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gfp rab8a wild type  (Addgene inc)


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    Addgene inc gfp rab8a wild type
    FIGURE 1: EPI64A and EPI64B both localize to apical microvilli. (A) Schematic of EPI64A and EPI64B domains with percentage identities and the TBC/RabGAP arginine residue necessary for the RabGAP activity indicated. (B) Western blots with antibodies to EPI64B and tubulin of Jeg-3 cell lysates after treatment with the indicated siRNAs to EPI64B. (C) Western blot with antibodies to EPI64B on cell lysates from several cultured cell lines. (D) SIM microscopy of Jeg-3 cells transfected with GFP-EPI64A (top block of panels) or GFP-EPI64B (bottom block of panels). Cells were transfected to express GFP-tagged constructs (green) and stained for ezrin (red) and actin (blue). Arrows indicate the localization of GFP-EPI64A to the base of microvilli. Scale bars: top panels, 10 µm; bottom panels, 10 µm.(E) Quantitation of GFP- EPI64A and GFP-EPI64B to localize to microvilli in <t>wild-type</t> cells.
    Gfp Rab8a Wild Type, supplied by Addgene inc, used in various techniques. Bioz Stars score: 90/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/gfp rab8a wild type/product/Addgene inc
    Average 90 stars, based on 2 article reviews
    gfp rab8a wild type - by Bioz Stars, 2026-03
    90/100 stars

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    1) Product Images from "The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells "

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    Journal: Molecular Biology of the Cell

    doi: 10.1091/mbc.e21-05-0268

    FIGURE 1: EPI64A and EPI64B both localize to apical microvilli. (A) Schematic of EPI64A and EPI64B domains with percentage identities and the TBC/RabGAP arginine residue necessary for the RabGAP activity indicated. (B) Western blots with antibodies to EPI64B and tubulin of Jeg-3 cell lysates after treatment with the indicated siRNAs to EPI64B. (C) Western blot with antibodies to EPI64B on cell lysates from several cultured cell lines. (D) SIM microscopy of Jeg-3 cells transfected with GFP-EPI64A (top block of panels) or GFP-EPI64B (bottom block of panels). Cells were transfected to express GFP-tagged constructs (green) and stained for ezrin (red) and actin (blue). Arrows indicate the localization of GFP-EPI64A to the base of microvilli. Scale bars: top panels, 10 µm; bottom panels, 10 µm.(E) Quantitation of GFP- EPI64A and GFP-EPI64B to localize to microvilli in wild-type cells.
    Figure Legend Snippet: FIGURE 1: EPI64A and EPI64B both localize to apical microvilli. (A) Schematic of EPI64A and EPI64B domains with percentage identities and the TBC/RabGAP arginine residue necessary for the RabGAP activity indicated. (B) Western blots with antibodies to EPI64B and tubulin of Jeg-3 cell lysates after treatment with the indicated siRNAs to EPI64B. (C) Western blot with antibodies to EPI64B on cell lysates from several cultured cell lines. (D) SIM microscopy of Jeg-3 cells transfected with GFP-EPI64A (top block of panels) or GFP-EPI64B (bottom block of panels). Cells were transfected to express GFP-tagged constructs (green) and stained for ezrin (red) and actin (blue). Arrows indicate the localization of GFP-EPI64A to the base of microvilli. Scale bars: top panels, 10 µm; bottom panels, 10 µm.(E) Quantitation of GFP- EPI64A and GFP-EPI64B to localize to microvilli in wild-type cells.

