masson s trichrome staining kit Search Results


trichrome 2000 stain kit  (StatLab Medical Products Inc)
94
StatLab Medical Products Inc trichrome 2000 stain kit
Trichrome 2000 Stain Kit, supplied by StatLab Medical Products Inc, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/trichrome 2000 stain kit/product/StatLab Medical Products Inc
Average 94 stars, based on 1 article reviews
trichrome 2000 stain kit - by Bioz Stars, 2026-02
94/100 stars
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masson’s trichrome staining kit  (ZSGB Biotech)
90
ZSGB Biotech masson’s trichrome staining kit
Masson’s Trichrome Staining Kit, supplied by ZSGB Biotech, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/masson’s trichrome staining kit/product/ZSGB Biotech
Average 90 stars, based on 1 article reviews
masson’s trichrome staining kit - by Bioz Stars, 2026-02
90/100 stars
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microwave masson's trichrome stain kit procedure  (MasterTech Inc)
90
MasterTech Inc microwave masson's trichrome stain kit procedure
Hypertension results in significantly elevated cardiac and renal fibrosis. Representative images from heart and kidney tissue using <t>Masson's</t> trichrome stain to indicate collagen fibrosis. Images that scored nearest the group means are illustrated here.
Microwave Masson's Trichrome Stain Kit Procedure, supplied by MasterTech Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/microwave masson's trichrome stain kit procedure/product/MasterTech Inc
Average 90 stars, based on 1 article reviews
microwave masson's trichrome stain kit procedure - by Bioz Stars, 2026-02
90/100 stars
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masson trichrome staining trichrome stain kit, modified massons  (ScyTek Inc)
90
ScyTek Inc masson trichrome staining trichrome stain kit, modified massons
SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with <t>Masson</t> <t>Trichrom’s</t> <t>staining</t> of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.
Masson Trichrome Staining Trichrome Stain Kit, Modified Massons, supplied by ScyTek Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/masson trichrome staining trichrome stain kit, modified massons/product/ScyTek Inc
Average 90 stars, based on 1 article reviews
masson trichrome staining trichrome stain kit, modified massons - by Bioz Stars, 2026-02
90/100 stars
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masson's trichrome staining kit  (Maxim Biotech Inc)
90
Maxim Biotech Inc masson's trichrome staining kit
SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with <t>Masson</t> <t>Trichrom’s</t> <t>staining</t> of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.
Masson's Trichrome Staining Kit, supplied by Maxim Biotech Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/masson's trichrome staining kit/product/Maxim Biotech Inc
Average 90 stars, based on 1 article reviews
masson's trichrome staining kit - by Bioz Stars, 2026-02
90/100 stars
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modified masson's trichrome stain kit cat#g1348  (Beijing Solarbio Science)
90
Beijing Solarbio Science modified masson's trichrome stain kit cat#g1348
SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with <t>Masson</t> <t>Trichrom’s</t> <t>staining</t> of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.
Modified Masson's Trichrome Stain Kit Cat#G1348, supplied by Beijing Solarbio Science, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/modified masson's trichrome stain kit cat#g1348/product/Beijing Solarbio Science
Average 90 stars, based on 1 article reviews
modified masson's trichrome stain kit cat#g1348 - by Bioz Stars, 2026-02
90/100 stars
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masson's trichrome staining kit #g135  (Beijing Solarbio Science)
90
Beijing Solarbio Science masson's trichrome staining kit #g135
SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with <t>Masson</t> <t>Trichrom’s</t> <t>staining</t> of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.
Masson's Trichrome Staining Kit #G135, supplied by Beijing Solarbio Science, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/masson's trichrome staining kit #g135/product/Beijing Solarbio Science
Average 90 stars, based on 1 article reviews
masson's trichrome staining kit #g135 - by Bioz Stars, 2026-02
90/100 stars
  Buy from Supplier
masson's trichrome staining kit 0189s  (Beyotime)
90
Beyotime masson's trichrome staining kit 0189s
SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with <t>Masson</t> <t>Trichrom’s</t> <t>staining</t> of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.
Masson's Trichrome Staining Kit 0189s, supplied by Beyotime, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/masson's trichrome staining kit 0189s/product/Beyotime
Average 90 stars, based on 1 article reviews
masson's trichrome staining kit 0189s - by Bioz Stars, 2026-02
90/100 stars
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Image Search Results


