de utilidad en el tratamiento del envenenamiento.

In the present work, the interaction of the amanitins of Amanita phalloides (Basidiomycetes) with the venoms of Bothrops neuwiedi diporus ("small yarará snake"), B. alternatus ("big yarará"), Crotalus durissus terrificus ("rattlesnake"), and honey bee Apis mellifera was examined. Ouchterlony, immunotransfer, rocket-electrophoresis, and polyacrylamide gel electrophoresis techniques were applied to anti-venoms and anti-toxins obtained by immunization in horses and/or in rabbits. Snake antisera and amanitins cross-reacted as well as bee venom and amanitins. When venoms of Bothrops neuwiedii diporus and Crotalus durissus terrificus were preincubated with amanitins and analysed by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE), some protein bands disappeared and others were significantly reduced. These results reveal for the first time the interaction and degradation of proteins in snake venoms by amanitins. Moreover, the modification of the human blood clotting time due to snake venoms was corrected by the Amanita cyclopeptides. These results are also reported for the first time in this work. The occurrence of toxic polypeptides in the snake and bee venoms as well as in A. phalloides, and the cross-reactivity demostrated herein, suggest the occurrence of epitopes common to all of them. Taking into account these reactions,the use of heterologous anti-venoms seems to be of value in envenomation treatment.

No presente trabalho foi examinada a interação das amanitinas de Amanita phalloides (Basidiomy­cetes) com os venenos das serpentes Bothrops neuwiedi diporus ("jararaca-cruzeira"), B. alternatus ("urutu"), Crotalus durissus terrificus ("serpente cascavel") e da abelha-europeia Apis mellifera. Foram aplicadas as técnicas de Ouchterlony, imunotransferência, eletroforese rocket e eletroforese em gel de poliacrilamida aos anti-venenos e anti-toxinas obtidos por imunização em cavalos e/ou em coelhos. Os anti-soros de serpentes e as amanitinas reagiram em forma cruzada, bem como o veneno de abelha e as amanitinas. Quando os venenos de Bothrops neuwiedii diporus e Crotalus durissus terrificus foram incubados previamente com as amanitinas e foram analisados por eletroforese em gel de poliacrilamida-dodecilsulfato de sódio (dodecylsulfate-polyacrylamide gel electrophoresis: SDS-PAGE), algumas faixas de proteínas desapareceram e outras se reduziram notavelmente. Estes resultados revelam por primeira vez a interação e a degradação das proteínas dos venenos de serpentes pelas amanitinas. Por outra parte, a modificação do tempo de coagulação do sangue humano, devido aos venenos, se corrigiu com os ciclopeptídeos de Amanita. Estes resultados também se informam por primeira vez neste trabalho. A presença de polipeptídeos tóxicos nos venenos de serpentes e abelhas, bem como em A. phalloides e a reatividade cruzada demonstradas neste trabalho, sugerem a existência de epítopos comuns a todos eles. Levando em consideração estas reações, o uso de anti-venenos heterólogos parece ser de utilidade no tratamento do envenenamento.

Neutralización heteróloga e interacción de amanitinas con venenos de Bothropsy Crotalus y de abeja / Heterologous neutralization and interaction of toxic amanitins with Bothrops and Crotalus venoms, and honey bee venom / NeutralizaþÒo heteróloga e interaþÒo das amanitinas tóxicas com veneno de Bothrops e Crotalus e veneno de abelha

