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goat anti mouse igg2b hrp antibody  (SouthernBiotech)


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    Structured Review

    SouthernBiotech goat anti mouse igg2b hrp antibody
    Goat Anti Mouse Igg2b Hrp Antibody, supplied by SouthernBiotech, used in various techniques. Bioz Stars score: 95/100, based on 67 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/mouse+anti+igg2b+hrp/pm41906599-180-10-17?v=SouthernBiotech
    Average 95 stars, based on 67 article reviews
    goat anti mouse igg2b hrp antibody - by Bioz Stars, 2026-07
    95/100 stars

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    A) Experimental timeline of the immunisation (i.e., vaccination) against OVA and subsequent tumour inoculation of the OVA-expressing B16F10 cell lines in mice. B) Titers of anti-OVA <t>IgG</t> per IgG subtypes in the plasma of the mice at d18. C) Percentage of OVA-specific CD8 + T cells against the immunogenic epitope OVA 257-264 (SIINFEKL) in the blood at d18 in pre-immunised mice (vax) or naïve mice (no vax) (n ≥ 3, mean ± SD, unpaired t-test). D, E) B16F10 melanoma cells, either wild-type (WT) or genetically modified to express high ( HI ) or low ( LO ) doses of membrane-bound OVA (B16mOVA) or soluble OVA (B16-OVA), were injected intradermally in C57BL/6 mice. Tumour growth (D) and associated survival (E) of the different OVA-expressing B16 cell lines in pre-immunised mice (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d10, d14 or d26 for tumour growth, log-rank tests for survival). F) Potential anti-tumour mechanisms engaged by soluble (left) or membrane-bound (right) xenoantigens when expressed by cancer cells.
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    A) Experimental timeline of the immunisation (i.e., vaccination) against OVA and subsequent tumour inoculation of the OVA-expressing B16F10 cell lines in mice. B) Titers of anti-OVA <t>IgG</t> per IgG subtypes in the plasma of the mice at d18. C) Percentage of OVA-specific CD8 + T cells against the immunogenic epitope OVA 257-264 (SIINFEKL) in the blood at d18 in pre-immunised mice (vax) or naïve mice (no vax) (n ≥ 3, mean ± SD, unpaired t-test). D, E) B16F10 melanoma cells, either wild-type (WT) or genetically modified to express high ( HI ) or low ( LO ) doses of membrane-bound OVA (B16mOVA) or soluble OVA (B16-OVA), were injected intradermally in C57BL/6 mice. Tumour growth (D) and associated survival (E) of the different OVA-expressing B16 cell lines in pre-immunised mice (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d10, d14 or d26 for tumour growth, log-rank tests for survival). F) Potential anti-tumour mechanisms engaged by soluble (left) or membrane-bound (right) xenoantigens when expressed by cancer cells.
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    Aviva Systems mouse aviva systems biology oaea00010 goat anti mouse aviva systems biology oasa06620 oligonucleotides
    A) Experimental timeline of the immunisation (i.e., vaccination) against OVA and subsequent tumour inoculation of the OVA-expressing B16F10 cell lines in mice. B) Titers of anti-OVA <t>IgG</t> per IgG subtypes in the plasma of the mice at d18. C) Percentage of OVA-specific CD8 + T cells against the immunogenic epitope OVA 257-264 (SIINFEKL) in the blood at d18 in pre-immunised mice (vax) or naïve mice (no vax) (n ≥ 3, mean ± SD, unpaired t-test). D, E) B16F10 melanoma cells, either wild-type (WT) or genetically modified to express high ( HI ) or low ( LO ) doses of membrane-bound OVA (B16mOVA) or soluble OVA (B16-OVA), were injected intradermally in C57BL/6 mice. Tumour growth (D) and associated survival (E) of the different OVA-expressing B16 cell lines in pre-immunised mice (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d10, d14 or d26 for tumour growth, log-rank tests for survival). F) Potential anti-tumour mechanisms engaged by soluble (left) or membrane-bound (right) xenoantigens when expressed by cancer cells.
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    A) Experimental timeline of the immunisation (i.e., vaccination) against OVA and subsequent tumour inoculation of the OVA-expressing B16F10 cell lines in mice. B) Titers of anti-OVA IgG per IgG subtypes in the plasma of the mice at d18. C) Percentage of OVA-specific CD8 + T cells against the immunogenic epitope OVA 257-264 (SIINFEKL) in the blood at d18 in pre-immunised mice (vax) or naïve mice (no vax) (n ≥ 3, mean ± SD, unpaired t-test). D, E) B16F10 melanoma cells, either wild-type (WT) or genetically modified to express high ( HI ) or low ( LO ) doses of membrane-bound OVA (B16mOVA) or soluble OVA (B16-OVA), were injected intradermally in C57BL/6 mice. Tumour growth (D) and associated survival (E) of the different OVA-expressing B16 cell lines in pre-immunised mice (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d10, d14 or d26 for tumour growth, log-rank tests for survival). F) Potential anti-tumour mechanisms engaged by soluble (left) or membrane-bound (right) xenoantigens when expressed by cancer cells.

