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anti rabbit vitronectin  (Proteintech)


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    Structured Review

    Proteintech anti rabbit vitronectin
    Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - <t>vitronectin</t> as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.
    Anti Rabbit Vitronectin, supplied by Proteintech, used in various techniques. Bioz Stars score: 93/100, based on 23 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/anti rabbit vitronectin/product/Proteintech
    Average 93 stars, based on 23 article reviews
    anti rabbit vitronectin - by Bioz Stars, 2026-02
    93/100 stars

    Images

    1) Product Images from "Follicular fluid aids cell adhesion, spreading in an age independent manner and shows an age-dependent effect on DNA damage in fallopian tube epithelial cells"

    Article Title: Follicular fluid aids cell adhesion, spreading in an age independent manner and shows an age-dependent effect on DNA damage in fallopian tube epithelial cells

    Journal: Heliyon

    doi: 10.1016/j.heliyon.2024.e27336

    Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - vitronectin as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.
    Figure Legend Snippet: Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - vitronectin as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.

    Techniques Used: Western Blot, Expressing, Recombinant, Lysis, Staining, Control

    Vitronectin in FF aids in FTE adhesion and spreading A. Representative brightfield images of FT190 cells seeded on ULA plates coated with FF sample (400 μl) and recombinant vitronectin protein (1 μg/well) for 4 h. Wells were washed with 1X PBS and FT190 cells were seeded on the coated plates. Images were acquired after 24 h. Scale bar = 200 μm. B. Cell proliferation was measured using an SRB assay to measure cell viability of FT190 cells on FF and vitronectin coated ULA plates. C. Representative Z stack images acquired by confocal microscopy of FT190 spheroids (labelled with Cell tracker 594) on NOF151 cells (labelled with Cell tracker 488) with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 200 μm. D. A maximum intensity projection re-construction of a three-dimensional FTE spheroid (labelled with Cell tracker 594) optical data stack over the surface of NOF151 cells (labelled with Cell tracker 488) treated with FF samples (Y1, A1) and vitronectin (1 μg). Spheroids were imaged with a 10× objective and re-constructed using the Imaris software. E. Representative images acquired by confocal microscopy showing a side and top projection of the FT190 spheroids on NOF151 cells with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 100 μm. F. Spheroid area (with and without FF/vitronectin) was determined by quantification of red fluorescent intensity using a polygon area measurement tool of the Imaris software.
    Figure Legend Snippet: Vitronectin in FF aids in FTE adhesion and spreading A. Representative brightfield images of FT190 cells seeded on ULA plates coated with FF sample (400 μl) and recombinant vitronectin protein (1 μg/well) for 4 h. Wells were washed with 1X PBS and FT190 cells were seeded on the coated plates. Images were acquired after 24 h. Scale bar = 200 μm. B. Cell proliferation was measured using an SRB assay to measure cell viability of FT190 cells on FF and vitronectin coated ULA plates. C. Representative Z stack images acquired by confocal microscopy of FT190 spheroids (labelled with Cell tracker 594) on NOF151 cells (labelled with Cell tracker 488) with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 200 μm. D. A maximum intensity projection re-construction of a three-dimensional FTE spheroid (labelled with Cell tracker 594) optical data stack over the surface of NOF151 cells (labelled with Cell tracker 488) treated with FF samples (Y1, A1) and vitronectin (1 μg). Spheroids were imaged with a 10× objective and re-constructed using the Imaris software. E. Representative images acquired by confocal microscopy showing a side and top projection of the FT190 spheroids on NOF151 cells with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 100 μm. F. Spheroid area (with and without FF/vitronectin) was determined by quantification of red fluorescent intensity using a polygon area measurement tool of the Imaris software.

    Techniques Used: Recombinant, Sulforhodamine B Assay, Confocal Microscopy, Construct, Software

    Primary antibodies.
    Figure Legend Snippet: Primary antibodies.

