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86
Thermo Fisher antibody against green fluorescent protein
Most Atpα -CMT2 flies have motor and sensory defects and an abnormal circadian neuron dendritic morphology. (A) Images of control, Atpα -CMT2, and mutant flies expressing nSybGFP in the neuromuscular junction of third instar larvae. Staining with <t>anti-GFP</t> antibody revealed the morphology of neuromuscular junctions. All Atpα -CMT2 and mutant flies showed a decrease in synapse number and length. We utilized an online post hoc power calculator (https://clincalc.com/stats/Power.aspx) to assess statistical power, with a false positive rate set at 0.05. Except for the statistical power of Atpα mut/+ in the synapse length group, which is 56.4%, the statistical power of the other significantly different groups exceed 83.5%. (B) Plots of synapse number (left) and length (right) in control, Atpα -CMT2, and mutant flies ( n = 6–10). One-way analysis of variance with Tukey’s multiple comparison test were used. (C) Images of control, Atpα -CMT2, and mutant brains with Class IV multidendritic sensory neurons in the third instar larval body wall visualized by ppk -GAL4-driven mCD8-GFP. Except for Atpα D580F/+ and Atpα mut/+ , all other heterozygous Atpα -CMT2 flies showed significantly reduced dendritic branching. (D) Plots of dendritic branch number in control, Atpα -CMT2, and mutant flies ( n = 15–20). Dendritic branch number was compared using the nonparametric Kruskal-Wallis test with Dunn’s multiple comparison test. The statistical powers of the significantly different groups are between 94.7% and 100%. (E) Left: Image of a circadian circuit in a control brain, visualized by staining with anti-PDF antibodies. sLNvs and lLNvs indicate small and large ventral lateral neurons. Right: The region analyzed. (F) Images of representative PDF dorsal axonal projections from control, Atpα -CMT2, and mutant flies taken during the early day (ZT2) and early night (ZT14). Apart from Atpα mut/+ , there was a significant decrease in axonal arbor complexity of the PDF circuit in Atpα -CMT2 flies. (G) Quantification of the total number of intersections between concentric rings and axonal projections at ZT2 and ZT14 ( n = 8–11). Data were analyzed by one-way analysis of variance with Tukey’s multiple comparison test. The statistical powers of the significantly different groups are between 76.9% and 100%. * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001. Error bars represent SEM. Atpα : Na pump α subunit; CMT2: Charcot-Marie-Tooth disease type 2; Gal4: galactose-responsive transcription factor GAL4; GFP: green <t>fluorescent</t> protein; lLNv: large ventral lateral clock neurons; ns: not significant; PDF: pigment-dispersing factor; ppk: polyphosphate kinase; sLNv: small ventral lateral clock neurons; ZT: zeitgeber time.
Antibody Against Green Fluorescent Protein, supplied by Thermo Fisher, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Danaher Inc monoclonal antibodies against gfp tag
Most Atpα -CMT2 flies have motor and sensory defects and an abnormal circadian neuron dendritic morphology. (A) Images of control, Atpα -CMT2, and mutant flies expressing nSybGFP in the neuromuscular junction of third instar larvae. Staining with <t>anti-GFP</t> antibody revealed the morphology of neuromuscular junctions. All Atpα -CMT2 and mutant flies showed a decrease in synapse number and length. We utilized an online post hoc power calculator (https://clincalc.com/stats/Power.aspx) to assess statistical power, with a false positive rate set at 0.05. Except for the statistical power of Atpα mut/+ in the synapse length group, which is 56.4%, the statistical power of the other significantly different groups exceed 83.5%. (B) Plots of synapse number (left) and length (right) in control, Atpα -CMT2, and mutant flies ( n = 6–10). One-way analysis of variance with Tukey’s multiple comparison test were used. (C) Images of control, Atpα -CMT2, and mutant brains with Class IV multidendritic sensory neurons in the third instar larval body wall visualized by ppk -GAL4-driven mCD8-GFP. Except for Atpα D580F/+ and Atpα mut/+ , all other heterozygous Atpα -CMT2 flies showed significantly reduced dendritic branching. (D) Plots of dendritic branch number in control, Atpα -CMT2, and mutant flies ( n = 15–20). Dendritic branch number was compared using the nonparametric Kruskal-Wallis test with Dunn’s multiple comparison test. The statistical powers of the significantly different groups are between 94.7% and 100%. (E) Left: Image of a circadian circuit in a