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rabbit anti limd1  (Novus Biologicals)


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    Novus Biologicals rabbit anti limd1
    (A) Full-length LATS2, LATS2-LATCH and LATS2-LATCH-4mut, were tested for binding to <t>LIMD1</t> by co-immunoprecipitation. Lysates were prepared from HEK293A cells separately transfected with GFP-tagged LATS2, LATS2-LATCH, LATS2-LATCH-4mut, or LIMD1-V5. Lysates from cells expressing LIMD1-V5 were mixed separately with those expressing the different GFP-LATS2/LATCH constructs, <t>and</t> <t>anti-LIMD1</t> or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2/LATCH (GFP) and LIMD1 (V5). (B) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH or LATS2-LATCH-4mut. (C) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH treated with (Blebbistatin) or without (DMSO) Blebbistatin.
    Rabbit Anti Limd1, supplied by Novus Biologicals, used in various techniques. Bioz Stars score: 94/100, based on 3 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Images

    1) Product Images from "Regulation of tension-dependent localization of LATS1 and LATS2 to adherens junctions"

    Article Title: Regulation of tension-dependent localization of LATS1 and LATS2 to adherens junctions

    Journal: PLOS One

    doi: 10.1371/journal.pone.0342107

    (A) Full-length LATS2, LATS2-LATCH and LATS2-LATCH-4mut, were tested for binding to LIMD1 by co-immunoprecipitation. Lysates were prepared from HEK293A cells separately transfected with GFP-tagged LATS2, LATS2-LATCH, LATS2-LATCH-4mut, or LIMD1-V5. Lysates from cells expressing LIMD1-V5 were mixed separately with those expressing the different GFP-LATS2/LATCH constructs, and anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2/LATCH (GFP) and LIMD1 (V5). (B) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH or LATS2-LATCH-4mut. (C) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH treated with (Blebbistatin) or without (DMSO) Blebbistatin.
    Figure Legend Snippet: (A) Full-length LATS2, LATS2-LATCH and LATS2-LATCH-4mut, were tested for binding to LIMD1 by co-immunoprecipitation. Lysates were prepared from HEK293A cells separately transfected with GFP-tagged LATS2, LATS2-LATCH, LATS2-LATCH-4mut, or LIMD1-V5. Lysates from cells expressing LIMD1-V5 were mixed separately with those expressing the different GFP-LATS2/LATCH constructs, and anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2/LATCH (GFP) and LIMD1 (V5). (B) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH or LATS2-LATCH-4mut. (C) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH treated with (Blebbistatin) or without (DMSO) Blebbistatin.

    Techniques Used: Binding Assay, Immunoprecipitation, Transfection, Expressing, Construct, Control, Western Blot, Live Cell Imaging, Stable Transfection

