xpc antibodies Search Results


anti xpc  (Novus Biologicals)
93
Novus Biologicals anti xpc
Anti Xpc, supplied by Novus Biologicals, 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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Average 93 stars, based on 1 article reviews
anti xpc - by Bioz Stars, 2026-06
93/100 stars
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sc 74411 wb  (Santa Cruz Biotechnology)
93
Santa Cruz Biotechnology sc 74411 wb
Sc 74411 Wb, supplied by Santa Cruz Biotechnology, 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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Average 93 stars, based on 1 article reviews
sc 74411 wb - by Bioz Stars, 2026-06
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xpc  (Novus Biologicals)
91
Novus Biologicals xpc
DNA-binding interactions of other DNA repair proteins. ( A ) The structure of <t>eGFP-XPC</t> (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model <t>of</t> <t>polβ-tGFP,</t> taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .
Xpc, supplied by Novus Biologicals, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/xpc/product/Novus Biologicals
Average 91 stars, based on 1 article reviews
xpc - by Bioz Stars, 2026-06
91/100 stars
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gtx103168 genetex xpc  (Bethyl)
93
Bethyl gtx103168 genetex xpc
DNA-binding interactions of other DNA repair proteins. ( A ) The structure of <t>eGFP-XPC</t> (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model <t>of</t> <t>polβ-tGFP,</t> taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .
Gtx103168 Genetex Xpc, supplied by Bethyl, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/gtx103168 genetex xpc/product/Bethyl
Average 93 stars, based on 1 article reviews
gtx103168 genetex xpc - by Bioz Stars, 2026-06
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xpc antibody  (Novus Biologicals)
92
Novus Biologicals xpc antibody
DNA-binding interactions of other DNA repair proteins. ( A ) The structure of <t>eGFP-XPC</t> (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model <t>of</t> <t>polβ-tGFP,</t> taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .
Xpc Antibody, supplied by Novus Biologicals, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/xpc antibody/product/Novus Biologicals
Average 92 stars, based on 1 article reviews
xpc antibody - by Bioz Stars, 2026-06
92/100 stars
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xpc antibodies  (Novus Biologicals)
92
Novus Biologicals xpc antibodies
DNA-binding interactions of other DNA repair proteins. ( A ) The structure of <t>eGFP-XPC</t> (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model <t>of</t> <t>polβ-tGFP,</t> taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .
Xpc Antibodies, supplied by Novus Biologicals, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/xpc antibodies/product/Novus Biologicals
Average 92 stars, based on 1 article reviews
xpc antibodies - by Bioz Stars, 2026-06
92/100 stars
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anti xpc  (Atlas Antibodies)
90
Atlas Antibodies anti xpc
DNA-binding interactions of other DNA repair proteins. ( A ) The structure of <t>eGFP-XPC</t> (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model <t>of</t> <t>polβ-tGFP,</t> taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .
Anti Xpc, supplied by Atlas Antibodies, 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/anti xpc/product/Atlas Antibodies
Average 90 stars, based on 1 article reviews
anti xpc - by Bioz Stars, 2026-06
90/100 stars
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xpc antibody  (Cell Signaling Technology Inc)
93
Cell Signaling Technology Inc xpc antibody
DNA-binding interactions of other DNA repair proteins. ( A ) The structure of <t>eGFP-XPC</t> (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model <t>of</t> <t>polβ-tGFP,</t> taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .
Xpc Antibody, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/xpc antibody/product/Cell Signaling Technology Inc
Average 93 stars, based on 1 article reviews
xpc antibody - by Bioz Stars, 2026-06
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human xpc antibody  (Boster Bio)
93
Boster Bio human xpc antibody
<t>Xpc</t> var/var mice did not <t>express</t> <t>Cdkn2a</t> in their tail skin melanocytes. ( A ) UMAP displays unsupervised clustering of all cells, identified using the shared nearest neighbor (SNN) modularity optimization-based clustering algorithm in Seurat, in the wild-type and Xpc var/var mice. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. The number in the cluster name (e.g., T-cells 1 and T-cells 2) shows that the clusters were defined by different gene sets. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. ( B ) UMAP displays Xpc expression levels in the different clusters of the wild-type and Xpc var/var mice. ( C ) UMAP displays Xpc expression levels in melanocytes of the wild-type and Xpc var/var mice. ( D ) Violin plot showing Xpc expression within melanocytes of wild-type and Xpc var/var mice. ( E ) Violin plot showing Cdkn2a expression within melanocytes of wild-type and Xpc var/var mice. ( F ) Circos plot showing the relationship between Xpc and Cdkn2a expression in the melanocytes of wild-type and Xpc var/var mice.
Human Xpc Antibody, supplied by Boster Bio, used in various techniques. Bioz Stars score: 93/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/human xpc antibody/product/Boster Bio
Average 93 stars, based on 1 article reviews
human xpc antibody - by Bioz Stars, 2026-06
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human xpc antibody gt70294  (GeneTex)
90
GeneTex human xpc antibody gt70294
<t>Xpc</t> var/var mice did not <t>express</t> <t>Cdkn2a</t> in their tail skin melanocytes. ( A ) UMAP displays unsupervised clustering of all cells, identified using the shared nearest neighbor (SNN) modularity optimization-based clustering algorithm in Seurat, in the wild-type and Xpc var/var mice. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. The number in the cluster name (e.g., T-cells 1 and T-cells 2) shows that the clusters were defined by different gene sets. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. ( B ) UMAP displays Xpc expression levels in the different clusters of the wild-type and Xpc var/var mice. ( C ) UMAP displays Xpc expression levels in melanocytes of the wild-type and Xpc var/var mice. ( D ) Violin plot showing Xpc expression within melanocytes of wild-type and Xpc var/var mice. ( E ) Violin plot showing Cdkn2a expression within melanocytes of wild-type and Xpc var/var mice. ( F ) Circos plot showing the relationship between Xpc and Cdkn2a expression in the melanocytes of wild-type and Xpc var/var mice.
Human Xpc Antibody Gt70294, supplied by GeneTex, 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/human xpc antibody gt70294/product/GeneTex
Average 90 stars, based on 1 article reviews
human xpc antibody gt70294 - by Bioz Stars, 2026-06
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Image Search Results