control brain, visualized by staining with anti-PDF antibodies. sLNvs and lLNvs indicate small and large ventral lateral neurons. Right: The region analyzed. (F) Images of representative PDF dorsal axonal projections from control, Atpα -CMT2, and mutant flies taken during the early day (ZT2) and early night (ZT14). Apart from Atpα mut/+ , there was a significant decrease in axonal arbor complexity of the PDF circuit in Atpα -CMT2 flies. (G) Quantification of the total number of intersections between concentric rings and axonal projections at ZT2 and ZT14 ( n = 8–11). Data were analyzed by one-way analysis of variance with Tukey’s multiple comparison test. The statistical powers of the significantly different groups are between 76.9% and 100%. * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001. Error bars represent SEM. Atpα : Na pump α subunit; CMT2: Charcot-Marie-Tooth disease type 2; Gal4: galactose-responsive transcription factor GAL4; GFP: green <t>fluorescent</t> protein; lLNv: large ventral lateral clock neurons; ns: not significant; PDF: pigment-dispersing factor; ppk: polyphosphate kinase; sLNv: small ventral lateral clock neurons; ZT: zeitgeber time.
Monoclonal Antibodies Against Gfp Tag, supplied by Danaher Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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TransGen biotech co antibodies against gfp
Most Atpα -CMT2 flies have motor and sensory defects and an abnormal circadian neuron dendritic morphology. (A) Images of control, Atpα -CMT2, and mutant flies expressing nSybGFP in the neuromuscular junction of third instar larvae. Staining with <t>anti-GFP</t> antibody revealed the morphology of neuromuscular junctions. All Atpα -CMT2 and mutant flies showed a decrease in synapse number and length. We utilized an online post hoc power calculator (https://clincalc.com/stats/Power.aspx) to assess statistical power, with a false positive rate set at 0.05. Except for the statistical power of Atpα mut/+ in the synapse length group, which is 56.4%, the statistical power of the other significantly different groups exceed 83.5%. (B) Plots of synapse number (left) and length (right) in control, Atpα -CMT2, and mutant flies ( n = 6–10). One-way analysis of variance with Tukey’s multiple comparison test were used. (C) Images of control, Atpα -CMT2, and mutant brains with Class IV multidendritic sensory neurons in the third instar larval body wall visualized by ppk -GAL4-driven mCD8-GFP. Except for Atpα D580F/+ and Atpα mut/+ , all other heterozygous Atpα -CMT2 flies showed significantly reduced dendritic branching. (D) Plots of dendritic branch number in control, Atpα -CMT2, and mutant flies ( n = 15–20). Dendritic branch number was compared using the nonparametric Kruskal-Wallis test with Dunn’s multiple comparison test. The statistical powers of the significantly different groups are between 94.7% and 100%. (E) Left: Image of a circadian circuit in a control brain, visualized by staining with anti-PDF antibodies. sLNvs and lLNvs indicate small and large ventral lateral neurons. Right: The region analyzed. (F) Images of representative PDF dorsal axonal projections from control, Atpα -CMT2, and mutant flies taken during the early day (ZT2) and early night (ZT14). Apart from Atpα mut/+ , there was a significant decrease in axonal arbor complexity of the PDF circuit in Atpα -CMT2 flies. (G) Quantification of the total number of intersections between concentric rings and axonal projections at ZT2 and ZT14 ( n = 8–11). Data were analyzed by one-way analysis of variance with Tukey’s multiple comparison test. The statistical powers of the significantly different groups are between 76.9% and 100%. * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001. Error bars represent SEM. Atpα : Na pump α subunit; CMT2: Charcot-Marie-Tooth disease type 2; Gal4: galactose-responsive transcription factor GAL4; GFP: green <t>fluorescent</t> protein; lLNv: large ventral lateral clock neurons; ns: not significant; PDF: pigment-dispersing factor; ppk: polyphosphate kinase; sLNv: small ventral lateral clock neurons; ZT: zeitgeber time.
Antibodies Against Gfp, supplied by TransGen biotech co, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Danaher Inc antibodies against gfp
(A) Immunostaining. Dissected intestines were stained <t>with</t> <t>antibodies</t> against <t>GFP</t> and the nuclear pore complex (NPC) proteins. All images were acquired using the same setting and magnification. Scale bar: 20μm. (B) The ratio of GFP intensities in the nucleus to the cytoplasm. Below are the images of SKN-1::GFP (green) dynamics and NPC proteins (red). Not significant (ns), p > 0.05; *, 0.01 < p ≤ 0.05, **, 0.001 < p ≤ 0.01; ***, 0.0001 < p ≤ 0.001; **** p ≤ 0.0001.