    (A-B) LIMD1-KO MCF10A cells stably expressing GFP tagged wild-type LIMD1 (WT) or LIMD1 strain insensitive mutants (F512A, F575A, and Y646A, see also .) were established by lentiviral transduction and imaged using fixed and live-cell imaging. (A) The indicated cell lines were stained using anti-LATS1 and anti-TRIP6 antibodies. Merged images show LATS1 (red), TRIP6 (green) and DNA (blue). (B) The indicated cell lines from part (A) were imaged live for GFP fluorescence. (C) Quantification of the LATS1 junction to cytoplasm mean intensity ratio. Error bars represent the standard deviation. ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the plot (mean ± SD; n = 5; ****P < 0.0001). (D-E) LATS1/2 were tested for their ability to bind to strain insensitive mutants of LIMD1 by co-immunoprecipitation. (D) LATS2 was tested for its ability to bind to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1 and LATS2-FLAG were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged WT and mutants of LIMD1 were combined with LATS2-FLAG lysates. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (V5) and LATS2-FLAG (LATS2). (E) LATS1 was tested for binding to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1, and LATS1-3xMyc were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged LIMD1 variants were combined with LATS1-3xMyc lysates. Anti-Myc or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (LIMD1) and LATS1-3xMyc (LATS1). (F) Quantification of relative amounts of LATS2 (normalized to wild-type LIMD1 in the IP fraction) immunoprecipitated by wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants in part (D) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; ***P = 0.001, ****P < 0.0001). (G) Quantification of relative amounts of wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants (normalized to wild-type LIMD1 in the input fraction) immunoprecipitated by LATS1-3xMyc from part (E) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; *P < 0.05, ***P = 0.001).
    Figure Legend Snippet: (A-B) LIMD1-KO MCF10A cells stably expressing GFP tagged wild-type LIMD1 (WT) or LIMD1 strain insensitive mutants (F512A, F575A, and Y646A, see also .) were established by lentiviral transduction and imaged using fixed and live-cell imaging. (A) The indicated cell lines were stained using anti-LATS1 and anti-TRIP6 antibodies. Merged images show LATS1 (red), TRIP6 (green) and DNA (blue). (B) The indicated cell lines from part (A) were imaged live for GFP fluorescence. (C) Quantification of the LATS1 junction to cytoplasm mean intensity ratio. Error bars represent the standard deviation. ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the plot (mean ± SD; n = 5; ****P < 0.0001). (D-E) LATS1/2 were tested for their ability to bind to strain insensitive mutants of LIMD1 by co-immunoprecipitation. (D) LATS2 was tested for its ability to bind to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1 and LATS2-FLAG were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged WT and mutants of LIMD1 were combined with LATS2-FLAG lysates. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (V5) and LATS2-FLAG (LATS2). (E) LATS1 was tested for binding to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1, and LATS1-3xMyc were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged LIMD1 variants were combined with LATS1-3xMyc lysates. Anti-Myc or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (LIMD1) and LATS1-3xMyc (LATS1). (F) Quantification of relative amounts of LATS2 (normalized to wild-type LIMD1 in the IP fraction) immunoprecipitated by wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants in part (D) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; ***P = 0.001, ****P < 0.0001). (G) Quantification of relative amounts of wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants (normalized to wild-type LIMD1 in the input fraction) immunoprecipitated by LATS1-3xMyc from part (E) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; *P < 0.05, ***P = 0.001).

    Techniques Used: Stable Transfection, Expressing, Transduction, Live Cell Imaging, Staining, Fluorescence, Standard Deviation, Immunoprecipitation, Transfection, Control, Western Blot, Binding Assay

    (A) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS1 or LATS2 N-terminal regions (aa 1-635 in LATS1, aa 1-598 in LATS2) with and without (∆LATCH) the LATCH regions (aa 472-520 in LATS1, aa 418-466 in LATS2) as indicated. (B) AlphaFold2 model showing the three tandem LIM domains of LIMD1 (orange) and two regions of LATS2 (green) that are predicted to interact (LATS-LATCH and the Helical Hairpin). (C) Multiple sequence alignments of LATS1/2 from the indicated species showing the conserved LATCH region. (D-E) The requirement of the conserved LATCH sequence of LATS1/2 to bind with LIMD1 was tested by co-immunoprecipitation. (D) Full-length LATS2 (LATS2) or LATS2 with either the LATCH deleted (LATS2-∆LATCH, aa 418-466 deleted) or with the helical hairpin region deleted (LATS2-∆HH, aa 599-667 deleted) tagged to FLAG and (E) Full-length LATS1 (LATS1) or LATS1 with the LATCH deleted (LATS1-∆LATCH, aa 472-520 deleted) tagged with 3xMyc were tested for binding to LIMD1 by co-immunoprecipitation. FLAG-LATS2 variants, LATS1-3xMyc variants, and LIMD1-V5 were separately transfected in HEK293 cells. HEK293A cell lysates transfected with either FLAG-LATS2 variants (D) or LATS1-3xMyc variants (E) were combined with V5-tagged LIMD1. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2 variants (FLAG) (D) , LATS1 variants (Myc) (E) and LIMD1 (V5).
    Figure Legend Snippet: (A) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS1 or LATS2 N-terminal regions (aa 1-635 in LATS1, aa 1-598 in LATS2) with and without (∆LATCH) the LATCH regions (aa 472-520 in LATS1, aa 418-466 in LATS2) as indicated. (B) AlphaFold2 model showing the three tandem LIM domains of LIMD1 (orange) and two regions of LATS2 (green) that are predicted to interact (LATS-LATCH and the Helical Hairpin). (C) Multiple sequence alignments of LATS1/2 from the indicated species showing the conserved LATCH region. (D-E) The requirement of the conserved LATCH sequence of LATS1/2 to bind with LIMD1 was tested by co-immunoprecipitation. (D) Full-length LATS2 (LATS2) or LATS2 with either the LATCH deleted (LATS2-∆LATCH, aa 418-466 deleted) or with the helical hairpin region deleted (LATS2-∆HH, aa 599-667 deleted) tagged to FLAG and (E) Full-length LATS1 (LATS1) or LATS1 with the LATCH deleted (LATS1-∆LATCH, aa 472-520 deleted) tagged with 3xMyc were tested for binding to LIMD1 by co-immunoprecipitation. FLAG-LATS2 variants, LATS1-3xMyc variants, and LIMD1-V5 were separately transfected in HEK293 cells. HEK293A cell lysates transfected with either FLAG-LATS2 variants (D) or LATS1-3xMyc variants (E) were combined with V5-tagged LIMD1. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2 variants (FLAG) (D) , LATS1 variants (Myc) (E) and LIMD1 (V5).

