Review





Similar Products

brain pip 2 avanti polar lipids  (Croda International Plc)
95
Croda International Plc brain pip 2 avanti polar lipids
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
Brain Pip 2 Avanti Polar Lipids, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/brain pip 2 avanti polar lipids/product/Croda International Plc
Average 95 stars, based on 1 article reviews
brain pip 2 avanti polar lipids - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier
ammonium salt  (Croda International Plc)
95
Croda International Plc ammonium salt
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
Ammonium Salt, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ammonium salt/product/Croda International Plc
Average 95 stars, based on 1 article reviews
ammonium salt - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier
buffer b  (Croda International Plc)
95
Croda International Plc buffer b
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
Buffer B, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/buffer b/product/Croda International Plc
Average 95 stars, based on 1 article reviews
buffer b - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier
ganglioside total  (Croda International Plc)
95
Croda International Plc ganglioside total
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
Ganglioside Total, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ganglioside total/product/Croda International Plc
Average 95 stars, based on 1 article reviews
ganglioside total - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier
l α phosphatidylinositol 4phosphate  (Croda International Plc)
95
Croda International Plc l α phosphatidylinositol 4phosphate
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
L α Phosphatidylinositol 4phosphate, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/l α phosphatidylinositol 4phosphate/product/Croda International Plc
Average 95 stars, based on 1 article reviews
l α phosphatidylinositol 4phosphate - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier
ganglioside extract  (Croda International Plc)
95
Croda International Plc ganglioside extract
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
Ganglioside Extract, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/ganglioside extract/product/Croda International Plc
Average 95 stars, based on 1 article reviews
ganglioside extract - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier
gangliosidetotal  (Croda International Plc)
95
Croda International Plc gangliosidetotal
(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing <t>PIP</t> <t>2</t> . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .
Gangliosidetotal, supplied by Croda International Plc, used in various techniques. Bioz Stars score: 95/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/gangliosidetotal/product/Croda International Plc
Average 95 stars, based on 1 article reviews
gangliosidetotal - by Bioz Stars, 2026-02
95/100 stars
  Buy from Supplier

Image Search Results


(A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing PIP 2 . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .

Journal: bioRxiv

Article Title: Supported membrane assay probes PLCγ1 activity in LAT condensates

doi: 10.64898/2026.01.23.701188

Figure Lengend Snippet: (A) A schematic summarizing the lysate assay protocol. PLCγ1-mNG was generated in HEK293T cells, then flowed directly as dilute lysate over pLAT bilayers containing PIP 2 . Active PLCγ1-mNG hydrolyzed PIP 2 to DAG, which was detected using a labeled DAG sensor (PKCθ-C1b-SNAP-Alexa 647). Parts of the figure were drawn using images from Servier Medical Art Commons Attribution 3.0 Unported License ( http://smart.servier.com (accessed on 21 March 2022)). (B) An example TIRF image of the DAG sensor demonstrating the segmentation of 50 x 50 µm images for analysis. TIRF images in a time series were sectioned into 5 x 5 µm patches and analyzed as separate instances. (C) Images of a single 5 x 5 µm patch in the DAG sensor channel (Top) and PLCγ1-mNG channel (Bottom) through time, corresponding to the time axis for the curves below. (D) Curves obtained from processing the raw median fluorescence from membrane patches, representing the amount of DAG in the bilayer (red, left axis, foreground curves) and density of PLCγ1-mNG recruited (green, right axis, background curves) over 20 minutes. PLCγ1-mNG lysate (∼1:1000 dilution) with DAG sensor was injected at t = 0 min. To attain quantitative curves, raw fluorescence was first normalized to the time of injection. DAG was calibrated using the assumption that the average normalized maximum for multiple experiments must be 2% (given 2% PIP 2 bilayers). PLCγ1-mNG was calibrated by matching single-molecule counts (at high laser power) to bulk fluorescence (at low laser power). The two solid, darkly colored curves represent the median of all patches analyzed. Lightly colored curves in the background represent the results from each single patch (n = 100). Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 .

