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goat anti ova polyclonal antibodies  (Valiant Co Ltd)

 
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    Valiant Co Ltd goat anti ova polyclonal antibodies
    Goat Anti Ova Polyclonal Antibodies, supplied by Valiant Co Ltd, used in various techniques. Bioz Stars score: 92/100, based on 6 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/goat anti ova polyclonal antibodies/product/Valiant Co Ltd
    Average 92 stars, based on 6 article reviews
    goat anti ova polyclonal antibodies - by Bioz Stars, 2026-03
    92/100 stars

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    Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and <t>pYD1-OVA</t> constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a <t>rabbit</t> <t>anti-OVA</t> <t>polyclonal</t> antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)
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    Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and <t>pYD1-OVA</t> constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a <t>rabbit</t> <t>anti-OVA</t> <t>polyclonal</t> antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)
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    goat anti ova polyclonal antibodies  (Valiant Co Ltd)
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    Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and <t>pYD1-OVA</t> constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a <t>rabbit</t> <t>anti-OVA</t> <t>polyclonal</t> antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)
    Goat Anti Ova Polyclonal Antibodies, supplied by Valiant Co Ltd, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    goat anti ova polyclonal antibody  (Valiant Co Ltd)
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    Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and <t>pYD1-OVA</t> constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a <t>rabbit</t> <t>anti-OVA</t> <t>polyclonal</t> antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)
    Goat Anti Ova Polyclonal Antibody, supplied by Valiant Co Ltd, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/goat anti ova polyclonal antibody/product/Valiant Co Ltd
    Average 92 stars, based on 1 article reviews
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    cytometric bead assay goat anti ova polyclonal ab  (Valiant Co Ltd)
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    Valiant Co Ltd cytometric bead assay goat anti ova polyclonal ab
    Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and <t>pYD1-OVA</t> constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a <t>rabbit</t> <t>anti-OVA</t> <t>polyclonal</t> antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)
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    Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and pYD1-OVA constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a rabbit anti-OVA polyclonal antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)

    Journal: Vaccine

    Article Title: Saccharomyces cerevisiae as a platform for vaccination against bovine mastitis.

    doi: 10.1016/j.vaccine.2024.126385

    Figure Lengend Snippet: Fig. 2. – Production of a model yeast-based vaccine. A. Diagram depicting pYD1 and pYD1-OVA constructs. B. Representation of Aga2p-OVA expression by yeast surface display. C. Flow-cytometry analysis of OVA surface expression by EBY100-OVA after galactose (GAL) induction and heat-inactivation. EBY100-OVA non- inactivated or grown in raffinose (RAF) were used as controls. D. Western-blot analysis of OVA expression by EBY100-OVA. EBY100 was used as a negative con- trol. E. Analysis of OVA surface expression by EBY100-OVA after GAL induction and heat-inactivation by immunofluorescence using a rabbit anti-OVA polyclonal antibody. OVA staining is highlighted in red. Red bars correspond to 5 μm. (For interpretation of the references to colour in this figure legend, the reader is referred to the web version of this article.)

    Article Snippet: Ten micrograms of total protein were separated by electrophoresis and blotted under standard conditions using a rabbit polyclonal antibody anti-OVA antibody (produced by our team, 0.5 μg/ml) and a goat anti-rabbit IgG (H + L) antibody conjugated to horseradish peroxidase (Jackson ImmunoResearch, 1:5000).

    Techniques: Construct, Expressing, Flow Cytometry, Western Blot, Immunofluorescence, Staining

    Fig. 3 – In. vivo evaluation of a yeast-based vaccine against mastitis. A. Scheme of immunisation with EBY100-OVA. B. Monitoring of rectal temperature after prime. C.. Rectal temperature and mammary gland evaluation after booster. D-E. PBMC from vaccinated animals were isolated in the indicated days and stimulated in vitro with empty EBY100 or OVA. IFNγ (D) and IL-17 (E) release in supernatants was measured by ELISA. F. Analysis of serum total antibodies anti-EBY100 and anti- OVA by ELISA. G. Scheme depicting intramammary stimulations of cows immunised as described in A with recombinant OVA. H. Somatic cells count in mammary gland secretion before and after intramammary stimulations. I. Scheme of immunisation with adjuvanted-recombinant OVA. J-K. PBMC from OVA (J) or EBY100- OVA (K) immunised cows were stimulated in vitro with empty EBY100, EBY100-OVA or OVA. IFNγ and IL-17 release was analysed by ELISA. Data shown in B–F, H and K were obtained from the same cows immunised with EBY100-OVA (A) and subsequently stimulated via the intramammary route with recombinant OVA (G). Asterisks denote statistically significant difference (indicated time points versus day 0).

    Journal: Vaccine

    Article Title: Saccharomyces cerevisiae as a platform for vaccination against bovine mastitis.

    doi: 10.1016/j.vaccine.2024.126385

    Figure Lengend Snippet: Fig. 3 – In. vivo evaluation of a yeast-based vaccine against mastitis. A. Scheme of immunisation with EBY100-OVA. B. Monitoring of rectal temperature after prime. C.. Rectal temperature and mammary gland evaluation after booster. D-E. PBMC from vaccinated animals were isolated in the indicated days and stimulated in vitro with empty EBY100 or OVA. IFNγ (D) and IL-17 (E) release in supernatants was measured by ELISA. F. Analysis of serum total antibodies anti-EBY100 and anti- OVA by ELISA. G. Scheme depicting intramammary stimulations of cows immunised as described in A with recombinant OVA. H. Somatic cells count in mammary gland secretion before and after intramammary stimulations. I. Scheme of immunisation with adjuvanted-recombinant OVA. J-K. PBMC from OVA (J) or EBY100- OVA (K) immunised cows were stimulated in vitro with empty EBY100, EBY100-OVA or OVA. IFNγ and IL-17 release was analysed by ELISA. Data shown in B–F, H and K were obtained from the same cows immunised with EBY100-OVA (A) and subsequently stimulated via the intramammary route with recombinant OVA (G). Asterisks denote statistically significant difference (indicated time points versus day 0).

    Article Snippet: Ten micrograms of total protein were separated by electrophoresis and blotted under standard conditions using a rabbit polyclonal antibody anti-OVA antibody (produced by our team, 0.5 μg/ml) and a goat anti-rabbit IgG (H + L) antibody conjugated to horseradish peroxidase (Jackson ImmunoResearch, 1:5000).

    Techniques: In Vivo, Isolation, In Vitro, Enzyme-linked Immunosorbent Assay, Recombinant