    Techniques Used:



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    Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - <t>vitronectin</t> as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.
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    Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - <t>vitronectin</t> as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.
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    Expression of extracellular matrix proteins and adhesion molecules in CHD1 KO cells. (a) Graph demonstrating the expression of genes that were altered at least two-fold in the NT2 and CHD1 KO lines, Cr16 and Cr21, compared to RWPE-1. ITGA2 was down-regulated, while ITGA4 is up-regulated in CHD1 KO cells. The integrin ligands, collagen (COL16A1, COL4A2, COL5A1 and COL6A2), FN1, and the laminin component, LAMB3, are downregulated in CHD1 KO cells. The most down-regulated ECM components in the CHD1 KO cells were MMP2, SPARC and VTN. The ECM proteins ITGA4, MMP12, and SELL were up regulated. (b) Plot depicting levels of secreted SPARC protein as detected by ELISA. High levels of SPARC are secreted by RWPE-1 compared to the CHD1 KO lines ( ** p < 0.01). NT2 cell lines secreted higher levels of SPARC than RWPE-1 cell lines ( * p < 0.05). Error bars represent standard deviation. (c) Top panel: Western blot showing levels of SPARC in 30 μg of lysate from RWPE-1, NT2, Cr2, Cr16, and Cr21. SPARC is detectable in RWPE-1 and NT2 but not in the CHD1 KO clones. Bottom panel: loading control. (d) Plot depicting levels of secreted MMP2 protein as detected by ELISA. High levels of MMP2 are secreted by RWPE- 1 compared to the CHD1 KO lines ( ** p < 0.01). NT2 cell lines secreted higher levels of MMP2 than RWPE-1 cell lines ( * p < 0.05). Error bars represent standard deviation. (e) Western blot showing levels of TNC (top panel), VTN (middle panel) and GAPDH (lower panel) in the five cell lines. Cr2 and Cr21 express low levels of TNC compared to RWPE-1 and NT2, while Cr16 expresses TNC levels similar to the parental lines. Cr2 and Cr21 express lower levels of VTN than RWPE-1, while Cr16 expresses similar levels. Bar graphs below show levels of TNC (left) and VTN (right) relative to GAPDH in the five lines. CHD1, chromodomain helicase DNA binding protein 1; ECM, extracellular matrix; ELISA, enzyme-linked immunosorbent assay; FN1, fibronectin; GAPDH, glyceraldehyde 3-phosphate dehydrogenase; ITGA2/4, integrin subunit alpha 2/4; KO, knockout; LAMB3, laminin subunit beta-3 precursor; MMP2/12, matrix metalloproteinase 2/12; NT2, non-target cells; SPARC, secreted protein acidic and rich in cysteine; TNC, tenascin; VTN, <t>vitronectin.</t>
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    Binding of the rGAPDH protein to different ECM components in ELISA experiment . Microtiters plate was coated with Matrigel, fibronectin, collagen or laminin solution. Various concentrations of rGAPDH or BSA were added and detected by anti-His-tag <t>monoclonal</t> antibody. For detecting the binding to <t>vitronectin,</t> microtiters plate was coated with rGAPDH or BSA. Various concentrations of vitronectin were added and detected by anti-vitronectin monoclonal antibody. * P < 0.05, ** P < 0.01, compared with the negative control (BSA).
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    Image Search Results


    Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - vitronectin as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.

    Journal: Heliyon

    Article Title: Follicular fluid aids cell adhesion, spreading in an age independent manner and shows an age-dependent effect on DNA damage in fallopian tube epithelial cells

    doi: 10.1016/j.heliyon.2024.e27336

    Figure Lengend Snippet: Proteomic analysis of FF samples revealed extracellular matrix (ECM) protein - vitronectin as the component responsible for FTE adhesion and spreading A. Experimental workflow of proteomics experiment. B. Venn diagram showing 14 common proteins identified between young and aged FF samples from proteomics analysis. Common proteins are listed with vitronectin (highlighted in red). C. Representative immunoblot for vitronectin expression in 3 young (Y1–Y3) and 3 aged (A1-A3) FF samples. FF samples (5 μg) and recombinant vitronectin protein (0.01 μg, 0.1 μg, 1 μg) diluted with lysis buffer were used for immunoblotting. Arrow represents the band analyzed for vitronectin. Ponceau staining was used for loading control.

    Article Snippet: Anti-rabbit vitronectin , Proteintech 15833-1-AP , 1:1000.