Article Snippet: Small unilamellar vesicles (SUVs) were made using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC), 1,2-dioleoyl-sn-glycero-3-[(N-carboxypentyl)iminidiacetic acid)succinyl] (nickel salt) (Ni2+-NTA-DGS), and L-α-phosphatidylinositol-4,5-bisphosphate (Brain, Porcine) (ammonium salt) (Brain PIP 2 ) (Avanti Polar Lipids).

Techniques: Generated, Labeling, Fluorescence, Membrane, Injection

(A) A schematic showing greater detail of the lysate experiment at the membrane. Hck and LAT are functionalized to the SLB via Ni-histidine chelation. Hck phosphorylates LAT allowing for the recruitment of PLCγ1-mNG. PLCγ1-mNG is then subsequently phosphorylated by Hck at Y783 and is active at the membrane after structural rearrangement. (B) Relative observed enzymatic velocities ( v obs ) (black, left axis, defined as the enzymatic rate for the linear portion of the reaction trace) and PLCγ1-mNG densities (green, right axis, defined as density at the midpoint of v obs measurement) for various assay conditions, normalized to the median value for PLCγ1-WT-mNG lysate on a pLAT bilayer. Distributions of 100 membrane patches are shown as half-violin plots, with single observations shown as points and distributions represented by a shaded area. Compact box plots are overlayed over the distributions to represent the median (white circles), quartile regions (box), and extremes with outliers excluded (whiskers). Median values for v obs (m v ) and PLCγ1-mNG density (m ρ ) are expressly denoted for clarity. Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT densities: ∼1500 µm -2 .

Journal: bioRxiv

Article Title: Supported membrane assay probes PLCγ1 activity in LAT condensates

doi: 10.64898/2026.01.23.701188

Figure Lengend Snippet: (A) A schematic showing greater detail of the lysate experiment at the membrane. Hck and LAT are functionalized to the SLB via Ni-histidine chelation. Hck phosphorylates LAT allowing for the recruitment of PLCγ1-mNG. PLCγ1-mNG is then subsequently phosphorylated by Hck at Y783 and is active at the membrane after structural rearrangement. (B) Relative observed enzymatic velocities ( v obs ) (black, left axis, defined as the enzymatic rate for the linear portion of the reaction trace) and PLCγ1-mNG densities (green, right axis, defined as density at the midpoint of v obs measurement) for various assay conditions, normalized to the median value for PLCγ1-WT-mNG lysate on a pLAT bilayer. Distributions of 100 membrane patches are shown as half-violin plots, with single observations shown as points and distributions represented by a shaded area. Compact box plots are overlayed over the distributions to represent the median (white circles), quartile regions (box), and extremes with outliers excluded (whiskers). Median values for v obs (m v ) and PLCγ1-mNG density (m ρ ) are expressly denoted for clarity. Lipid composition (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT densities: ∼1500 µm -2 .

Article Snippet: Small unilamellar vesicles (SUVs) were made using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC), 1,2-dioleoyl-sn-glycero-3-[(N-carboxypentyl)iminidiacetic acid)succinyl] (nickel salt) (Ni2+-NTA-DGS), and L-α-phosphatidylinositol-4,5-bisphosphate (Brain, Porcine) (ammonium salt) (Brain PIP 2 ) (Avanti Polar Lipids).