Antibodies Against Gfp, supplied by Danaher Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Danaher Inc rabbit polyclonal antibody against gfp
(A) Immunostaining. Dissected intestines were stained <t>with</t> <t>antibodies</t> against <t>GFP</t> and the nuclear pore complex (NPC) proteins. All images were acquired using the same setting and magnification. Scale bar: 20μm. (B) The ratio of GFP intensities in the nucleus to the cytoplasm. Below are the images of SKN-1::GFP (green) dynamics and NPC proteins (red). Not significant (ns), p > 0.05; *, 0.01 < p ≤ 0.05, **, 0.001 < p ≤ 0.01; ***, 0.0001 < p ≤ 0.001; **** p ≤ 0.0001.
Rabbit Polyclonal Antibody Against Gfp, supplied by Danaher Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Millipore chicken pab against green fluorescent protein gfp
( A ) An image of a direct gramicidin patch recording from a dendrite. Magnified view of the patched branch in yellow (left). ( B ) V m trace recorded from a dendritic branch [shown in (A)]. ( C ) V m rest measured by gramicidin patch from dendrites ( n = 8 cells) and soma ( n = 10 cells) is plotted against the distance from the soma. ( D ) Somatic (blue, n = 19 cells) and dendritic (green, n = 11 cells) V m rest with or without 10 μM VU0463271 (soma: yellow, n = 9 cells; dendrite: red, n = 11 cells). Dunnett’s test, ** P < 0.01; n.s., not significant. ( E and F ) V m rest (E) and leak conductance (F) plotted against distance from the soma. VU, VU0463271. ( G ) Representative gramicidin patch currents recorded from the soma (left) or a dendritic branch (right) in response to spot uncaging of DPNI-caged GABA at the recording sites, with altered holding V m indicated by different colors. ( H ) GABA currents at a dendrite (red) or at the soma (blue) plotted against the holding V m . ( I ) Images of immunostained KCC2 (magenta) in green <t>fluorescent</t> protein <t>(GFP)–labeled</t> hippocampal neurons (green). Three rectangular areas (a to c) were expanded with merged colors (middle), and the fluorescent signals for KCC2 and GFP along a line in each area are plotted on the right. ( J ) Relative fluorescent intensity of GFP (green) and KCC2 (red) plotted against the distance from the soma.
Chicken Pab Against Green Fluorescent Protein Gfp, supplied by Millipore, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Roche antibodies against gfp
(A) Fluorescence images of the early PAS droplets supplemented with each Atg protein. Atg12–5–16 images are the same as those used in . Scale bar = 10 μm. (B) Quantification of fluorescence intensity of SNAP–Atg16 in the droplets in (A). * P = 1.04 × 10 −2 , **** P = 6.3 × 10 −6 (Atg12-5-16 <t>vs.</t> <t>Atg5-16),</t> 4.0 × 10 −5 (Atg12–5–16 vs. Atg12ΔIDR–5–16), using a two-sided Tukey’s multiple comparisons test. (C) Fluorescence images of the early PAS droplets supplemented with GB1– Atg12 17BH . Scale bar = 10 μm. (D) Fluorescence images of <t>GFP–Atg5</t> and mCherry–Atg17 in yeast cells. Scale bar = 5 μm. (E) Quantification of the colocalization of GFP–Atg5 with mCherry–Atg17 at the PAS puncta in (D). Number of PAS puncta: n = 1,548 (WT), 1,990 (V43A), 1,815 (L47A), 1,710 (L54A), and 1,829 (L57A). **** P < 1.0 × 10 −15 , using a two-sided Dunn’s multiple comparisons test. See also Figure S3.
Antibodies Against Gfp, supplied by Roche, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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TaKaRa antibodies against gfp
(A) Fluorescence images of the early PAS droplets supplemented with each Atg protein. Atg12–5–16 images are the same as those used in . Scale bar = 10 μm. (B) Quantification of fluorescence intensity of SNAP–Atg16 in the droplets in (A). * P = 1.04 × 10 −2 , **** P = 6.3 × 10 −6 (Atg12-5-16 <t>vs.</t> <t>Atg5-16),</t> 4.0 × 10 −5 (Atg12–5–16 vs. Atg12ΔIDR–5–16), using a two-sided Tukey’s multiple comparisons test. (C) Fluorescence images of the early PAS droplets supplemented with GB1– Atg12 17BH . Scale bar = 10 μm. (D) Fluorescence images of <t>GFP–Atg5</t> and mCherry–Atg17 in yeast cells. Scale bar = 5 μm. (E) Quantification of the colocalization of GFP–Atg5 with mCherry–Atg17 at the PAS puncta in (D). Number of PAS puncta: n = 1,548 (WT), 1,990 (V43A), 1,815 (L47A), 1,710 (L54A), and 1,829 (L57A). **** P < 1.0 × 10 −15 , using a two-sided Dunn’s multiple comparisons test. See also Figure S3.
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Image Search Results