    Techniques: Western Blot, Expressing, Recombinant, Lysis, Staining, Control

    Vitronectin in FF aids in FTE adhesion and spreading A. Representative brightfield images of FT190 cells seeded on ULA plates coated with FF sample (400 μl) and recombinant vitronectin protein (1 μg/well) for 4 h. Wells were washed with 1X PBS and FT190 cells were seeded on the coated plates. Images were acquired after 24 h. Scale bar = 200 μm. B. Cell proliferation was measured using an SRB assay to measure cell viability of FT190 cells on FF and vitronectin coated ULA plates. C. Representative Z stack images acquired by confocal microscopy of FT190 spheroids (labelled with Cell tracker 594) on NOF151 cells (labelled with Cell tracker 488) with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 200 μm. D. A maximum intensity projection re-construction of a three-dimensional FTE spheroid (labelled with Cell tracker 594) optical data stack over the surface of NOF151 cells (labelled with Cell tracker 488) treated with FF samples (Y1, A1) and vitronectin (1 μg). Spheroids were imaged with a 10× objective and re-constructed using the Imaris software. E. Representative images acquired by confocal microscopy showing a side and top projection of the FT190 spheroids on NOF151 cells with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 100 μm. F. Spheroid area (with and without FF/vitronectin) was determined by quantification of red fluorescent intensity using a polygon area measurement tool of the Imaris software.

    Journal: Heliyon

    Article Title: Follicular fluid aids cell adhesion, spreading in an age independent manner and shows an age-dependent effect on DNA damage in fallopian tube epithelial cells

    doi: 10.1016/j.heliyon.2024.e27336

    Figure Lengend Snippet: Vitronectin in FF aids in FTE adhesion and spreading A. Representative brightfield images of FT190 cells seeded on ULA plates coated with FF sample (400 μl) and recombinant vitronectin protein (1 μg/well) for 4 h. Wells were washed with 1X PBS and FT190 cells were seeded on the coated plates. Images were acquired after 24 h. Scale bar = 200 μm. B. Cell proliferation was measured using an SRB assay to measure cell viability of FT190 cells on FF and vitronectin coated ULA plates. C. Representative Z stack images acquired by confocal microscopy of FT190 spheroids (labelled with Cell tracker 594) on NOF151 cells (labelled with Cell tracker 488) with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 200 μm. D. A maximum intensity projection re-construction of a three-dimensional FTE spheroid (labelled with Cell tracker 594) optical data stack over the surface of NOF151 cells (labelled with Cell tracker 488) treated with FF samples (Y1, A1) and vitronectin (1 μg). Spheroids were imaged with a 10× objective and re-constructed using the Imaris software. E. Representative images acquired by confocal microscopy showing a side and top projection of the FT190 spheroids on NOF151 cells with FF samples and recombinant vitronectin protein (1 μg) (24 h). Scale bar = 100 μm. F. Spheroid area (with and without FF/vitronectin) was determined by quantification of red fluorescent intensity using a polygon area measurement tool of the Imaris software.

    Article Snippet: Anti-rabbit vitronectin , Proteintech 15833-1-AP , 1:1000.

    Techniques: Recombinant, Sulforhodamine B Assay, Confocal Microscopy, Construct, Software

    Primary antibodies.

    Journal: Heliyon

    Article Title: Follicular fluid aids cell adhesion, spreading in an age independent manner and shows an age-dependent effect on DNA damage in fallopian tube epithelial cells

    doi: 10.1016/j.heliyon.2024.e27336

    Figure Lengend Snippet: Primary antibodies.

    Article Snippet: Anti-rabbit vitronectin , Proteintech 15833-1-AP , 1:1000.

    Techniques:

    Summary of immunostaining with human antibodies against matrix components of the ADM; + means detectable by immunostaining, - means absence of any detectable signal.

    Journal: PLoS ONE

    Article Title: Confocal Laser Scanning Microscopy Evaluation of an Acellular Dermis Tissue Transplant (Epiflex®)

    doi: 10.1371/journal.pone.0045991

    Figure Lengend Snippet: Summary of immunostaining with human antibodies against matrix components of the ADM; + means detectable by immunostaining, - means absence of any detectable signal.

