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Opes. In addition to antiLipL32 rabbit serum [10] and monoclonal antibodies for LipL32 [24,25] raised against whole protein, LipL32-specific antibodies from human clinical leptospirosis sera were obtained by affinity purification (Fig. 2). Chromatography was performed by applying pooled convalescent sera from leptospirosis patients on a recombinant Hydroxy Iloperidone web LipL32-affinity column and eluting specific IgGs as fractions E1-E4 (Fig. 2A). Pure 18325633 and specific antibodies recognizing both native and recombinant LipL32 were obtained in elution fraction 2, E2 (Fig. 2A and B). Surface immunofluorescence assays utilizing these three different types of antibodies revealed that LipL32 was readily recognized by anti-LipL32 rabbit serum, monoclonal antibodies or affinity-purified antibodies from leptospirosis patientsera only after the OM was permeabilized by methanol (Fig. 3). Antibodies against sub-surface FlaA2 were included to assess the integrity of the leptospiral OM, showing that sub-surface proteins are exposed only after OM permeabilization (Fig. 3). Positive control experiments were performed with antibodies recognizing OmpL54, a known surface-exposed protein (Fig. 3). Normal human serum was used as a negative control to eliminate the possibility that the signal obtained by affinity purified LipL32 IgGs were due to non-specific binding by cross-reactive antibody species in human serum (Fig. 3). These data clearly demonstrate that LipL32 is not detected on the surface of intact L. interrogans by IFA (Fig. 3). To further strengthen this conclusion, mechanical and chemical OM disruption methods, including vortexing and high-speed centrifugation in PBS, chelation with 2 mM EDTA and shear force by passing organisms through a narrow needle, were tested to exclude the possibility that the antibodies selectively recognized methanoldenatured LipL32. Immunofluorescence experiments with affinity purified anti-LipL32 IgGs revealed that LipL32 is recognized only after disruption of the OM without a substantial difference between the permeabilization methods applied (Fig. 4). Experiments withFigure 3. Localization of LipL32 by surface immunofluorescence assay (IFA). Intact or membrane-permeabilized spirochetes were probed with immune sera. Binding of rabbit antibodies to leptospires was detected with Alexa Fluor 488 conjugated goat anti-rabbit IgG fragments. Binding of LipL32 monoclonal antibodies was detected with Alexa Fluor 488 conjugated goat anti-mouse IgG fragments. Binding of LipL32 antibodies purified from leptospirosis patient sera were detected with Alexa Fluor 488 conjugated goat anti-human IgG fragments. A DAPI counterstain was used to demonstrate the presence of spirochetes. The data is representation of four (A) or three (B) experiments performed separately. The identities of individual proteins recognized by the particular antibody reagent are indicated on the top of each column. doi:10.1371/journal.pone.0051025.gLipL32 Is a Subsurface HC-030031 chemical information Lipoprotein of LeptospiraFigure 4. Confirmation of subsurface locale of LipL32 by surface IFA and various outer-membrane permeabilization methods. Intact spirochetes or cells disrupted by methanol, vortexing and high-speed centrifugation, 2 mM EDTA or shear force were probed with affinity purified LipL32 antibodies from leptospirosis patient sera or FlaA2 rabbit serum as a control. The data is representation of three experiments performed separately. Binding of antibodies to leptospires were detected either with Alexa F.Opes. In addition to antiLipL32 rabbit serum [10] and monoclonal antibodies for LipL32 [24,25] raised against whole protein, LipL32-specific antibodies from human clinical leptospirosis sera were obtained by affinity purification (Fig. 2). Chromatography was performed by applying pooled convalescent sera from leptospirosis patients on a recombinant LipL32-affinity column and eluting specific IgGs as fractions E1-E4 (Fig. 2A). Pure 18325633 and specific antibodies recognizing both native and recombinant LipL32 were obtained in elution fraction 2, E2 (Fig. 2A and B). Surface immunofluorescence assays utilizing these three different types of antibodies revealed that LipL32 was readily recognized by anti-LipL32 rabbit serum, monoclonal antibodies or affinity-purified antibodies from leptospirosis patientsera only after the OM was permeabilized by methanol (Fig. 3). Antibodies against sub-surface FlaA2 were included to assess the integrity of the leptospiral OM, showing that sub-surface proteins are exposed only after OM permeabilization (Fig. 3). Positive control experiments were performed with antibodies recognizing OmpL54, a known surface-exposed protein (Fig. 3). Normal human serum was used as a negative control to eliminate the possibility that the signal obtained by affinity purified LipL32 IgGs were due to non-specific binding by cross-reactive antibody species in human serum (Fig. 3). These data clearly demonstrate that LipL32 is not detected on the surface of intact L. interrogans by IFA (Fig. 3). To further strengthen this conclusion, mechanical and chemical OM disruption methods, including vortexing and high-speed centrifugation in PBS, chelation with 2 mM EDTA and shear force by passing organisms through a narrow needle, were tested to exclude the possibility that the antibodies selectively recognized methanoldenatured LipL32. Immunofluorescence experiments with affinity purified anti-LipL32 IgGs revealed that LipL32 is recognized only after disruption of the OM without a substantial difference between the permeabilization methods applied (Fig. 4). Experiments withFigure 3. Localization of LipL32 by surface immunofluorescence assay (IFA). Intact or membrane-permeabilized spirochetes were probed with immune sera. Binding of rabbit antibodies to leptospires was detected with Alexa Fluor 488 conjugated goat anti-rabbit IgG fragments. Binding of LipL32 monoclonal antibodies was detected with Alexa Fluor 488 conjugated goat anti-mouse IgG fragments. Binding of LipL32 antibodies purified from leptospirosis patient sera were detected with Alexa Fluor 488 conjugated goat anti-human IgG fragments. A DAPI counterstain was used to demonstrate the presence of spirochetes. The data is representation of four (A) or three (B) experiments performed separately. The identities of individual proteins recognized by the particular antibody reagent are indicated on the top of each column. doi:10.1371/journal.pone.0051025.gLipL32 Is a Subsurface Lipoprotein of LeptospiraFigure 4. Confirmation of subsurface locale of LipL32 by surface IFA and various outer-membrane permeabilization methods. Intact spirochetes or cells disrupted by methanol, vortexing and high-speed centrifugation, 2 mM EDTA or shear force were probed with affinity purified LipL32 antibodies from leptospirosis patient sera or FlaA2 rabbit serum as a control. The data is representation of three experiments performed separately. Binding of antibodies to leptospires were detected either with Alexa F.

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Author: GTPase atpase