    Techniques Used: Residue, Activity Assay, Western Blot, Cell Culture, Microscopy, Transfection, Blocking Assay, Construct, Staining, Quantitation Assay

    FIGURE 2: EPI64A and EPI64B can localize to microvilli independently of the scaffolding protein EBP50 (A) Jeg-3 cells transfected with 3xFLAG-EBP50 were co-transfected with either GFP-EPI64A or GFP-EPI64B. The GFP-tagged proteins were immunoprecipitated with GFP-Trap beads and the immunoprecipitates blotted for FLAG and GFP. (B) Confocal imaging of microvillar localization of GFP-EPI-64A and GFP-EPI64A-LA, which cannot bind EBP50, in Jeg-3 cells. Scale bar 10 µm. (C) Western blot of cell lysates of Jeg-3 wild type, or CRISPR-modified EBP50 deletion cell line, blotted for ezrin, EBP50, and tubulin. Scale bar: 10 µm (D) Localization of ezrin and actin in Jeg-3 cells lacking endogenous EBP50. Scale bars: 10 µm. (E) Confocal imaging of GFP-EPI64A or GFP-EPI64B in Jeg-3 cells lacking EBP50. Scale bars: 10 µm.
    Figure Legend Snippet: FIGURE 2: EPI64A and EPI64B can localize to microvilli independently of the scaffolding protein EBP50 (A) Jeg-3 cells transfected with 3xFLAG-EBP50 were co-transfected with either GFP-EPI64A or GFP-EPI64B. The GFP-tagged proteins were immunoprecipitated with GFP-Trap beads and the immunoprecipitates blotted for FLAG and GFP. (B) Confocal imaging of microvillar localization of GFP-EPI-64A and GFP-EPI64A-LA, which cannot bind EBP50, in Jeg-3 cells. Scale bar 10 µm. (C) Western blot of cell lysates of Jeg-3 wild type, or CRISPR-modified EBP50 deletion cell line, blotted for ezrin, EBP50, and tubulin. Scale bar: 10 µm (D) Localization of ezrin and actin in Jeg-3 cells lacking endogenous EBP50. Scale bars: 10 µm. (E) Confocal imaging of GFP-EPI64A or GFP-EPI64B in Jeg-3 cells lacking EBP50. Scale bars: 10 µm.

    Techniques Used: Scaffolding, Transfection, Immunoprecipitation, Imaging, Western Blot, CRISPR, Modification

    FIGURE 3: EPI64A contains a localization domain spanning its TBC domain. (A) Schematic of the EPI64 constructs used in B and C and summary of results shown in this figure (B) Confocal imaging of GFP-EPI64A-314-508, which contains the C-terminal -DTYL sequence, in Jeg-3 wild-type cells and Jeg-3 cells lacking EBP50. (C) Confocal images showing the localization of GFP-tagged deletion constructs of GFP-EPI64A. Scale bar 10 µm. (D) Immunolocalization of two HA-tagged constructs, the top one containing the minimal region that localizes to microvilli (HA-EPI64A-61-408) and the bottom one (HA-71-408) that does not localize. Scale bar: 10 µm. (E) GFP-trap pull down: Jeg-3 cells were transfected with either GFP or GFP-Arf6 together with the indicated HA-EPI64A constructs. The GFP or GFP-Arf6 were recovered and analyzed for the presence of the HA-EPI64A constructs by immunoblotting.
    Figure Legend Snippet: FIGURE 3: EPI64A contains a localization domain spanning its TBC domain. (A) Schematic of the EPI64 constructs used in B and C and summary of results shown in this figure (B) Confocal imaging of GFP-EPI64A-314-508, which contains the C-terminal -DTYL sequence, in Jeg-3 wild-type cells and Jeg-3 cells lacking EBP50. (C) Confocal images showing the localization of GFP-tagged deletion constructs of GFP-EPI64A. Scale bar 10 µm. (D) Immunolocalization of two HA-tagged constructs, the top one containing the minimal region that localizes to microvilli (HA-EPI64A-61-408) and the bottom one (HA-71-408) that does not localize. Scale bar: 10 µm. (E) GFP-trap pull down: Jeg-3 cells were transfected with either GFP or GFP-Arf6 together with the indicated HA-EPI64A constructs. The GFP or GFP-Arf6 were recovered and analyzed for the presence of the HA-EPI64A constructs by immunoblotting.