    Article Snippet: The following primary antibodies were used, each diluted 1∶100: rabbit anti-human collagen I (Rockland, USA), rabbit anti-human collagen II (Rockland, USA), rabbit anti-human collagen III (Abcam, UK), rabbit anti-human collagen IV (Rockland, USA), rabbit anti-human fibronectin (Abcam, UK), sheep anti-human hyaluronic acid (Biotrend, Germany), mouse anti-human laminin-5 (BD Bioscience, USA), rabbit anti-human laminin (Rockland, USA), mouse anti-human osteopontin (Santa Cruz Biotechnology, USA), mouse anti-human tenascin (NeoMarkers, USA), rabbit anti-human vitronectin (Biotrend, Germany), mouse anti-human thrombospondin-1 (Dianova, Germany).

    Techniques: Immunostaining

    Expression of extracellular matrix proteins and adhesion molecules in CHD1 KO cells. (a) Graph demonstrating the expression of genes that were altered at least two-fold in the NT2 and CHD1 KO lines, Cr16 and Cr21, compared to RWPE-1. ITGA2 was down-regulated, while ITGA4 is up-regulated in CHD1 KO cells. The integrin ligands, collagen (COL16A1, COL4A2, COL5A1 and COL6A2), FN1, and the laminin component, LAMB3, are downregulated in CHD1 KO cells. The most down-regulated ECM components in the CHD1 KO cells were MMP2, SPARC and VTN. The ECM proteins ITGA4, MMP12, and SELL were up regulated. (b) Plot depicting levels of secreted SPARC protein as detected by ELISA. High levels of SPARC are secreted by RWPE-1 compared to the CHD1 KO lines ( ** p < 0.01). NT2 cell lines secreted higher levels of SPARC than RWPE-1 cell lines ( * p < 0.05). Error bars represent standard deviation. (c) Top panel: Western blot showing levels of SPARC in 30 μg of lysate from RWPE-1, NT2, Cr2, Cr16, and Cr21. SPARC is detectable in RWPE-1 and NT2 but not in the CHD1 KO clones. Bottom panel: loading control. (d) Plot depicting levels of secreted MMP2 protein as detected by ELISA. High levels of MMP2 are secreted by RWPE- 1 compared to the CHD1 KO lines ( ** p < 0.01). NT2 cell lines secreted higher levels of MMP2 than RWPE-1 cell lines ( * p < 0.05). Error bars represent standard deviation. (e) Western blot showing levels of TNC (top panel), VTN (middle panel) and GAPDH (lower panel) in the five cell lines. Cr2 and Cr21 express low levels of TNC compared to RWPE-1 and NT2, while Cr16 expresses TNC levels similar to the parental lines. Cr2 and Cr21 express lower levels of VTN than RWPE-1, while Cr16 expresses similar levels. Bar graphs below show levels of TNC (left) and VTN (right) relative to GAPDH in the five lines. CHD1, chromodomain helicase DNA binding protein 1; ECM, extracellular matrix; ELISA, enzyme-linked immunosorbent assay; FN1, fibronectin; GAPDH, glyceraldehyde 3-phosphate dehydrogenase; ITGA2/4, integrin subunit alpha 2/4; KO, knockout; LAMB3, laminin subunit beta-3 precursor; MMP2/12, matrix metalloproteinase 2/12; NT2, non-target cells; SPARC, secreted protein acidic and rich in cysteine; TNC, tenascin; VTN, vitronectin.

    Journal: Therapeutic Advances in Urology

    Article Title: The role of chromodomain helicase DNA binding protein 1 (CHD1) in promoting an invasive prostate cancer phenotype