    Techniques Used: Live Cell Imaging, Stable Transfection, Expressing, Sequencing, Immunoprecipitation, Binding Assay, Transfection, Control, Western Blot



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    Image Search Results


    (A) Full-length LATS2, LATS2-LATCH and LATS2-LATCH-4mut, were tested for binding to LIMD1 by co-immunoprecipitation. Lysates were prepared from HEK293A cells separately transfected with GFP-tagged LATS2, LATS2-LATCH, LATS2-LATCH-4mut, or LIMD1-V5. Lysates from cells expressing LIMD1-V5 were mixed separately with those expressing the different GFP-LATS2/LATCH constructs, and anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2/LATCH (GFP) and LIMD1 (V5). (B) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH or LATS2-LATCH-4mut. (C) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH treated with (Blebbistatin) or without (DMSO) Blebbistatin.

    Journal: PLOS One

    Article Title: Regulation of tension-dependent localization of LATS1 and LATS2 to adherens junctions

    doi: 10.1371/journal.pone.0342107

    Figure Lengend Snippet: (A) Full-length LATS2, LATS2-LATCH and LATS2-LATCH-4mut, were tested for binding to LIMD1 by co-immunoprecipitation. Lysates were prepared from HEK293A cells separately transfected with GFP-tagged LATS2, LATS2-LATCH, LATS2-LATCH-4mut, or LIMD1-V5. Lysates from cells expressing LIMD1-V5 were mixed separately with those expressing the different GFP-LATS2/LATCH constructs, and anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2/LATCH (GFP) and LIMD1 (V5). (B) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH or LATS2-LATCH-4mut. (C) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS2-LATCH treated with (Blebbistatin) or without (DMSO) Blebbistatin.

    Article Snippet: Immunoprecipitation was carried out using 1 ug of rabbit anti-LIMD1 (Novus biologicals, NBP2–56448), mouse anti-Myc (Cell Signaling, 2276) or mouse anti-FLAG antibody (Sigma-Aldrich, F1804) coupled to 50 uL of Dynabeads at 4°C with gentle shaking for 1 hour.

    Techniques: Binding Assay, Immunoprecipitation, Transfection, Expressing, Construct, Control, Western Blot, Live Cell Imaging, Stable Transfection

