surface integrin levels Search Results


surface integrin levels  (Developmental Studies Hybridoma Bank)
92
Developmental Studies Hybridoma Bank surface integrin levels
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Surface Integrin Levels, supplied by Developmental Studies Hybridoma Bank, 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/product/surface+integrin+levels/pmc12173946-280-30-44?v=Developmental+Studies+Hybridoma+Bank
Average 92 stars, based on 1 article reviews
surface integrin levels - by Bioz Stars, 2026-06
92/100 stars
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human dipeptidyl peptidase 8  (Shanghai Korain Biotech Co Ltd)
99
Shanghai Korain Biotech Co Ltd human dipeptidyl peptidase 8
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Human Dipeptidyl Peptidase 8, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/shanghai+korain+biotech+co+ltd___e2185hu?v=Shanghai+Korain+Biotech+Co+Ltd
Average 99 stars, based on 1 article reviews
human dipeptidyl peptidase 8 - by Bioz Stars, 2026-06
99/100 stars
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rabbit glutathione peroxidase  (Shanghai Korain Biotech Co Ltd)
99
Shanghai Korain Biotech Co Ltd rabbit glutathione peroxidase
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Rabbit Glutathione Peroxidase, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/shanghai+korain+biotech+co+ltd___e0175rb?v=Shanghai+Korain+Biotech+Co+Ltd
Average 99 stars, based on 1 article reviews
rabbit glutathione peroxidase - by Bioz Stars, 2026-06
99/100 stars
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fish na-k-atpase  (Shanghai Korain Biotech Co Ltd)
89
Shanghai Korain Biotech Co Ltd fish na-k-atpase
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Fish Na K Atpase, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 89/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/shanghai+korain+biotech+co+ltd___e0111fi?v=Shanghai+Korain+Biotech+Co+Ltd
Average 89 stars, based on 1 article reviews
fish na-k-atpase - by Bioz Stars, 2026-06
89/100 stars
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human prostaglandin e synthase  (Shanghai Korain Biotech Co Ltd)
99
Shanghai Korain Biotech Co Ltd human prostaglandin e synthase
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Human Prostaglandin E Synthase, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/shanghai+korain+biotech+co+ltd___e4229hu?v=Shanghai+Korain+Biotech+Co+Ltd
Average 99 stars, based on 1 article reviews
human prostaglandin e synthase - by Bioz Stars, 2026-06
99/100 stars
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mouse fructose-bisphosphate aldolase b  (Shanghai Korain Biotech Co Ltd)
99
Shanghai Korain Biotech Co Ltd mouse fructose-bisphosphate aldolase b
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Mouse Fructose Bisphosphate Aldolase B, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/shanghai+korain+biotech+co+ltd___e2080mo?v=Shanghai+Korain+Biotech+Co+Ltd
Average 99 stars, based on 1 article reviews
mouse fructose-bisphosphate aldolase b - by Bioz Stars, 2026-06
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krt15 antibody / cytokeratin 15  (NSJ Bioreagents)
99
NSJ Bioreagents krt15 antibody / cytokeratin 15
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Krt15 Antibody / Cytokeratin 15, supplied by NSJ Bioreagents, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/nsj+bioreagents___v3286?v=NSJ+Bioreagents
Average 99 stars, based on 1 article reviews
krt15 antibody / cytokeratin 15 - by Bioz Stars, 2026-06
99/100 stars
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sheep vasopressin-neurophysin 2-copeptin  (Shanghai Korain Biotech Co Ltd)
99
Shanghai Korain Biotech Co Ltd sheep vasopressin-neurophysin 2-copeptin
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Sheep Vasopressin Neurophysin 2 Copeptin, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/surface+integrin+levels/shanghai+korain+biotech+co+ltd___e0184sh?v=Shanghai+Korain+Biotech+Co+Ltd
Average 99 stars, based on 1 article reviews
sheep vasopressin-neurophysin 2-copeptin - by Bioz Stars, 2026-06
99/100 stars
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mouse parathyroid hormone related protein  (Shanghai Korain Biotech Co Ltd)
99
Shanghai Korain Biotech Co Ltd mouse parathyroid hormone related protein
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Mouse Parathyroid Hormone Related Protein, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rat somatostatin  (Shanghai Korain Biotech Co Ltd)
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Shanghai Korain Biotech Co Ltd rat somatostatin
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Rat Somatostatin, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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human substance p  (Shanghai Korain Biotech Co Ltd)
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Shanghai Korain Biotech Co Ltd human substance p
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Human Substance P, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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rat insulin like growth factor 2  (Shanghai Korain Biotech Co Ltd)
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Shanghai Korain Biotech Co Ltd rat insulin like growth factor 2
a , Representative western blot (left) and densitometry (right) of <t>ITGB1</t> levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 <t>(P5D2),</t> inactive ITGB1 (mAb13) and total <t>integrin</t> β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.
Rat Insulin Like Growth Factor 2, supplied by Shanghai Korain Biotech Co Ltd, used in various techniques. Bioz Stars score: 99/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