Most Atpα -CMT2 flies have motor and sensory defects and an abnormal circadian neuron dendritic morphology. (A) Images of control, Atpα -CMT2, and mutant flies expressing nSybGFP in the neuromuscular junction of third instar larvae. Staining with anti-GFP antibody revealed the morphology of neuromuscular junctions. All Atpα -CMT2 and mutant flies showed a decrease in synapse number and length. We utilized an online post hoc power calculator (https://clincalc.com/stats/Power.aspx) to assess statistical power, with a false positive rate set at 0.05. Except for the statistical power of Atpα mut/+ in the synapse length group, which is 56.4%, the statistical power of the other significantly different groups exceed 83.5%. (B) Plots of synapse number (left) and length (right) in control, Atpα -CMT2, and mutant flies ( n = 6–10). One-way analysis of variance with Tukey’s multiple comparison test were used. (C) Images of control, Atpα -CMT2, and mutant brains with Class IV multidendritic sensory neurons in the third instar larval body wall visualized by ppk -GAL4-driven mCD8-GFP. Except for Atpα D580F/+ and Atpα mut/+ , all other heterozygous Atpα -CMT2 flies showed significantly reduced dendritic branching. (D) Plots of dendritic branch number in control, Atpα -CMT2, and mutant flies ( n = 15–20). Dendritic branch number was compared using the nonparametric Kruskal-Wallis test with Dunn’s multiple comparison test. The statistical powers of the significantly different groups are between 94.7% and 100%. (E) Left: Image of a circadian circuit in a control brain, visualized by staining with anti-PDF antibodies. sLNvs and lLNvs indicate small and large ventral lateral neurons. Right: The region analyzed. (F) Images of representative PDF dorsal axonal projections from control, Atpα -CMT2, and mutant flies taken during the early day (ZT2) and early night (ZT14). Apart from Atpα mut/+ , there was a significant decrease in axonal arbor complexity of the PDF circuit in Atpα -CMT2 flies. (G) Quantification of the total number of intersections between concentric rings and axonal projections at ZT2 and ZT14 ( n = 8–11). Data were analyzed by one-way analysis of variance with Tukey’s multiple comparison test. The statistical powers of the significantly different groups are between 76.9% and 100%. * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001. Error bars represent SEM. Atpα : Na pump α subunit; CMT2: Charcot-Marie-Tooth disease type 2; Gal4: galactose-responsive transcription factor GAL4; GFP: green fluorescent protein; lLNv: large ventral lateral clock neurons; ns: not significant; PDF: pigment-dispersing factor; ppk: polyphosphate kinase; sLNv: small ventral lateral clock neurons; ZT: zeitgeber time.