    Techniques Used: Construct, Imaging, Sequencing, Transfection, Western Blot

    FIGURE 5: Jeg-3 cells lacking EPI64A and EPI64B lack microvilli (A) Western blot with antibodies to EPI64A, EPI64B, and tubulin on whole cell lysates of Jeg-3 cells genetically modified to lack EPI64A, EPI64B, or both proteins (DKO). (B) Confocal imaging showing localization of ezrin and actin in wild-type Jeg-3 cells and the single (A-KO, B-KO) and double knockout cells. Scale bar 10 µm. (C) Quantitation of the percentage of indicated cells stained for ezrin that express surface microvilli. Normal defined >50% coverage of the apical surface with microvilli. One-way analysis of variance gave the indicated p values. (D) EPI64A/B double knockout cells were transfected to express the indicated constructs and the percentage of ezrin-stained cells (total for either untransfected or GFP-expressing for transfected cells) that express normal apical microvilli. One-way analysis of variance gave the indicated p values. (E) Localization of tight junction ZO-1 in wild-type and knockout Jeg-3 cells. Scale bar: 10 µm.
    Figure Legend Snippet: FIGURE 5: Jeg-3 cells lacking EPI64A and EPI64B lack microvilli (A) Western blot with antibodies to EPI64A, EPI64B, and tubulin on whole cell lysates of Jeg-3 cells genetically modified to lack EPI64A, EPI64B, or both proteins (DKO). (B) Confocal imaging showing localization of ezrin and actin in wild-type Jeg-3 cells and the single (A-KO, B-KO) and double knockout cells. Scale bar 10 µm. (C) Quantitation of the percentage of indicated cells stained for ezrin that express surface microvilli. Normal defined >50% coverage of the apical surface with microvilli. One-way analysis of variance gave the indicated p values. (D) EPI64A/B double knockout cells were transfected to express the indicated constructs and the percentage of ezrin-stained cells (total for either untransfected or GFP-expressing for transfected cells) that express normal apical microvilli. One-way analysis of variance gave the indicated p values. (E) Localization of tight junction ZO-1 in wild-type and knockout Jeg-3 cells. Scale bar: 10 µm.

    Techniques Used: Western Blot, Genetically Modified, Imaging, Double Knockout, Quantitation Assay, Staining, Transfection, Construct, Expressing, Knock-Out

    FIGURE 6: Dominant negative Rab8A and Rab35A can restore microvilli to EPI64A/B double knockout cells. (A) Wild-type Jeg-3 cells were transfected to express GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) determined that express apical microvilli. (B) Jeg-3 EPI64A/B double knockout cells were transfected with GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) expressing microvilli scored. One-way analysis of variance gave the indicated p values.
    Figure Legend Snippet: FIGURE 6: Dominant negative Rab8A and Rab35A can restore microvilli to EPI64A/B double knockout cells. (A) Wild-type Jeg-3 cells were transfected to express GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) determined that express apical microvilli. (B) Jeg-3 EPI64A/B double knockout cells were transfected with GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) expressing microvilli scored. One-way analysis of variance gave the indicated p values.

    Techniques Used: Dominant Negative Mutation, Double Knockout, Transfection, Expressing

    FIGURE 7: Caco-2 cells lacking EPI64A and EPI64B have microvilli (A) Western blots of whole cell lysates from Caco-2 BBE1 wild-type, EPI64A, and EPI64B single knockout and double knockout cells blotted for EPI64A, EPI64B, and tubulin. (B) Confocal imaging showing localization of ezrin in the apical region of wild-type and knockout cells. Scale bar: 10 µm. (C) Localization of GFP-EPI64A and GFP-EPI64B expressed in double knockout cells. Scale bar 10 µm.
    Figure Legend Snippet: FIGURE 7: Caco-2 cells lacking EPI64A and EPI64B have microvilli (A) Western blots of whole cell lysates from Caco-2 BBE1 wild-type, EPI64A, and EPI64B single knockout and double knockout cells blotted for EPI64A, EPI64B, and tubulin. (B) Confocal imaging showing localization of ezrin in the apical region of wild-type and knockout cells. Scale bar: 10 µm. (C) Localization of GFP-EPI64A and GFP-EPI64B expressed in double knockout cells. Scale bar 10 µm.