DNA-binding interactions of other DNA repair proteins. ( A ) The structure of eGFP-XPC (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model of polβ-tGFP, taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .

Journal: Nucleic Acids Research

Article Title: Single-molecule analysis of DNA-binding proteins from nuclear extracts (SMADNE)

doi: 10.1093/nar/gkad095

Figure Lengend Snippet: DNA-binding interactions of other DNA repair proteins. ( A ) The structure of eGFP-XPC (PDB codes 6CFI of Rad4 the yeast homolog to XPC and 4EUL). ( B ) A cartoon depiction of the DNA substrate used for XPC binding characterization, with UV damage sites shown in yellow and XPC binding shown in blue. Also shown is an example kymograph of eGFP-XPC binding and diffusing along the DNA in yellow. ( C ) CRTD analysis of XPC binding DNA with UV damage. ( D ) Distribution of motile and nonmotile XPC events. ( E ) An example MSD plot for analyzing XPC diffusion on DNA (D, in μm 2 /s). ( F ) Diffusion and α values for the diffusion of XPC on DNA. Event marked with asterisk was too short to determine an α value so it was defined as 1.0. ( G ) A structural model of APE1-tGFP from PDB code (5WNO and 4EUL). ( H ) Schematic and example kymograph of APE1 binding to DNA with nicks. ( I ) CRTD analysis of APE1 binding nicked DNA, with fit shown in blue. ( J ) A structural model of polβ-tGFP, taken from PDB codes (4KLO and 4EUL) and the tGFP modeled in. ( K ) Example schematics of polβ binding DNA containing nicks as well as a corresponding kymograph of an observation of polβ binding. ( L ) CRTD analysis of polβ binding nicked DNA, with the fit shown in blue. See .

Article Snippet: Primary antibodies used: PARP1 (1:100; abcam #ab227244), DDB2 (1:1000; abcam #ab181136), DDB1 (1:1000; Invitrogen #37-6200), XPC (1:1000; Novus #NB100-477) Polβ (1:1000; proteintech #18003-1-AP), OGG1 (1:1000; abcam #ab124741), and APE1 (1:100; Abcam #ab194).