    (A-B) LIMD1-KO MCF10A cells stably expressing GFP tagged wild-type LIMD1 (WT) or LIMD1 strain insensitive mutants (F512A, F575A, and Y646A, see also .) were established by lentiviral transduction and imaged using fixed and live-cell imaging. (A) The indicated cell lines were stained using anti-LATS1 and anti-TRIP6 antibodies. Merged images show LATS1 (red), TRIP6 (green) and DNA (blue). (B) The indicated cell lines from part (A) were imaged live for GFP fluorescence. (C) Quantification of the LATS1 junction to cytoplasm mean intensity ratio. Error bars represent the standard deviation. ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the plot (mean ± SD; n = 5; ****P < 0.0001). (D-E) LATS1/2 were tested for their ability to bind to strain insensitive mutants of LIMD1 by co-immunoprecipitation. (D) LATS2 was tested for its ability to bind to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1 and LATS2-FLAG were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged WT and mutants of LIMD1 were combined with LATS2-FLAG lysates. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (V5) and LATS2-FLAG (LATS2). (E) LATS1 was tested for binding to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1, and LATS1-3xMyc were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged LIMD1 variants were combined with LATS1-3xMyc lysates. Anti-Myc or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (LIMD1) and LATS1-3xMyc (LATS1). (F) Quantification of relative amounts of LATS2 (normalized to wild-type LIMD1 in the IP fraction) immunoprecipitated by wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants in part (D) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; ***P = 0.001, ****P < 0.0001). (G) Quantification of relative amounts of wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants (normalized to wild-type LIMD1 in the input fraction) immunoprecipitated by LATS1-3xMyc from part (E) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; *P < 0.05, ***P = 0.001).

    Journal: PLOS One

    Article Title: Regulation of tension-dependent localization of LATS1 and LATS2 to adherens junctions

    doi: 10.1371/journal.pone.0342107

    Figure Lengend Snippet: (A-B) LIMD1-KO MCF10A cells stably expressing GFP tagged wild-type LIMD1 (WT) or LIMD1 strain insensitive mutants (F512A, F575A, and Y646A, see also .) were established by lentiviral transduction and imaged using fixed and live-cell imaging. (A) The indicated cell lines were stained using anti-LATS1 and anti-TRIP6 antibodies. Merged images show LATS1 (red), TRIP6 (green) and DNA (blue). (B) The indicated cell lines from part (A) were imaged live for GFP fluorescence. (C) Quantification of the LATS1 junction to cytoplasm mean intensity ratio. Error bars represent the standard deviation. ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the plot (mean ± SD; n = 5; ****P < 0.0001). (D-E) LATS1/2 were tested for their ability to bind to strain insensitive mutants of LIMD1 by co-immunoprecipitation. (D) LATS2 was tested for its ability to bind to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1 and LATS2-FLAG were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged WT and mutants of LIMD1 were combined with LATS2-FLAG lysates. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (V5) and LATS2-FLAG (LATS2). (E) LATS1 was tested for binding to wild-type (WT) and mechanical strain insensitive mutants (F512A, F575A or Y646A) of LIMD1 by co-immunoprecipitation. V5-tagged WT and mutants of LIMD1, and LATS1-3xMyc were separately transfected in HEK293A cells. HEK293A lysates from cells transfected with V5-tagged LIMD1 variants were combined with LATS1-3xMyc lysates. Anti-Myc or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for V5-tagged WT and mutants of LIMD1 (LIMD1) and LATS1-3xMyc (LATS1). (F) Quantification of relative amounts of LATS2 (normalized to wild-type LIMD1 in the IP fraction) immunoprecipitated by wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants in part (D) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; ***P = 0.001, ****P < 0.0001). (G) Quantification of relative amounts of wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants (normalized to wild-type LIMD1 in the input fraction) immunoprecipitated by LATS1-3xMyc from part (E) . ANOVA statistical comparisons between wild-type LIMD1 and mechanical strain insensitive LIMD1 mutants are indicated above the graph (mean ± SD; n = 3; *P < 0.05, ***P = 0.001).

    Article Snippet: Immunoprecipitation was carried out using 1 ug of rabbit anti-LIMD1 (Novus biologicals, NBP2–56448), mouse anti-Myc (Cell Signaling, 2276) or mouse anti-FLAG antibody (Sigma-Aldrich, F1804) coupled to 50 uL of Dynabeads at 4°C with gentle shaking for 1 hour.

