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confocal laser scanning microscopy ax  (Nikon)

 
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    Nikon confocal laser scanning microscopy ax
    Confocal Laser Scanning Microscopy Ax, supplied by Nikon, 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/confocal laser scanning microscopy ax/product/Nikon
    Average 90 stars, based on 1 article reviews
    confocal laser scanning microscopy ax - by Bioz Stars, 2026-03
    90/100 stars

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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    confocal laser scanning microscopy ax  (Nikon)
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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
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    confocal laser scanning microscopy images  (Evident Corporation)
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    Evident Corporation confocal laser scanning microscopy images
    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) <t>Microscopy</t> from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm
    Confocal Laser Scanning Microscopy Images, supplied by Evident Corporation, 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/result/confocal laser scanning microscopy images/product/Evident Corporation
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    Image Search Results


    (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) Microscopy from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm

    Journal: bioRxiv

    Article Title: Weckle is a molecular switch that diverts Toll signalling from innate immunity towards growth by engaging Yki

    doi: 10.64898/2026.02.18.706625

    Figure Lengend Snippet: (A) Diagram of Glycine2 and Serines in Wek tested. (B) Mass spectrometry of purified Wek-FLAG: S2 cells were co-transfected with wek-FLAG and Toll-6HA, or wek-FLAG and pelle-HA and stimulated with purified DNT-2, Wek was purified, and found to be phosphorylated at Ser164. This Ser was not phosphorylated in controls. (C,D) Phostag gel of wek mutant forms expressed in S2 cells, showing: (C) western blot input; (D) Phostag gel, showing the distinct migration profile of the Wek mutant forms. Asterisks indicate bands modified by the co-transfection with Pelle. (E,F) Microscopy from transfected S2 cells showing that site directed mutagenesis of wek in G2A, S164A and S168A, alter the subcellular distribution of Wek, and this is further influenced by pelle . Wek visualised with anti-FLAG antibodies (green) and nuclei with DAPI (magenta). (G) Illustration showing that phosphorylation at Ser6 and Ser168 are required for the nuclear translocation of Wek. Scale bar: (E,F) 10μm

    Article Snippet: To analyse glial cell membrane volume in adult antennal lobes, laser scanning confocal microscopy image data were processed with Imaris using the “Surface” module.

    Techniques: Mass Spectrometry, Purification, Transfection, Mutagenesis, Western Blot, Migration, Modification, Cotransfection, Microscopy, Phospho-proteomics, Translocation Assay