Techniques: Binding Assay, Diffusion-based Assay

Xpc var/var mice did not express Cdkn2a in their tail skin melanocytes. ( A ) UMAP displays unsupervised clustering of all cells, identified using the shared nearest neighbor (SNN) modularity optimization-based clustering algorithm in Seurat, in the wild-type and Xpc var/var mice. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. The number in the cluster name (e.g., T-cells 1 and T-cells 2) shows that the clusters were defined by different gene sets. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. ( B ) UMAP displays Xpc expression levels in the different clusters of the wild-type and Xpc var/var mice. ( C ) UMAP displays Xpc expression levels in melanocytes of the wild-type and Xpc var/var mice. ( D ) Violin plot showing Xpc expression within melanocytes of wild-type and Xpc var/var mice. ( E ) Violin plot showing Cdkn2a expression within melanocytes of wild-type and Xpc var/var mice. ( F ) Circos plot showing the relationship between Xpc and Cdkn2a expression in the melanocytes of wild-type and Xpc var/var mice.

Journal: bioRxiv

Article Title: XPC loss-of-function triggers melanomagenesis through CDKN2A downregulation

doi: 10.1101/2025.04.03.646637

Figure Lengend Snippet: Xpc var/var mice did not express Cdkn2a in their tail skin melanocytes. ( A ) UMAP displays unsupervised clustering of all cells, identified using the shared nearest neighbor (SNN) modularity optimization-based clustering algorithm in Seurat, in the wild-type and Xpc var/var mice. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. The number in the cluster name (e.g., T-cells 1 and T-cells 2) shows that the clusters were defined by different gene sets. The cell-type annotation of the clusters is based on established marker genes, as determined by the SCSA analysis, with clusters listed alphabetically. ( B ) UMAP displays Xpc expression levels in the different clusters of the wild-type and Xpc var/var mice. ( C ) UMAP displays Xpc expression levels in melanocytes of the wild-type and Xpc var/var mice. ( D ) Violin plot showing Xpc expression within melanocytes of wild-type and Xpc var/var mice. ( E ) Violin plot showing Cdkn2a expression within melanocytes of wild-type and Xpc var/var mice. ( F ) Circos plot showing the relationship between Xpc and Cdkn2a expression in the melanocytes of wild-type and Xpc var/var mice.

Article Snippet: Cells fixed and permeabilized using the Inside Stain Kit (Miltenyi Biotec, #130-090-477), following the manufacturer’s protocol, were incubated with DyLight 594-conjugated human XPC antibody (Boster Biological Technology, #A00473-1-Dyl594) and Alexa Fluor 488-conjugate CDKN2A/p16INK4a antibody (Bioss Antibodies, #bs-4592R-A488) for 10 min at room temperature in the dark, after which, fluorescence data from triplicate samples were acquired on a BD Fortessa (BD Biosciences) and analyzed using FlowJo v10.10.

Techniques: Marker, Expressing

XPC regulates CDKN2A expression. ( A-D) . qRT-PCR analysis for XPC (A, C) and CDKN2A (B, D) expression in HEK-293 (A, B) and WM-164 (C, D) parent, vector control (VC), and XPC knockdown (XPC-KD) cells. The expression levels were normalized to GAPDH and presented as mean ± SEM of the relative quantification (RQ) values from 3 independent experiments. *p<0.05, determined using one-way ANOVA with Tukey’s multiple comparisons. ( E ) Representative western blot for XPC and p16 INK4A on the parent, VC, and XPC knockdown (XPC-KD) HEK-293, WM-164, and SK-MEL-28 cells. GAPDH was used as the loading control. ( F ) Representative western blot for XPC and p16 INK4A fibroblasts derived from the patients and their parents. GAPDH was used as the loading control. ( G ) Representative western blot for XPC and p16 INK4A on the parent, VC, and XPC overexpressing (XPC) HEK-293, WM-164, and SK-MEL-28 cells. GAPDH was used as the loading control. ( H ) Representative western blot for XPC and p16 INK4A on the patient-derived fibroblasts transfected with either the VC or XPC overexpression plasmid. GAPDH was used as the loading control. ( I ) Representative dot plots of XPC and CDKN2A expression in control (HDFa) and patient-derived fibroblasts transfected with either the VC or XPC overexpression plasmid determined using flow cytometry. ( J ) Percentage cells not expressing p16 INK4A in the patient and control (HDFa) and patient-derived fibroblasts transfected with either the VC or XPC overexpression plasmid, determined by flow cytometry. Data expressed as mean ± SEM of 3 independent experiments. *p<0.05, determined using Student’s t -test.