Techniques: Membrane

(A)-(C) Field-corrected images of LAT-Alexa 555 (Ax555) (gold, top), PLCγ1-mNG (green, middle), and DAG sensor (red, bottom) with 5 µM Grb2 and 2 µM SOS-PR in solution at t = 15 min. The entire FOV is 50 x 50 µm (scale bar = 10 µm) with an inset showing a 4X expansion of the center 5 x 5 µm patch (scale bar = 2.5 µm). D. A binary image mask for LAT segmented into condensed (gold) and disperse (grey) areas obtained from Gaussian filtration (σ=1) and thresholding of the LAT-Ax555 image in (A). Inset and scale bars are equivalent to those in (A). (E)-(F) Images showing the effect of applying the binary LAT mask to PLCγ1-mNG (green) and DAG sensor (red) channels. Only the outline of the applied mask is shown for visibility. Insets and scale bars are equivalent to those in (B-C). (G)-(I) Histograms of relative pixel intensities for LAT-Ax555 (gold, top), PLCγ1-mNG (green, middle), and DAG sensor (red, bottom). Pixel intensities were normalized to the median value for all pixels. Values greater than 1 indicate an increase in brightness from the overall median, while values less than 1 indicate a decrease. Histograms for all pixels are displayed in full color in the background. Histograms for pixels that are in areas of condensed LAT are shown in translucent white in the foreground. Pixel histograms for disperse LAT areas are shown in translucent grey. Dotted lines denoting the median of each histogram are decorated with an icon corresponding to the LAT mask for all pixels (gold and grey), LAT condensed (gold only), or LAT disperse (grey only). Median fold change values for each histogram are displayed in the top right for clarity. Lipid compositions for all experiments (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 (10% labeled).

Journal: bioRxiv

Article Title: Supported membrane assay probes PLCγ1 activity in LAT condensates

doi: 10.64898/2026.01.23.701188

Figure Lengend Snippet: (A)-(C) Field-corrected images of LAT-Alexa 555 (Ax555) (gold, top), PLCγ1-mNG (green, middle), and DAG sensor (red, bottom) with 5 µM Grb2 and 2 µM SOS-PR in solution at t = 15 min. The entire FOV is 50 x 50 µm (scale bar = 10 µm) with an inset showing a 4X expansion of the center 5 x 5 µm patch (scale bar = 2.5 µm). D. A binary image mask for LAT segmented into condensed (gold) and disperse (grey) areas obtained from Gaussian filtration (σ=1) and thresholding of the LAT-Ax555 image in (A). Inset and scale bars are equivalent to those in (A). (E)-(F) Images showing the effect of applying the binary LAT mask to PLCγ1-mNG (green) and DAG sensor (red) channels. Only the outline of the applied mask is shown for visibility. Insets and scale bars are equivalent to those in (B-C). (G)-(I) Histograms of relative pixel intensities for LAT-Ax555 (gold, top), PLCγ1-mNG (green, middle), and DAG sensor (red, bottom). Pixel intensities were normalized to the median value for all pixels. Values greater than 1 indicate an increase in brightness from the overall median, while values less than 1 indicate a decrease. Histograms for all pixels are displayed in full color in the background. Histograms for pixels that are in areas of condensed LAT are shown in translucent white in the foreground. Pixel histograms for disperse LAT areas are shown in translucent grey. Dotted lines denoting the median of each histogram are decorated with an icon corresponding to the LAT mask for all pixels (gold and grey), LAT condensed (gold only), or LAT disperse (grey only). Median fold change values for each histogram are displayed in the top right for clarity. Lipid compositions for all experiments (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT density: ∼1500 µm -2 (10% labeled).

Article Snippet: Small unilamellar vesicles (SUVs) were made using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC), 1,2-dioleoyl-sn-glycero-3-[(N-carboxypentyl)iminidiacetic acid)succinyl] (nickel salt) (Ni2+-NTA-DGS), and L-α-phosphatidylinositol-4,5-bisphosphate (Brain, Porcine) (ammonium salt) (Brain PIP 2 ) (Avanti Polar Lipids).