    Journal: bioRxiv

    Article Title: Membrane localisation and checkpoint blockade enhance xenoantigen delivery to redirect pre-existing immunity against tumours

    doi: 10.64898/2026.03.01.708859

    Figure Lengend Snippet: A) Experimental timeline of the immunisation (i.e., vaccination) against OVA and subsequent tumour inoculation of the OVA-expressing B16F10 cell lines in mice. B) Titers of anti-OVA IgG per IgG subtypes in the plasma of the mice at d18. C) Percentage of OVA-specific CD8 + T cells against the immunogenic epitope OVA 257-264 (SIINFEKL) in the blood at d18 in pre-immunised mice (vax) or naïve mice (no vax) (n ≥ 3, mean ± SD, unpaired t-test). D, E) B16F10 melanoma cells, either wild-type (WT) or genetically modified to express high ( HI ) or low ( LO ) doses of membrane-bound OVA (B16mOVA) or soluble OVA (B16-OVA), were injected intradermally in C57BL/6 mice. Tumour growth (D) and associated survival (E) of the different OVA-expressing B16 cell lines in pre-immunised mice (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d10, d14 or d26 for tumour growth, log-rank tests for survival). F) Potential anti-tumour mechanisms engaged by soluble (left) or membrane-bound (right) xenoantigens when expressed by cancer cells.

    Article Snippet: Samples were applied to the antigen coated plate and incubated at RT for 2 h. The plates were washed three times with PBST and HRP-conjugated antibodies were used to detect antigen-specific antibodies: anti-mouse IgG1 (#1070-05), anti-mouse IgG2a (#1080-05), anti-mouse IgG2b (#1090-05) and anti-mouse IgG3 (#1100-05) from Southern Biotech (Birmingham, AL, USA).

    Techniques: Expressing, Clinical Proteomics, Genetically Modified, Membrane, Injection

    A) Immunofluorescent staining of B16F10 WT melanoma with the TRP1-targeting TA99 antibody (scale bar = 100 μm). B) B16F10 WT tumour growth upon treatment with TA99 or IgG2a isotype control (n ≥ 4, mean ± SEM, Mann-Whitney test on d11). C) Design of FabTRP-OVA fusion protein and analysis of its production by SDS-PAGE (expected size = 92,3 kDa). D) Illustration of the FabTRP-OVA fusion protein approach for targeting the xenoantigen to the cancer cell membrane. E) Representative flow cytometry plot of FabTRP-OVA, OVA and no OVA (i.e., secondary antibody only) binding to the surface of B16F10 WT cells. F) B16F10 WT tumour growth when treated with FabTRP-OVA in pre-immunised or naïve mice (n ≥ 4, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d12). G) B16F10 WT tumour growth when treated with FabTRP-OVA in combination with anti-PD-1 checkpoint blocade therapy (n ≥ 4, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d12). H) Experimental treatment timeline of xenoantigen delivery (i.e., FabTRP-OVA, OVA or PBS (vehicle only)) and anti-PD-1 checkpoint blockade therapy in B16F10 WT in mice pre-immunised against OVA (Vax) or naïve (No vax). I, J) B16F10 WT tumour growth (I) and associated mouse survival (J) upon treatment with FabTRP-OVA, OVA or PBS in combination with anti-PD-1 checkpoint blockade therapy (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d16, log-rank tests for survival).