Hypertension results in significantly elevated cardiac and renal fibrosis. Representative images from heart and kidney tissue using Masson's trichrome stain to indicate collagen fibrosis. Images that scored nearest the group means are illustrated here.

Journal: Physiological Reports

Article Title: Gradual hypertension induction in middle‐aged Cyp1a1‐Ren2 transgenic rats produces significant impairments in spatial learning

doi: 10.14814/phy2.14010

Figure Lengend Snippet: Hypertension results in significantly elevated cardiac and renal fibrosis. Representative images from heart and kidney tissue using Masson's trichrome stain to indicate collagen fibrosis. Images that scored nearest the group means are illustrated here.

Article Snippet: Microwave Masson's Trichrome Stain Kit Procedure (American MasterTech) was used to stain the heart sections of each animal for collagen.

Techniques: Staining

SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with Masson Trichrom’s staining of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.

Journal: Immunity

Article Title: Mural cell-derived chemokines provide a protective niche to safeguard vascular macrophages and limit chronic inflammation

doi: 10.1016/j.immuni.2023.08.002

Figure Lengend Snippet: SMCs within the fibrous cap preserve a strategic positioning of plaque MΦs and secure homeostatic MΦ functions (A and B) Reanalyzed single-cell RNA-seq data from mouse aortic roots from atherosclerotic SMC lin mice from Wirka et al., GEO: GSE131780 . (A) UMAP based dimensionality reduction of analyzed cells (left), heatmap illustrating cytokine and chemokine expression of different SMC subsets (right). (B) Marker genes of SMC clusters illustrated in a heatmap, composed by ClustVis. (C) Representative confocal image depicting the spatial distribution of the key cSMC marker PDGFRβ within an atherosclerotic valve in SMC lin ; Cx3cr1-MΦ GFP-rep mice after 22–24 weeks of western diet, SMC lin cells in red, MΦs in green, and PDGFRβ in white. Scale bars: 30 μm (left) and 15 μm (right images). (D) Illustration of the experimental setup of the migration assay: macrophages undergo a migratory decision either moving toward the artificially composed SMC-rich fibrous cap below or residing at the artificially composed, necrotic cell rich, necrotic core. SMCs (representing the fibrous cap) are located in the lower chamber, whereas peritoneal macrophages have been attached on the transwell of the upper chamber. Necrotic Jurkat cells (representing the necrotic core) have been added to the upper chamber. (E) Number of peritoneal MΦs from Lyz-MΦ GFP-rep mice that transmigrated toward the lower chamber per field of view (FOV). Isotype or anti-CCL2 blocking antibody was simultaneously added to the lower chamber. MΦ numbers per FOV counted at 4 subsequent time points (n = 4 independent experiments). (F) Distribution of macrophages as percentage of LGALS3 + area in 30 μm plaque surface area in percentage of total plaque LGALS3 + area at three subsequent locations (n = 10 each). (G) Left: quantification of LGALS3 + surface macrophage content as relative LGALS3 + area in percentage of total plaque surface area (defined as the upper 30 μm of the plaque) from BCA sections at three consecutive locations (n = 10 each). Right: representative immunofluorescent images of BCA sections for ACTA2 (green), LGALS3 (red), and Hoechst (blue) with highlighted 30 μm plaque surface area from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western-diet feeding. Scale bars, 100 μm. (H) Volcano plot depicting differentially regulated genes analyzed by RNA-seq of FACS-sort enriched peritoneal MΦs, coincubated either with live or dead Jurkat cell supernatant for 12 h. (I) Quantification of peritoneal macrophages 12 h after addition of live or dead Jurkat cell supernatant (n = 6). (J–L) Efferocytosis assay, analyzing the efferocytotic capacity of the MΦ population, isolated from Lyz-MΦ GFP-rep mice. Apoptotic Jurkat cells were added for 1 h after 6 h incubation either with or without CCL2. (J) Quantification of MΦs with engulfed apoptotic cells upon presence or absence of CCL2 (n = 5 independent experiments). (K) Quantification of the total number of engulfed apoptotic cells upon CCL2 presence of absence. (L) Representative epifluorescence images of the efferocytosis assay with peritoneal macrophages (green) and apoptotic Jurkat cells (red), 1 h after Jurkat cell addition. Scale bars, 50 μm. (M–O) Necrotic core analysis as total necrotic area in μm 2 (M) and in percentage of plaque area (N), assessed with Masson Trichrom’s staining of valve sections, from Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) littermates after 14 weeks of western diet. (O) Left: representative images of necrotic core content analyzed by Masson Trichrom’s staining of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet. ∗ indicates necrotic areas. Scale bars, 100 μm. Right: representative images of immunofluorescence stainings of valve sections from Ccl2 SMC+/+ and Ccl2 SMCΔ/Δ littermates after 14 weeks of western diet for ACTA2 (green), LGALS3 (red), terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) (yellow), and DAPI (blue). Scale bars, 100 μm. (P and Q) Quantification of cell apoptosis as total amount of TUNEL + LGALS3 + Hoechst + MΦs in plaque (P) and as total amount of TUNEL + Hoechst + apoptotic cells (Q) in Ccl2 SMC+/+ (n = 9) and Ccl2 SMCΔ/Δ (n = 10) individual littermates in total after 14 weeks of western diet, only including plaques at the proximal and intermediate BCA, without distal BCA areas with its early lesions. (R) Quantification of valve atherosclerotic plaques for (left) total and relative TUNEL + cells. Data are shown as mean and SEM. (I, J, K, M, N, and R) Student’s t test was used for normally distributed data and Wilcoxon matched-pairs signed rank test for not normally distributed data. (E, F, G, P, and Q) Repeated measure two-way ANOVA or mixed-effects model was used. ∗ p < 0.05; ∗∗ p < 0.01; NS, not significant. Bar graphs show mean with SEM.