    Techniques Used: Western Blot, Knock-Out, Double Knockout, Imaging

    FIGURE 8: Caco-2 cells lacking EPI64A and EPI64B have aberrant apical junctions (A) Fields of wild-type, EPI64A and EPI64B single knockout and EPI64A/B double knockout cells stained for actin and the tight junction marker ZO-1. The phenotypes seen were variable, so the most wild–type-looking regions of cells are shown (Normal) and contrasted with regions where the normal polygonal organization is disrupted (Severe). Scale bar: 10 µm. (B) Percentage of wild-type and knockout cells in which one or more of its junctions shows a reflex angle (>180°). One-way analysis of variance gave the indicated p values. (C) Example of stellate knockout cell stained for ezrin, myosin IIA, and actin XY-dimensions (top panels) and YZ-dimensions (bottom panel). (D) Localization of vinculin, actin, and myosin IIA in the apical (top panels) and basal (bottom panels) sections of wild-type and double knockout Caco-2 cells. Scale bars 10 µm.
    Figure Legend Snippet: FIGURE 8: Caco-2 cells lacking EPI64A and EPI64B have aberrant apical junctions (A) Fields of wild-type, EPI64A and EPI64B single knockout and EPI64A/B double knockout cells stained for actin and the tight junction marker ZO-1. The phenotypes seen were variable, so the most wild–type-looking regions of cells are shown (Normal) and contrasted with regions where the normal polygonal organization is disrupted (Severe). Scale bar: 10 µm. (B) Percentage of wild-type and knockout cells in which one or more of its junctions shows a reflex angle (>180°). One-way analysis of variance gave the indicated p values. (C) Example of stellate knockout cell stained for ezrin, myosin IIA, and actin XY-dimensions (top panels) and YZ-dimensions (bottom panel). (D) Localization of vinculin, actin, and myosin IIA in the apical (top panels) and basal (bottom panels) sections of wild-type and double knockout Caco-2 cells. Scale bars 10 µm.

    Techniques Used: Knock-Out, Double Knockout, Staining, Marker



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    gfp rab8a wild type  (Addgene inc)
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    Addgene inc gfp rab8a wild type
    FIGURE 1: EPI64A and EPI64B both localize to apical microvilli. (A) Schematic of EPI64A and EPI64B domains with percentage identities and the TBC/RabGAP arginine residue necessary for the RabGAP activity indicated. (B) Western blots with antibodies to EPI64B and tubulin of Jeg-3 cell lysates after treatment with the indicated siRNAs to EPI64B. (C) Western blot with antibodies to EPI64B on cell lysates from several cultured cell lines. (D) SIM microscopy of Jeg-3 cells transfected with GFP-EPI64A (top block of panels) or GFP-EPI64B (bottom block of panels). Cells were transfected to express GFP-tagged constructs (green) and stained for ezrin (red) and actin (blue). Arrows indicate the localization of GFP-EPI64A to the base of microvilli. Scale bars: top panels, 10 µm; bottom panels, 10 µm.(E) Quantitation of GFP- EPI64A and GFP-EPI64B to localize to microvilli in <t>wild-type</t> cells.
    Gfp Rab8a Wild Type, supplied by Addgene 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/gfp rab8a wild type/product/Addgene inc
    Average 90 stars, based on 1 article reviews
    gfp rab8a wild type - by Bioz Stars, 2026-03
    90/100 stars
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    FIGURE 1: EPI64A and EPI64B both localize to apical microvilli. (A) Schematic of EPI64A and EPI64B domains with percentage identities and the TBC/RabGAP arginine residue necessary for the RabGAP activity indicated. (B) Western blots with antibodies to EPI64B and tubulin of Jeg-3 cell lysates after treatment with the indicated siRNAs to EPI64B. (C) Western blot with antibodies to EPI64B on cell lysates from several cultured cell lines. (D) SIM microscopy of Jeg-3 cells transfected with GFP-EPI64A (top block of panels) or GFP-EPI64B (bottom block of panels). Cells were transfected to express GFP-tagged constructs (green) and stained for ezrin (red) and actin (blue). Arrows indicate the localization of GFP-EPI64A to the base of microvilli. Scale bars: top panels, 10 µm; bottom panels, 10 µm.(E) Quantitation of GFP- EPI64A and GFP-EPI64B to localize to microvilli in wild-type cells.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 1: EPI64A and EPI64B both localize to apical microvilli. (A) Schematic of EPI64A and EPI64B domains with percentage identities and the TBC/RabGAP arginine residue necessary for the RabGAP activity indicated. (B) Western blots with antibodies to EPI64B and tubulin of Jeg-3 cell lysates after treatment with the indicated siRNAs to EPI64B. (C) Western blot with antibodies to EPI64B on cell lysates from several cultured cell lines. (D) SIM microscopy of Jeg-3 cells transfected with GFP-EPI64A (top block of panels) or GFP-EPI64B (bottom block of panels). Cells were transfected to express GFP-tagged constructs (green) and stained for ezrin (red) and actin (blue). Arrows indicate the localization of GFP-EPI64A to the base of microvilli. Scale bars: top panels, 10 µm; bottom panels, 10 µm.(E) Quantitation of GFP- EPI64A and GFP-EPI64B to localize to microvilli in wild-type cells.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Residue, Activity Assay, Western Blot, Cell Culture, Microscopy, Transfection, Blocking Assay, Construct, Staining, Quantitation Assay