    Techniques: Stable Transfection, Expressing, Transduction, Live Cell Imaging, Staining, Fluorescence, Standard Deviation, Immunoprecipitation, Transfection, Control, Western Blot, Binding Assay

    (A) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS1 or LATS2 N-terminal regions (aa 1-635 in LATS1, aa 1-598 in LATS2) with and without (∆LATCH) the LATCH regions (aa 472-520 in LATS1, aa 418-466 in LATS2) as indicated. (B) AlphaFold2 model showing the three tandem LIM domains of LIMD1 (orange) and two regions of LATS2 (green) that are predicted to interact (LATS-LATCH and the Helical Hairpin). (C) Multiple sequence alignments of LATS1/2 from the indicated species showing the conserved LATCH region. (D-E) The requirement of the conserved LATCH sequence of LATS1/2 to bind with LIMD1 was tested by co-immunoprecipitation. (D) Full-length LATS2 (LATS2) or LATS2 with either the LATCH deleted (LATS2-∆LATCH, aa 418-466 deleted) or with the helical hairpin region deleted (LATS2-∆HH, aa 599-667 deleted) tagged to FLAG and (E) Full-length LATS1 (LATS1) or LATS1 with the LATCH deleted (LATS1-∆LATCH, aa 472-520 deleted) tagged with 3xMyc were tested for binding to LIMD1 by co-immunoprecipitation. FLAG-LATS2 variants, LATS1-3xMyc variants, and LIMD1-V5 were separately transfected in HEK293 cells. HEK293A cell lysates transfected with either FLAG-LATS2 variants (D) or LATS1-3xMyc variants (E) were combined with V5-tagged LIMD1. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2 variants (FLAG) (D) , LATS1 variants (Myc) (E) and LIMD1 (V5).

    Journal: PLOS One

    Article Title: Regulation of tension-dependent localization of LATS1 and LATS2 to adherens junctions

    doi: 10.1371/journal.pone.0342107

    Figure Lengend Snippet: (A) Live-cell imaging of MCF10A cells stably expressing GFP tagged LATS1 or LATS2 N-terminal regions (aa 1-635 in LATS1, aa 1-598 in LATS2) with and without (∆LATCH) the LATCH regions (aa 472-520 in LATS1, aa 418-466 in LATS2) as indicated. (B) AlphaFold2 model showing the three tandem LIM domains of LIMD1 (orange) and two regions of LATS2 (green) that are predicted to interact (LATS-LATCH and the Helical Hairpin). (C) Multiple sequence alignments of LATS1/2 from the indicated species showing the conserved LATCH region. (D-E) The requirement of the conserved LATCH sequence of LATS1/2 to bind with LIMD1 was tested by co-immunoprecipitation. (D) Full-length LATS2 (LATS2) or LATS2 with either the LATCH deleted (LATS2-∆LATCH, aa 418-466 deleted) or with the helical hairpin region deleted (LATS2-∆HH, aa 599-667 deleted) tagged to FLAG and (E) Full-length LATS1 (LATS1) or LATS1 with the LATCH deleted (LATS1-∆LATCH, aa 472-520 deleted) tagged with 3xMyc were tested for binding to LIMD1 by co-immunoprecipitation. FLAG-LATS2 variants, LATS1-3xMyc variants, and LIMD1-V5 were separately transfected in HEK293 cells. HEK293A cell lysates transfected with either FLAG-LATS2 variants (D) or LATS1-3xMyc variants (E) were combined with V5-tagged LIMD1. Anti-LIMD1 or control (IgG) antibodies were used to isolate immune complexes. Immune complexes and lysates were probed by Western blotting for LATS2 variants (FLAG) (D) , LATS1 variants (Myc) (E) and LIMD1 (V5).

    Article Snippet: Immunoprecipitation was carried out using 1 ug of rabbit anti-LIMD1 (Novus biologicals, NBP2–56448), mouse anti-Myc (Cell Signaling, 2276) or mouse anti-FLAG antibody (Sigma-Aldrich, F1804) coupled to 50 uL of Dynabeads at 4°C with gentle shaking for 1 hour.

    Techniques: Live Cell Imaging, Stable Transfection, Expressing, Sequencing, Immunoprecipitation, Binding Assay, Transfection, Control, Western Blot