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anti myc  (Cell Signaling Technology Inc)


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    Cell Signaling Technology Inc anti myc
    Anti Myc, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 97/100, based on 1457 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/anti myc/product/Cell Signaling Technology Inc
    Average 97 stars, based on 1457 article reviews
    anti myc - by Bioz Stars, 2026-05
    97/100 stars

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    Genetic and pharmacologic manipulations for inhibiting spiny hair formation. a , H&E images of horizontal sections of Acomys back skin at different developmental stages. Note that during early development, the fracture lattice is absent. Scale bars, 1 mm. b , Schematic illustrations depicting the remodeling process of the fracture lattice from a primitive pattern (P21) to a definitive pattern (P77). c , Schematic depicting the design of lentiviral construct for overexpression Acomys Dkk1 gene. Acomys DKK1 expression and secretion were confirmed by Western blot analysis <t>using</t> <t>an</t> <t>anti-Myc-tag</t> antibody. d , (left) Representative photo of ultrasound-guided lentivirus injection into the yolk sac cavity of an E16.5 Acomys embryo. (right) Fluorescence stereoscope image showing strong expression of H2B-RFP in an E30.5 Acomys embryo. e , Representative images showing that overexpression of AcoDKK1 effectively blocked the formation of hair follicles in Acomys skin. Scale bars, 200μm. f , Experimental timeline of AcoDKK1 overexpression and analysis of fracture lattice formation. g , Experimental timeline of 5-FU treatment and analysis of fracture lattice formation. h , Photographs showing that topical 5-FU treatment effectively inhibited spiny hair formation in Acomys back skin.
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    myc  (Cell Signaling Technology Inc)
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    Genetic and pharmacologic manipulations for inhibiting spiny hair formation. a , H&E images of horizontal sections of Acomys back skin at different developmental stages. Note that during early development, the fracture lattice is absent. Scale bars, 1 mm. b , Schematic illustrations depicting the remodeling process of the fracture lattice from a primitive pattern (P21) to a definitive pattern (P77). c , Schematic depicting the design of lentiviral construct for overexpression Acomys Dkk1 gene. Acomys DKK1 expression and secretion were confirmed by Western blot analysis <t>using</t> <t>an</t> <t>anti-Myc-tag</t> antibody. d , (left) Representative photo of ultrasound-guided lentivirus injection into the yolk sac cavity of an E16.5 Acomys embryo. (right) Fluorescence stereoscope image showing strong expression of H2B-RFP in an E30.5 Acomys embryo. e , Representative images showing that overexpression of AcoDKK1 effectively blocked the formation of hair follicles in Acomys skin. Scale bars, 200μm. f , Experimental timeline of AcoDKK1 overexpression and analysis of fracture lattice formation. g , Experimental timeline of 5-FU treatment and analysis of fracture lattice formation. h , Photographs showing that topical 5-FU treatment effectively inhibited spiny hair formation in Acomys back skin.
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    Genetic and pharmacologic manipulations for inhibiting spiny hair formation. a , H&E images of horizontal sections of Acomys back skin at different developmental stages. Note that during early development, the fracture lattice is absent. Scale bars, 1 mm. b , Schematic illustrations depicting the remodeling process of the fracture lattice from a primitive pattern (P21) to a definitive pattern (P77). c , Schematic depicting the design of lentiviral construct for overexpression Acomys Dkk1 gene. Acomys DKK1 expression and secretion were confirmed by Western blot analysis using an anti-Myc-tag antibody. d , (left) Representative photo of ultrasound-guided lentivirus injection into the yolk sac cavity of an E16.5 Acomys embryo. (right) Fluorescence stereoscope image showing strong expression of H2B-RFP in an E30.5 Acomys embryo. e , Representative images showing that overexpression of AcoDKK1 effectively blocked the formation of hair follicles in Acomys skin. Scale bars, 200μm. f , Experimental timeline of AcoDKK1 overexpression and analysis of fracture lattice formation. g , Experimental timeline of 5-FU treatment and analysis of fracture lattice formation. h , Photographs showing that topical 5-FU treatment effectively inhibited spiny hair formation in Acomys back skin.

    Journal: bioRxiv

    Article Title: A novel fracture lattice in spiny mouse skin facilitates tissue autotomy and regeneration

    doi: 10.64898/2026.03.23.713756

    Figure Lengend Snippet: Genetic and pharmacologic manipulations for inhibiting spiny hair formation. a , H&E images of horizontal sections of Acomys back skin at different developmental stages. Note that during early development, the fracture lattice is absent. Scale bars, 1 mm. b , Schematic illustrations depicting the remodeling process of the fracture lattice from a primitive pattern (P21) to a definitive pattern (P77). c , Schematic depicting the design of lentiviral construct for overexpression Acomys Dkk1 gene. Acomys DKK1 expression and secretion were confirmed by Western blot analysis using an anti-Myc-tag antibody. d , (left) Representative photo of ultrasound-guided lentivirus injection into the yolk sac cavity of an E16.5 Acomys embryo. (right) Fluorescence stereoscope image showing strong expression of H2B-RFP in an E30.5 Acomys embryo. e , Representative images showing that overexpression of AcoDKK1 effectively blocked the formation of hair follicles in Acomys skin. Scale bars, 200μm. f , Experimental timeline of AcoDKK1 overexpression and analysis of fracture lattice formation. g , Experimental timeline of 5-FU treatment and analysis of fracture lattice formation. h , Photographs showing that topical 5-FU treatment effectively inhibited spiny hair formation in Acomys back skin.

    Article Snippet: After blocking with 5% skim milk in TBST solution (1X TBS, 0.1% Tween-20) for 1 h at room temperature, the membrane was incubated with mouse anti-Myc-Tag (1:1000, Cell Signaling Cat# 2276S) at 4°C overnight and HRP-conjugated anti-mouse IgG secondary antibody (1:1000, Jackson ImmunoResearch).

    Techniques: Construct, Over Expression, Expressing, Western Blot, Injection, Fluorescence