Journal: bioRxiv

Article Title: XPC loss-of-function triggers melanomagenesis through CDKN2A downregulation

doi: 10.1101/2025.04.03.646637

Figure Lengend Snippet: XPC regulates CDKN2A expression. ( A-D) . qRT-PCR analysis for XPC (A, C) and CDKN2A (B, D) expression in HEK-293 (A, B) and WM-164 (C, D) parent, vector control (VC), and XPC knockdown (XPC-KD) cells. The expression levels were normalized to GAPDH and presented as mean ± SEM of the relative quantification (RQ) values from 3 independent experiments. *p<0.05, determined using one-way ANOVA with Tukey’s multiple comparisons. ( E ) Representative western blot for XPC and p16 INK4A on the parent, VC, and XPC knockdown (XPC-KD) HEK-293, WM-164, and SK-MEL-28 cells. GAPDH was used as the loading control. ( F ) Representative western blot for XPC and p16 INK4A fibroblasts derived from the patients and their parents. GAPDH was used as the loading control. ( G ) Representative western blot for XPC and p16 INK4A on the parent, VC, and XPC overexpressing (XPC) HEK-293, WM-164, and SK-MEL-28 cells. GAPDH was used as the loading control. ( H ) Representative western blot for XPC and p16 INK4A on the patient-derived fibroblasts transfected with either the VC or XPC overexpression plasmid. GAPDH was used as the loading control. ( I ) Representative dot plots of XPC and CDKN2A expression in control (HDFa) and patient-derived fibroblasts transfected with either the VC or XPC overexpression plasmid determined using flow cytometry. ( J ) Percentage cells not expressing p16 INK4A in the patient and control (HDFa) and patient-derived fibroblasts transfected with either the VC or XPC overexpression plasmid, determined by flow cytometry. Data expressed as mean ± SEM of 3 independent experiments. *p<0.05, determined using Student’s t -test.

Article Snippet: Cells fixed and permeabilized using the Inside Stain Kit (Miltenyi Biotec, #130-090-477), following the manufacturer’s protocol, were incubated with DyLight 594-conjugated human XPC antibody (Boster Biological Technology, #A00473-1-Dyl594) and Alexa Fluor 488-conjugate CDKN2A/p16INK4a antibody (Bioss Antibodies, #bs-4592R-A488) for 10 min at room temperature in the dark, after which, fluorescence data from triplicate samples were acquired on a BD Fortessa (BD Biosciences) and analyzed using FlowJo v10.10.

Techniques: Expressing, Quantitative RT-PCR, Plasmid Preparation, Control, Knockdown, Quantitative Proteomics, Western Blot, Derivative Assay, Transfection, Over Expression, Flow Cytometry