    doi: 10.1177/17562872211022462

    Figure Lengend Snippet: Expression of extracellular matrix proteins and adhesion molecules in CHD1 KO cells. (a) Graph demonstrating the expression of genes that were altered at least two-fold in the NT2 and CHD1 KO lines, Cr16 and Cr21, compared to RWPE-1. ITGA2 was down-regulated, while ITGA4 is up-regulated in CHD1 KO cells. The integrin ligands, collagen (COL16A1, COL4A2, COL5A1 and COL6A2), FN1, and the laminin component, LAMB3, are downregulated in CHD1 KO cells. The most down-regulated ECM components in the CHD1 KO cells were MMP2, SPARC and VTN. The ECM proteins ITGA4, MMP12, and SELL were up regulated. (b) Plot depicting levels of secreted SPARC protein as detected by ELISA. High levels of SPARC are secreted by RWPE-1 compared to the CHD1 KO lines ( ** p < 0.01). NT2 cell lines secreted higher levels of SPARC than RWPE-1 cell lines ( * p < 0.05). Error bars represent standard deviation. (c) Top panel: Western blot showing levels of SPARC in 30 μg of lysate from RWPE-1, NT2, Cr2, Cr16, and Cr21. SPARC is detectable in RWPE-1 and NT2 but not in the CHD1 KO clones. Bottom panel: loading control. (d) Plot depicting levels of secreted MMP2 protein as detected by ELISA. High levels of MMP2 are secreted by RWPE- 1 compared to the CHD1 KO lines ( ** p < 0.01). NT2 cell lines secreted higher levels of MMP2 than RWPE-1 cell lines ( * p < 0.05). Error bars represent standard deviation. (e) Western blot showing levels of TNC (top panel), VTN (middle panel) and GAPDH (lower panel) in the five cell lines. Cr2 and Cr21 express low levels of TNC compared to RWPE-1 and NT2, while Cr16 expresses TNC levels similar to the parental lines. Cr2 and Cr21 express lower levels of VTN than RWPE-1, while Cr16 expresses similar levels. Bar graphs below show levels of TNC (left) and VTN (right) relative to GAPDH in the five lines. CHD1, chromodomain helicase DNA binding protein 1; ECM, extracellular matrix; ELISA, enzyme-linked immunosorbent assay; FN1, fibronectin; GAPDH, glyceraldehyde 3-phosphate dehydrogenase; ITGA2/4, integrin subunit alpha 2/4; KO, knockout; LAMB3, laminin subunit beta-3 precursor; MMP2/12, matrix metalloproteinase 2/12; NT2, non-target cells; SPARC, secreted protein acidic and rich in cysteine; TNC, tenascin; VTN, vitronectin.

    Article Snippet: Primary antibodies used included glyceraldehyde 3-phosphate dehydrogenase (GAPDH) (Santa Cruz Biotechnology Inc., 25778), CHD1 (Novus Biologicals, NB100-60411), focal adhesion kinase (FAK) (Cell Signaling Technologies or CST, 3285P), phosphorylated extracellular signal regulated kinase (pErk) (CST, 4370S), total Erk (CST, 9102S), phosphorylated protein kinase B (pAKT) (CST, 4060S), total AKT (CST, 72), SPARC (CST, 8725), pMEK 1/2 (mitogen-extracellular signal-regulated kinase 1/2) (CST, 9154), total MEK 1/2 (CST, 9126), tenascin C (CST, 12221), and vitronectin (CST, 60896).

    Techniques: Expressing, Enzyme-linked Immunosorbent Assay, Standard Deviation, Western Blot, Clone Assay, Control, Binding Assay, Knock-Out

    Binding of the rGAPDH protein to different ECM components in ELISA experiment . Microtiters plate was coated with Matrigel, fibronectin, collagen or laminin solution. Various concentrations of rGAPDH or BSA were added and detected by anti-His-tag monoclonal antibody. For detecting the binding to vitronectin, microtiters plate was coated with rGAPDH or BSA. Various concentrations of vitronectin were added and detected by anti-vitronectin monoclonal antibody. * P < 0.05, ** P < 0.01, compared with the negative control (BSA).

    Journal: Veterinary Research

    Article Title: Glyceraldehyde-3-phosphate dehydrogenase (GAPDH) moonlights as an adhesin in Mycoplasma hyorhinis adhesion to epithelial cells as well as a plasminogen receptor mediating extracellular matrix degradation

    doi: 10.1186/s13567-021-00952-8

    Figure Lengend Snippet: Binding of the rGAPDH protein to different ECM components in ELISA experiment . Microtiters plate was coated with Matrigel, fibronectin, collagen or laminin solution. Various concentrations of rGAPDH or BSA were added and detected by anti-His-tag monoclonal antibody. For detecting the binding to vitronectin, microtiters plate was coated with rGAPDH or BSA. Various concentrations of vitronectin were added and detected by anti-vitronectin monoclonal antibody. * P < 0.05, ** P < 0.01, compared with the negative control (BSA).

    Article Snippet: The bound vitronectin was detected by rabbit anti-vitronectin monoclonal antibody (1:2000; Boster, China), followed by goat anti-rabbit IgG (1:10 000).

    Techniques: Binding Assay, Enzyme-linked Immunosorbent Assay, Negative Control