Techniques: Filtration, Labeling

(A) TIRF images (5 x 5 µm, scale bars = 2 µm) of PLCγ1-mNG in different conditions corresponding to the distributions below. From left to right: PLCγ1-mNG only (with 2 µL control lysate), PLCγ1-mNG + Gads:SLP76 (from lysate, 1 µL each), PLCγ1-mNG + Grb2:SOS-PR (purified, 6 µM:2 µM respectively), and PLCγ1-mNG + all previously described adapters. LAT-Ax555 (10% labeled) was used in this experiment but was determined to have negligible contribution in the PLCγ1-mNG channel. (B) Half-violin plots showing distributions of relative v obs (grey, left axis) and relative PLCγ1-mNG density (green, right axis), normalized to PLCγ1 only conditions. Compact box plots overlay the distributions to convey statistics. Median values for v obs (m v ) and PLCγ1-mNG density (m PLCγ1 ) are expressly denoted for clarity. (C) TIRF images (5 x 5 µm, scale bars = 2 µm) of PLCγ1-mNG in different conditions corresponding to the distributions below. From left to right: PLCγ1-mNG only (no control lysate), PLCγ1-mNG pre-phosphorylated by 1 µM BTK-KD in solution for 1 hr, and similarly pre-phosphorylated PLCγ1-mNG + Grb2:SOS-PR (purified, 6 µM:2 µM respectively). Hck was on the membrane for all experiments. Unlabeled LAT was used in this experiment. (D) Half-violin plots showing distributions of relative v obs (grey, left axis) and relative PLCγ1-mNG density (green, right axis), normalized to PLCγ1 only conditions (no pre-phosphorylation). Compact box plots overlay the distributions to convey statistics. Median values for v obs (m v ) and PLCγ1-mNG density (m ρ ) are expressly denoted for clarity. Lipid compositions for all experiments (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT densities: ∼1500 µm -2 .

Journal: bioRxiv

Article Title: Supported membrane assay probes PLCγ1 activity in LAT condensates

doi: 10.64898/2026.01.23.701188

Figure Lengend Snippet: (A) TIRF images (5 x 5 µm, scale bars = 2 µm) of PLCγ1-mNG in different conditions corresponding to the distributions below. From left to right: PLCγ1-mNG only (with 2 µL control lysate), PLCγ1-mNG + Gads:SLP76 (from lysate, 1 µL each), PLCγ1-mNG + Grb2:SOS-PR (purified, 6 µM:2 µM respectively), and PLCγ1-mNG + all previously described adapters. LAT-Ax555 (10% labeled) was used in this experiment but was determined to have negligible contribution in the PLCγ1-mNG channel. (B) Half-violin plots showing distributions of relative v obs (grey, left axis) and relative PLCγ1-mNG density (green, right axis), normalized to PLCγ1 only conditions. Compact box plots overlay the distributions to convey statistics. Median values for v obs (m v ) and PLCγ1-mNG density (m PLCγ1 ) are expressly denoted for clarity. (C) TIRF images (5 x 5 µm, scale bars = 2 µm) of PLCγ1-mNG in different conditions corresponding to the distributions below. From left to right: PLCγ1-mNG only (no control lysate), PLCγ1-mNG pre-phosphorylated by 1 µM BTK-KD in solution for 1 hr, and similarly pre-phosphorylated PLCγ1-mNG + Grb2:SOS-PR (purified, 6 µM:2 µM respectively). Hck was on the membrane for all experiments. Unlabeled LAT was used in this experiment. (D) Half-violin plots showing distributions of relative v obs (grey, left axis) and relative PLCγ1-mNG density (green, right axis), normalized to PLCγ1 only conditions (no pre-phosphorylation). Compact box plots overlay the distributions to convey statistics. Median values for v obs (m v ) and PLCγ1-mNG density (m ρ ) are expressly denoted for clarity. Lipid compositions for all experiments (mol%): 94:4:2 DOPC:Ni-DGS:PIP 2 . LAT densities: ∼1500 µm -2 .

Article Snippet: Small unilamellar vesicles (SUVs) were made using 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC), 1,2-dioleoyl-sn-glycero-3-[(N-carboxypentyl)iminidiacetic acid)succinyl] (nickel salt) (Ni2+-NTA-DGS), and L-α-phosphatidylinositol-4,5-bisphosphate (Brain, Porcine) (ammonium salt) (Brain PIP 2 ) (Avanti Polar Lipids).

Techniques: Control, Purification, Labeling, Membrane, Phospho-proteomics