XPC binds to the CDKN2A promoter and is required for CDKN2A expression. ( A ) Schematic showing the gene structure of CDKN2A and the promotor regions. ( B ) ChIP fold enrichment of DNA fragments around the CDKN2A promoter regions by ChIP-qPCR. Four primer sets were used: Primer sets 1 and 2 targeted Promotor 1 and Prime sets 3 and 4 targeted Promotor 2 of the CDKN2A gene. Data expressed as mean ± SEM of 3 independent experiments. *p<0.05, determined using Student’s t -test. ( C ) Fold change in relative luminescence units (RLU) in wild-type (WT) and XPC-knock-down (XPC-KD) HEK-293 and WM-164 cells transiently transfected with a luciferase construct with the Promotor 2 region of CDKN2A or a random negative control (Rand) 48 h after transfection. Data from 3 independent experiments are shown. Error bar indicates SEM. *p<0.05, determined using two-way ANOVA with Tukey’s multiple comparisons. ( D ) Fold change in RLU in control fibroblasts and fibroblasts derived from the patients and their parents transiently transfected with a luciferase construct with the Promotor 2 region of CDKN2A or a random negative control (Rand) 48 h after transfection. Data from 3 independent experiments are shown. Error bar indicates SEM. *p<0.05, determined using two-way ANOVA with Tukey’s multiple comparisons. ( E ) Representative western blot for XPC and p16 INK4A in control fibroblasts (HDFa) and patient (Son)-derived fibroblasts treated with or without different concentrations of gentamicin. GAPDH was used as the loading control. ( F ) Fold change in RLU in control fibroblasts and patient (Son)-derived fibroblasts treated with different concentrations of gentamicin and transiently transfected with a luciferase construct with the Promotor 2 region of CDKN2A or a random negative control (Rand) 48 h after transfection. Data from 3 independent experiments are shown. Error bar indicates SEM. *p<0.05, determined using two-way ANOVA with Tukey’s multiple comparisons.

Journal: bioRxiv

Article Title: XPC loss-of-function triggers melanomagenesis through CDKN2A downregulation

doi: 10.1101/2025.04.03.646637

Figure Lengend Snippet: XPC binds to the CDKN2A promoter and is required for CDKN2A expression. ( A ) Schematic showing the gene structure of CDKN2A and the promotor regions. ( B ) ChIP fold enrichment of DNA fragments around the CDKN2A promoter regions by ChIP-qPCR. Four primer sets were used: Primer sets 1 and 2 targeted Promotor 1 and Prime sets 3 and 4 targeted Promotor 2 of the CDKN2A gene. Data expressed as mean ± SEM of 3 independent experiments. *p<0.05, determined using Student’s t -test. ( C ) Fold change in relative luminescence units (RLU) in wild-type (WT) and XPC-knock-down (XPC-KD) HEK-293 and WM-164 cells transiently transfected with a luciferase construct with the Promotor 2 region of CDKN2A or a random negative control (Rand) 48 h after transfection. Data from 3 independent experiments are shown. Error bar indicates SEM. *p<0.05, determined using two-way ANOVA with Tukey’s multiple comparisons. ( D ) Fold change in RLU in control fibroblasts and fibroblasts derived from the patients and their parents transiently transfected with a luciferase construct with the Promotor 2 region of CDKN2A or a random negative control (Rand) 48 h after transfection. Data from 3 independent experiments are shown. Error bar indicates SEM. *p<0.05, determined using two-way ANOVA with Tukey’s multiple comparisons. ( E ) Representative western blot for XPC and p16 INK4A in control fibroblasts (HDFa) and patient (Son)-derived fibroblasts treated with or without different concentrations of gentamicin. GAPDH was used as the loading control. ( F ) Fold change in RLU in control fibroblasts and patient (Son)-derived fibroblasts treated with different concentrations of gentamicin and transiently transfected with a luciferase construct with the Promotor 2 region of CDKN2A or a random negative control (Rand) 48 h after transfection. Data from 3 independent experiments are shown. Error bar indicates SEM. *p<0.05, determined using two-way ANOVA with Tukey’s multiple comparisons.

Article Snippet: Cells fixed and permeabilized using the Inside Stain Kit (Miltenyi Biotec, #130-090-477), following the manufacturer’s protocol, were incubated with DyLight 594-conjugated human XPC antibody (Boster Biological Technology, #A00473-1-Dyl594) and Alexa Fluor 488-conjugate CDKN2A/p16INK4a antibody (Bioss Antibodies, #bs-4592R-A488) for 10 min at room temperature in the dark, after which, fluorescence data from triplicate samples were acquired on a BD Fortessa (BD Biosciences) and analyzed using FlowJo v10.10.

Techniques: Expressing, ChIP-qPCR, Knockdown, Transfection, Luciferase, Construct, Negative Control, Control, Derivative Assay, Western Blot