a , Representative western blot (left) and densitometry (right) of ITGB1 levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 (P5D2), inactive ITGB1 (mAb13) and total integrin β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.

Journal: Nature Cell Biology

Article Title: Dynamic regulation of integrin β1 phosphorylation supports invasion of breast cancer cells

doi: 10.1038/s41556-025-01663-4

Figure Lengend Snippet: a , Representative western blot (left) and densitometry (right) of ITGB1 levels after shRNA-mediated KD in MM231 cells (shβ1; n = 3 biological replicates; significance assessed using a one-sample two-tailed t -test against the normalised control value; ***p < 0.001). Data are mean ± s.e.m. b & c , Representative curves ( b ) and doubling times ( c ) from the relative cell density of parental and shβ1 MM231 cells, and shβ1 MM231s with stable ITGB1(WT or YYFF) reexpression (ITGB1(WT or YYFF)-mRuby2 transposon vectors, described in methods; n = 3 biological replicates; significance assessed using a one-way ANOVA with a Šidák correction for multiple comparisons; NS, not significant). d , Gating strategy for the flow cytometry data presented in e & f . e & f , Representative histograms ( e ) and quantification ( f ) of the surface expression of total ITGB1 (P5D2), inactive ITGB1 (mAb13) and total integrin β3 (MCA728) using flow cytometry in shβ1 MM231s with or without ITGB1 reexpression as indicated (n = 4 biological replicates; significance assessed using a one-way ANOVA with a Tukey correction for multiple comparisons; NS, not significant; *** p < 0.001). g & h , TIRF images ( g ) of MM231 shβ1 cells with ITGB1 WT or YYFF reexpression (cells outlined with pink dashed lines) and quantification of colocalization ( h ) between active integrin staining (12G10 antibody) and either mRuby2-tagged ITGB1 WT (average Pearson’s r of 0.4853) or YYFF (average Pearson’s r of 0.5012; n = 65 [ITGB1 (WT)] and 63 [ITGB1(YYFF)] cells pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). i , Analysis of paxillin staining in MM231 cells from ( g ) to compare IAC average number and size per cell (n = 87 [ITGB1 (WT)] and 85 [ITGB1 (YYFF)] cells pooled from four biological replicates; NS, not significant). j , Representative images of invading MM231 ITGB1(WT or YYFF) cells (left) and quantification of their proliferation (right) from the fibroblast-contracted 3D collagen I invasion assays in Fig. . Cells are stained with the proliferation marker Ki67. Quantification was achieved by normalising the number of Ki67-positive nuclei to the total number of cells/region (n = 24 regions for each cell line pooled from three biological replicates; significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 100 μm. k , Representative images (left) and quantification (right) of Ki67-stained subcutaneous xenografts of MM231 cells with either ITGB1(WT or YYFF) from Fig. . Quantification of positive (brown) to negative (blue) staining of Ki67 in 400 μm 2 regions of interest from subcutaneous xenografts is shown (n = 9 mice (WT) or 11 mice (YYFF); 5 regions/mouse/condition); significance assessed using an unpaired two-tailed Student’s t -test with a Welch’s correction; NS, not significant). Scale bars, 50 μm. Source data and exact p-values are provided in the statistical source data file. Boxplots represent median and interquartile range. Whiskers extend to min and max values. Grey areas on boxplots highlight the IQR of the control conditions.

Article Snippet: MM231 ITGB1(WT or YYFF) cell lines were trypsinized, fixed in 2% PFA for 10 min at room temperature and washed with PBS before being stained with primary antibodies to assess surface integrin levels (1:100 dilution in Tyrode’s buffer (ITGB1 (clone P5D2, in-house production from DSHB hybridoma), inactive ITGB1 (clone mAb13, in-house production from DSHB hybridoma) and β3 (MCA728, AbD Serotech))) for 1 h at 4 °C with gentle agitation.

Techniques: Western Blot, shRNA, Two Tailed Test, Control, Flow Cytometry, Expressing, Staining, Marker