    FIGURE 2: EPI64A and EPI64B can localize to microvilli independently of the scaffolding protein EBP50 (A) Jeg-3 cells transfected with 3xFLAG-EBP50 were co-transfected with either GFP-EPI64A or GFP-EPI64B. The GFP-tagged proteins were immunoprecipitated with GFP-Trap beads and the immunoprecipitates blotted for FLAG and GFP. (B) Confocal imaging of microvillar localization of GFP-EPI-64A and GFP-EPI64A-LA, which cannot bind EBP50, in Jeg-3 cells. Scale bar 10 µm. (C) Western blot of cell lysates of Jeg-3 wild type, or CRISPR-modified EBP50 deletion cell line, blotted for ezrin, EBP50, and tubulin. Scale bar: 10 µm (D) Localization of ezrin and actin in Jeg-3 cells lacking endogenous EBP50. Scale bars: 10 µm. (E) Confocal imaging of GFP-EPI64A or GFP-EPI64B in Jeg-3 cells lacking EBP50. Scale bars: 10 µm.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 2: EPI64A and EPI64B can localize to microvilli independently of the scaffolding protein EBP50 (A) Jeg-3 cells transfected with 3xFLAG-EBP50 were co-transfected with either GFP-EPI64A or GFP-EPI64B. The GFP-tagged proteins were immunoprecipitated with GFP-Trap beads and the immunoprecipitates blotted for FLAG and GFP. (B) Confocal imaging of microvillar localization of GFP-EPI-64A and GFP-EPI64A-LA, which cannot bind EBP50, in Jeg-3 cells. Scale bar 10 µm. (C) Western blot of cell lysates of Jeg-3 wild type, or CRISPR-modified EBP50 deletion cell line, blotted for ezrin, EBP50, and tubulin. Scale bar: 10 µm (D) Localization of ezrin and actin in Jeg-3 cells lacking endogenous EBP50. Scale bars: 10 µm. (E) Confocal imaging of GFP-EPI64A or GFP-EPI64B in Jeg-3 cells lacking EBP50. Scale bars: 10 µm.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Scaffolding, Transfection, Immunoprecipitation, Imaging, Western Blot, CRISPR, Modification