En el presente trabajo se examinó la interacción de las amanitinas de Amanita phalloides (Basidiomycetes) con los venenos de las serpientes Bothrops neuwiedi diporus ("yarará pequeña"), B. alternatus ("yarará grande"), Crotalus durissus terrificus ("serpiente de cascabel") y de la abeja mielera Apis mellifera. Se aplicaron las técnicas de Ouchterlony, inmunotransferencia, electroforesis rocket y electroforesis en gel de poliacrilamida a los anti-venenos y anti-toxinas obtenidos por inmunización en caballos y/o en conejos. Los anti¡sueros de serpientes y las amanitinas reaccionaron en forma cruzada, así como el veneno de abeja y las amanitinas. Cuando los venenos de Bothrops neuwiedii diporus y Crotalus durissus terrificus se preincubaron con las amanitinas y se analizaron por electroforesis en gel de poliacrilamida-dodecilsulfato de sodio (dodecylsulfate-polyacrylamide gel electrophoresis: SDS-PAGE), algunas bandas de proteínas desaparecieron y otras se redujeron notablemente. Estos resultados revelan por primera vez la interacción y la degradación de las proteínas de los venenos de serpientes por las amanitinas. Por otra parte, la modificación del tiempo de coagulación de la sangre humana, debida a los venenos, se corrigió con los ciclopéptidos de Amanita. Estos resultados también se informan por primera vez en este trabajo. La presencia de polipéptidos tóxicos en los venenos de serpientes y abejas, así como en A. phalloides y la reactividad cruzada demostradas en este trabajo, sugieren la existencia de epítopos comunes a todos ellos. Teniendo en cuenta estas reacciones, el uso de anti-venenos heterólogos parece ser de utilidad en el tratamiento del envenenamiento.(AU)

In the present work, the interaction of the amanitins of Amanita phalloides (Basidiomycetes) with the venoms of Bothrops neuwiedi diporus ("small yarará snake"), B. alternatus ("big yarará"), Crotalus durissus terrificus ("rattlesnake"), and honey bee Apis mellifera was examined. Ouchterlony, immunotransfer, rocket-electrophoresis, and polyacrylamide gel electrophoresis techniques were applied to anti-venoms and anti-toxins obtained by immunization in horses and/or in rabbits. Snake antisera and amanitins cross-reacted as well as bee venom and amanitins. When venoms of Bothrops neuwiedii diporus and Crotalus durissus terrificus were preincubated with amanitins and analysed by sodium dodecylsulfate-polyacrylamide gel electrophoresis (SDS-PAGE), some protein bands disappeared and others were significantly reduced. These results reveal for the first time the interaction and degradation of proteins in snake venoms by amanitins. Moreover, the modification of the human blood clotting time due to snake venoms was corrected by the Amanita cyclopeptides. These results are also reported for the first time in this work. The occurrence of toxic polypeptides in the snake and bee venoms as well as in A. phalloides, and the cross-reactivity demostrated herein, suggest the occurrence of epitopes common to all of them. Taking into account these reactions,the use of heterologous anti-venoms seems to be of value in envenomation treatment.(AU)

No presente trabalho foi examinada a interaþÒo das amanitinas de Amanita phalloides (Basidiomy¡cetes) com os venenos das serpentes Bothrops neuwiedi diporus ("jararaca-cruzeira"), B. alternatus ("urutu"), Crotalus durissus terrificus ("serpente cascavel") e da abelha-europeia Apis mellifera. Foram aplicadas as técnicas de Ouchterlony, imunotransferÛncia, eletroforese rocket e eletroforese em gel de poliacrilamida aos anti-venenos e anti-toxinas obtidos por imunizaþÒo em cavalos e/ou em coelhos. Os anti-soros de serpentes e as amanitinas reagiram em forma cruzada, bem como o veneno de abelha e as amanitinas. Quando os venenos de Bothrops neuwiedii diporus e Crotalus durissus terrificus foram incubados previamente com as amanitinas e foram analisados por eletroforese em gel de poliacrilamida-dodecilsulfato de sódio (dodecylsulfate-polyacrylamide gel electrophoresis: SDS-PAGE), algumas faixas de proteínas desapareceram e outras se reduziram notavelmente. Estes resultados revelam por primeira vez a interaþÒo e a degradaþÒo das proteínas dos venenos de serpentes pelas amanitinas. Por outra parte, a modificaþÒo do tempo de coagulaþÒo do sangue humano, devido aos venenos, se corrigiu com os ciclopeptídeos de Amanita. Estes resultados também se informam por primeira vez neste trabalho. A presenþa de polipeptídeos tóxicos nos venenos de serpentes e abelhas, bem como em A. phalloides e a reatividade cruzada demonstradas neste trabalho, sugerem a existÛncia de epítopos comuns a todos eles. Levando em consideraþÒo estas reaþ§es, o uso de anti-venenos heterólogos parece ser de utilidade no tratamento do envenenamento.(AU)