Journal: Neural Regeneration Research

Article Title: Drosophila models used to simulate human ATP1A1 gene mutations that cause Charcot-Marie-Tooth type 2 disease and refractory seizures

doi: 10.4103/1673-5374.391302

Figure Lengend Snippet: Most Atpα -CMT2 flies have motor and sensory defects and an abnormal circadian neuron dendritic morphology. (A) Images of control, Atpα -CMT2, and mutant flies expressing nSybGFP in the neuromuscular junction of third instar larvae. Staining with anti-GFP antibody revealed the morphology of neuromuscular junctions. All Atpα -CMT2 and mutant flies showed a decrease in synapse number and length. We utilized an online post hoc power calculator (https://clincalc.com/stats/Power.aspx) to assess statistical power, with a false positive rate set at 0.05. Except for the statistical power of Atpα mut/+ in the synapse length group, which is 56.4%, the statistical power of the other significantly different groups exceed 83.5%. (B) Plots of synapse number (left) and length (right) in control, Atpα -CMT2, and mutant flies ( n = 6–10). One-way analysis of variance with Tukey’s multiple comparison test were used. (C) Images of control, Atpα -CMT2, and mutant brains with Class IV multidendritic sensory neurons in the third instar larval body wall visualized by ppk -GAL4-driven mCD8-GFP. Except for Atpα D580F/+ and Atpα mut/+ , all other heterozygous Atpα -CMT2 flies showed significantly reduced dendritic branching. (D) Plots of dendritic branch number in control, Atpα -CMT2, and mutant flies ( n = 15–20). Dendritic branch number was compared using the nonparametric Kruskal-Wallis test with Dunn’s multiple comparison test. The statistical powers of the significantly different groups are between 94.7% and 100%. (E) Left: Image of a circadian circuit in a control brain, visualized by staining with anti-PDF antibodies. sLNvs and lLNvs indicate small and large ventral lateral neurons. Right: The region analyzed. (F) Images of representative PDF dorsal axonal projections from control, Atpα -CMT2, and mutant flies taken during the early day (ZT2) and early night (ZT14). Apart from Atpα mut/+ , there was a significant decrease in axonal arbor complexity of the PDF circuit in Atpα -CMT2 flies. (G) Quantification of the total number of intersections between concentric rings and axonal projections at ZT2 and ZT14 ( n = 8–11). Data were analyzed by one-way analysis of variance with Tukey’s multiple comparison test. The statistical powers of the significantly different groups are between 76.9% and 100%. * P < 0.05, ** P < 0.01, *** P < 0.001, **** P < 0.0001. Error bars represent SEM. Atpα : Na pump α subunit; CMT2: Charcot-Marie-Tooth disease type 2; Gal4: galactose-responsive transcription factor GAL4; GFP: green fluorescent protein; lLNv: large ventral lateral clock neurons; ns: not significant; PDF: pigment-dispersing factor; ppk: polyphosphate kinase; sLNv: small ventral lateral clock neurons; ZT: zeitgeber time.

Article Snippet: To visualize neuromuscular junctions in third instar larvae, D42 -Gal4,UAS-nSyb-GFP flies (Bloomington Drosophila Stock Center, Bloomington, IN, USA, Cat# 9263) were prepared and stained overnight at 4°C with a primary antibody against green fluorescent protein (GFP; 1:1000, Thermo Fisher Scientific, Waltham, MA, USA, Cat# A11120, RRID: AB_221568).

Techniques: Control, Mutagenesis, Expressing, Staining, Comparison

(A) Immunostaining. Dissected intestines were stained with antibodies against GFP and the nuclear pore complex (NPC) proteins. All images were acquired using the same setting and magnification. Scale bar: 20μm. (B) The ratio of GFP intensities in the nucleus to the cytoplasm. Below are the images of SKN-1::GFP (green) dynamics and NPC proteins (red). Not significant (ns), p > 0.05; *, 0.01 < p ≤ 0.05, **, 0.001 < p ≤ 0.01; ***, 0.0001 < p ≤ 0.001; **** p ≤ 0.0001.