    FIGURE 3: EPI64A contains a localization domain spanning its TBC domain. (A) Schematic of the EPI64 constructs used in B and C and summary of results shown in this figure (B) Confocal imaging of GFP-EPI64A-314-508, which contains the C-terminal -DTYL sequence, in Jeg-3 wild-type cells and Jeg-3 cells lacking EBP50. (C) Confocal images showing the localization of GFP-tagged deletion constructs of GFP-EPI64A. Scale bar 10 µm. (D) Immunolocalization of two HA-tagged constructs, the top one containing the minimal region that localizes to microvilli (HA-EPI64A-61-408) and the bottom one (HA-71-408) that does not localize. Scale bar: 10 µm. (E) GFP-trap pull down: Jeg-3 cells were transfected with either GFP or GFP-Arf6 together with the indicated HA-EPI64A constructs. The GFP or GFP-Arf6 were recovered and analyzed for the presence of the HA-EPI64A constructs by immunoblotting.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 3: EPI64A contains a localization domain spanning its TBC domain. (A) Schematic of the EPI64 constructs used in B and C and summary of results shown in this figure (B) Confocal imaging of GFP-EPI64A-314-508, which contains the C-terminal -DTYL sequence, in Jeg-3 wild-type cells and Jeg-3 cells lacking EBP50. (C) Confocal images showing the localization of GFP-tagged deletion constructs of GFP-EPI64A. Scale bar 10 µm. (D) Immunolocalization of two HA-tagged constructs, the top one containing the minimal region that localizes to microvilli (HA-EPI64A-61-408) and the bottom one (HA-71-408) that does not localize. Scale bar: 10 µm. (E) GFP-trap pull down: Jeg-3 cells were transfected with either GFP or GFP-Arf6 together with the indicated HA-EPI64A constructs. The GFP or GFP-Arf6 were recovered and analyzed for the presence of the HA-EPI64A constructs by immunoblotting.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Construct, Imaging, Sequencing, Transfection, Western Blot

    FIGURE 5: Jeg-3 cells lacking EPI64A and EPI64B lack microvilli (A) Western blot with antibodies to EPI64A, EPI64B, and tubulin on whole cell lysates of Jeg-3 cells genetically modified to lack EPI64A, EPI64B, or both proteins (DKO). (B) Confocal imaging showing localization of ezrin and actin in wild-type Jeg-3 cells and the single (A-KO, B-KO) and double knockout cells. Scale bar 10 µm. (C) Quantitation of the percentage of indicated cells stained for ezrin that express surface microvilli. Normal defined >50% coverage of the apical surface with microvilli. One-way analysis of variance gave the indicated p values. (D) EPI64A/B double knockout cells were transfected to express the indicated constructs and the percentage of ezrin-stained cells (total for either untransfected or GFP-expressing for transfected cells) that express normal apical microvilli. One-way analysis of variance gave the indicated p values. (E) Localization of tight junction ZO-1 in wild-type and knockout Jeg-3 cells. Scale bar: 10 µm.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 5: Jeg-3 cells lacking EPI64A and EPI64B lack microvilli (A) Western blot with antibodies to EPI64A, EPI64B, and tubulin on whole cell lysates of Jeg-3 cells genetically modified to lack EPI64A, EPI64B, or both proteins (DKO). (B) Confocal imaging showing localization of ezrin and actin in wild-type Jeg-3 cells and the single (A-KO, B-KO) and double knockout cells. Scale bar 10 µm. (C) Quantitation of the percentage of indicated cells stained for ezrin that express surface microvilli. Normal defined >50% coverage of the apical surface with microvilli. One-way analysis of variance gave the indicated p values. (D) EPI64A/B double knockout cells were transfected to express the indicated constructs and the percentage of ezrin-stained cells (total for either untransfected or GFP-expressing for transfected cells) that express normal apical microvilli. One-way analysis of variance gave the indicated p values. (E) Localization of tight junction ZO-1 in wild-type and knockout Jeg-3 cells. Scale bar: 10 µm.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Western Blot, Genetically Modified, Imaging, Double Knockout, Quantitation Assay, Staining, Transfection, Construct, Expressing, Knock-Out