    Journal: bioRxiv

    Article Title: Membrane localisation and checkpoint blockade enhance xenoantigen delivery to redirect pre-existing immunity against tumours

    doi: 10.64898/2026.03.01.708859

    Figure Lengend Snippet: A) Immunofluorescent staining of B16F10 WT melanoma with the TRP1-targeting TA99 antibody (scale bar = 100 μm). B) B16F10 WT tumour growth upon treatment with TA99 or IgG2a isotype control (n ≥ 4, mean ± SEM, Mann-Whitney test on d11). C) Design of FabTRP-OVA fusion protein and analysis of its production by SDS-PAGE (expected size = 92,3 kDa). D) Illustration of the FabTRP-OVA fusion protein approach for targeting the xenoantigen to the cancer cell membrane. E) Representative flow cytometry plot of FabTRP-OVA, OVA and no OVA (i.e., secondary antibody only) binding to the surface of B16F10 WT cells. F) B16F10 WT tumour growth when treated with FabTRP-OVA in pre-immunised or naïve mice (n ≥ 4, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d12). G) B16F10 WT tumour growth when treated with FabTRP-OVA in combination with anti-PD-1 checkpoint blocade therapy (n ≥ 4, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d12). H) Experimental treatment timeline of xenoantigen delivery (i.e., FabTRP-OVA, OVA or PBS (vehicle only)) and anti-PD-1 checkpoint blockade therapy in B16F10 WT in mice pre-immunised against OVA (Vax) or naïve (No vax). I, J) B16F10 WT tumour growth (I) and associated mouse survival (J) upon treatment with FabTRP-OVA, OVA or PBS in combination with anti-PD-1 checkpoint blockade therapy (n ≥ 5, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d16, log-rank tests for survival).

    Article Snippet: Samples were applied to the antigen coated plate and incubated at RT for 2 h. The plates were washed three times with PBST and HRP-conjugated antibodies were used to detect antigen-specific antibodies: anti-mouse IgG1 (#1070-05), anti-mouse IgG2a (#1080-05), anti-mouse IgG2b (#1090-05) and anti-mouse IgG3 (#1100-05) from Southern Biotech (Birmingham, AL, USA).

    Techniques: Staining, Control, MANN-WHITNEY, SDS Page, Membrane, Flow Cytometry, Binding Assay

    A) Experimental timeline of the immunisation (i.e., vaccination) against varicella VZVO using Varivax or a combination of gE/CpG. B) IFΝγ quantification in the supernatant of gE restimulated (+) or non-restimulated (-) splenocytes, collected from mice immunized with Varivax, gE/CpG or PBS (i.e., naïve). Ionomycin+PMA was used as a positive control. C) Titers of anti-gE total IgG and per IgG subtypes in the plasma of the pre-immunised mice at d55 (before tumour implantation). D) Experimental treatment timeline of xenoantigen delivery (i.e., Varivax, gE or PBS (vehicle only)) and anti-PD-1 checkpoint blockade treatment in B16F10 WT in mice pre-immunised with Varivax against varicella VZVO . E, F) B16F10 WT tumour growth (E) and associated mouse survival (F) upon treatment with Varivax, gE or PBS in combination with anti-PD-1 checkpoint blockade (n ≥ 7, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d16, log-rank tests for survival).

    Journal: bioRxiv

    Article Title: Membrane localisation and checkpoint blockade enhance xenoantigen delivery to redirect pre-existing immunity against tumours

    doi: 10.64898/2026.03.01.708859

    Figure Lengend Snippet: A) Experimental timeline of the immunisation (i.e., vaccination) against varicella VZVO using Varivax or a combination of gE/CpG. B) IFΝγ quantification in the supernatant of gE restimulated (+) or non-restimulated (-) splenocytes, collected from mice immunized with Varivax, gE/CpG or PBS (i.e., naïve). Ionomycin+PMA was used as a positive control. C) Titers of anti-gE total IgG and per IgG subtypes in the plasma of the pre-immunised mice at d55 (before tumour implantation). D) Experimental treatment timeline of xenoantigen delivery (i.e., Varivax, gE or PBS (vehicle only)) and anti-PD-1 checkpoint blockade treatment in B16F10 WT in mice pre-immunised with Varivax against varicella VZVO . E, F) B16F10 WT tumour growth (E) and associated mouse survival (F) upon treatment with Varivax, gE or PBS in combination with anti-PD-1 checkpoint blockade (n ≥ 7, mean ± SEM, Kruskal-Wallis with Dunn’s post-test on d16, log-rank tests for survival).

    Article Snippet: Samples were applied to the antigen coated plate and incubated at RT for 2 h. The plates were washed three times with PBST and HRP-conjugated antibodies were used to detect antigen-specific antibodies: anti-mouse IgG1 (#1070-05), anti-mouse IgG2a (#1080-05), anti-mouse IgG2b (#1090-05) and anti-mouse IgG3 (#1100-05) from Southern Biotech (Birmingham, AL, USA).

    Techniques: Positive Control, Clinical Proteomics