Article Snippet: Necrotic core formation, defined as area under the fibrous cap with loss of extracellular matrix and accumulation of cellular debris, was assessed by Masson Trichrome staining (ScyTek Laboratories, Trichrome Stain kit, modified Massons) or Hematoxylin and Eosin staining (HE) in Ccl2 SMCΔ/Δ , Ccl2 SMC+/+ mice or Mif MCΔ/Δ , Mif MC+/+ mice, respectively.

Techniques: RNA Sequencing, Expressing, Marker, Western Blot, Migration, Blocking Assay, Isolation, Incubation, Staining, Immunofluorescence, End Labeling, TUNEL Assay

Journal: Immunity

Article Title: Mural cell-derived chemokines provide a protective niche to safeguard vascular macrophages and limit chronic inflammation

doi: 10.1016/j.immuni.2023.08.002

Figure Lengend Snippet:

Article Snippet: Necrotic core formation, defined as area under the fibrous cap with loss of extracellular matrix and accumulation of cellular debris, was assessed by Masson Trichrome staining (ScyTek Laboratories, Trichrome Stain kit, modified Massons) or Hematoxylin and Eosin staining (HE) in Ccl2 SMCΔ/Δ , Ccl2 SMC+/+ mice or Mif MCΔ/Δ , Mif MC+/+ mice, respectively.

Techniques: Control, Blocking Assay, Selection, Recombinant, Western Blot, In Situ, Staining, DNA HS Assay, Picogreen Assay, cDNA Synthesis, Clinical Proteomics, SYBR Green Assay, Lysis, Enzyme-linked Immunosorbent Assay, Isolation, Software