    FIGURE 6: Dominant negative Rab8A and Rab35A can restore microvilli to EPI64A/B double knockout cells. (A) Wild-type Jeg-3 cells were transfected to express GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) determined that express apical microvilli. (B) Jeg-3 EPI64A/B double knockout cells were transfected with GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) expressing microvilli scored. One-way analysis of variance gave the indicated p values.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 6: Dominant negative Rab8A and Rab35A can restore microvilli to EPI64A/B double knockout cells. (A) Wild-type Jeg-3 cells were transfected to express GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) determined that express apical microvilli. (B) Jeg-3 EPI64A/B double knockout cells were transfected with GFP or the indicated GFP-Rab proteins and the percentage of cells (total for either untransfected or GFP-expressing for transfected cells) expressing microvilli scored. One-way analysis of variance gave the indicated p values.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Dominant Negative Mutation, Double Knockout, Transfection, Expressing

    FIGURE 7: Caco-2 cells lacking EPI64A and EPI64B have microvilli (A) Western blots of whole cell lysates from Caco-2 BBE1 wild-type, EPI64A, and EPI64B single knockout and double knockout cells blotted for EPI64A, EPI64B, and tubulin. (B) Confocal imaging showing localization of ezrin in the apical region of wild-type and knockout cells. Scale bar: 10 µm. (C) Localization of GFP-EPI64A and GFP-EPI64B expressed in double knockout cells. Scale bar 10 µm.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 7: Caco-2 cells lacking EPI64A and EPI64B have microvilli (A) Western blots of whole cell lysates from Caco-2 BBE1 wild-type, EPI64A, and EPI64B single knockout and double knockout cells blotted for EPI64A, EPI64B, and tubulin. (B) Confocal imaging showing localization of ezrin in the apical region of wild-type and knockout cells. Scale bar: 10 µm. (C) Localization of GFP-EPI64A and GFP-EPI64B expressed in double knockout cells. Scale bar 10 µm.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Western Blot, Knock-Out, Double Knockout, Imaging

    FIGURE 8: Caco-2 cells lacking EPI64A and EPI64B have aberrant apical junctions (A) Fields of wild-type, EPI64A and EPI64B single knockout and EPI64A/B double knockout cells stained for actin and the tight junction marker ZO-1. The phenotypes seen were variable, so the most wild–type-looking regions of cells are shown (Normal) and contrasted with regions where the normal polygonal organization is disrupted (Severe). Scale bar: 10 µm. (B) Percentage of wild-type and knockout cells in which one or more of its junctions shows a reflex angle (>180°). One-way analysis of variance gave the indicated p values. (C) Example of stellate knockout cell stained for ezrin, myosin IIA, and actin XY-dimensions (top panels) and YZ-dimensions (bottom panel). (D) Localization of vinculin, actin, and myosin IIA in the apical (top panels) and basal (bottom panels) sections of wild-type and double knockout Caco-2 cells. Scale bars 10 µm.

    Journal: Molecular Biology of the Cell

    Article Title: The RabGAPs EPI64A and EPI64B regulate the apical structure of epithelial cells

    doi: 10.1091/mbc.e21-05-0268

    Figure Lengend Snippet: FIGURE 8: Caco-2 cells lacking EPI64A and EPI64B have aberrant apical junctions (A) Fields of wild-type, EPI64A and EPI64B single knockout and EPI64A/B double knockout cells stained for actin and the tight junction marker ZO-1. The phenotypes seen were variable, so the most wild–type-looking regions of cells are shown (Normal) and contrasted with regions where the normal polygonal organization is disrupted (Severe). Scale bar: 10 µm. (B) Percentage of wild-type and knockout cells in which one or more of its junctions shows a reflex angle (>180°). One-way analysis of variance gave the indicated p values. (C) Example of stellate knockout cell stained for ezrin, myosin IIA, and actin XY-dimensions (top panels) and YZ-dimensions (bottom panel). (D) Localization of vinculin, actin, and myosin IIA in the apical (top panels) and basal (bottom panels) sections of wild-type and double knockout Caco-2 cells. Scale bars 10 µm.

    Article Snippet: GFP-Rab8a wild type was cloned in the lab; EGFP-Rab8a-TN (Addgene #86077) and EGFP-Rab8a-QL (Addgene #86076) were gifts from Lei Liu.

    Techniques: Knock-Out, Double Knockout, Staining, Marker