Journal: bioRxiv

Article Title: Sodium Benzoate Promotes Fat Accumulation and Aging via the SKN-1/Nrf2 Signaling Pathway: Evidence from the Caenorhabditis elegans Model

doi: 10.1101/2024.09.16.613358

Figure Lengend Snippet: (A) Immunostaining. Dissected intestines were stained with antibodies against GFP and the nuclear pore complex (NPC) proteins. All images were acquired using the same setting and magnification. Scale bar: 20μm. (B) The ratio of GFP intensities in the nucleus to the cytoplasm. Below are the images of SKN-1::GFP (green) dynamics and NPC proteins (red). Not significant (ns), p > 0.05; *, 0.01 < p ≤ 0.05, **, 0.001 < p ≤ 0.01; ***, 0.0001 < p ≤ 0.001; **** p ≤ 0.0001.

Article Snippet: After washing three times, the dissected intestines were incubated for 2 hours at 25°C in antibodies against GFP (Abcam, Waltham, MA; Cat#: ab6556) and nuclear pore complex (NPC) proteins (mAb414, Abcam, Waltham, MA; Cat#: ab24609) diluted (1:500) in 1×PBST/0.5% BSA solution.

Techniques: Immunostaining, Staining

( A ) An image of a direct gramicidin patch recording from a dendrite. Magnified view of the patched branch in yellow (left). ( B ) V m trace recorded from a dendritic branch [shown in (A)]. ( C ) V m rest measured by gramicidin patch from dendrites ( n = 8 cells) and soma ( n = 10 cells) is plotted against the distance from the soma. ( D ) Somatic (blue, n = 19 cells) and dendritic (green, n = 11 cells) V m rest with or without 10 μM VU0463271 (soma: yellow, n = 9 cells; dendrite: red, n = 11 cells). Dunnett’s test, ** P < 0.01; n.s., not significant. ( E and F ) V m rest (E) and leak conductance (F) plotted against distance from the soma. VU, VU0463271. ( G ) Representative gramicidin patch currents recorded from the soma (left) or a dendritic branch (right) in response to spot uncaging of DPNI-caged GABA at the recording sites, with altered holding V m indicated by different colors. ( H ) GABA currents at a dendrite (red) or at the soma (blue) plotted against the holding V m . ( I ) Images of immunostained KCC2 (magenta) in green fluorescent protein (GFP)–labeled hippocampal neurons (green). Three rectangular areas (a to c) were expanded with merged colors (middle), and the fluorescent signals for KCC2 and GFP along a line in each area are plotted on the right. ( J ) Relative fluorescent intensity of GFP (green) and KCC2 (red) plotted against the distance from the soma.

Journal: Science Advances

Article Title: Cl − -dependent amplification of excitatory synaptic potentials at distal dendrites revealed by voltage imaging

doi: 10.1126/sciadv.adj2547

Figure Lengend Snippet: ( A ) An image of a direct gramicidin patch recording from a dendrite. Magnified view of the patched branch in yellow (left). ( B ) V m trace recorded from a dendritic branch [shown in (A)]. ( C ) V m rest measured by gramicidin patch from dendrites ( n = 8 cells) and soma ( n = 10 cells) is plotted against the distance from the soma. ( D ) Somatic (blue, n = 19 cells) and dendritic (green, n = 11 cells) V m rest with or without 10 μM VU0463271 (soma: yellow, n = 9 cells; dendrite: red, n = 11 cells). Dunnett’s test, ** P < 0.01; n.s., not significant. ( E and F ) V m rest (E) and leak conductance (F) plotted against distance from the soma. VU, VU0463271. ( G ) Representative gramicidin patch currents recorded from the soma (left) or a dendritic branch (right) in response to spot uncaging of DPNI-caged GABA at the recording sites, with altered holding V m indicated by different colors. ( H ) GABA currents at a dendrite (red) or at the soma (blue) plotted against the holding V m . ( I ) Images of immunostained KCC2 (magenta) in green fluorescent protein (GFP)–labeled hippocampal neurons (green). Three rectangular areas (a to c) were expanded with merged colors (middle), and the fluorescent signals for KCC2 and GFP along a line in each area are plotted on the right. ( J ) Relative fluorescent intensity of GFP (green) and KCC2 (red) plotted against the distance from the soma.

Article Snippet: The following antibodies were used: rabbit polyclonal antibody (pAb) against KCC2 (1:1000; Sigma-Aldrich, catalog no. 07-432) and ClC-2 (1:5000; Alomone Labs, Jerusalem, Israel, catalog no. ACL-002), chicken pAb against green fluorescent protein (GFP) (1:2000; Sigma-Aldrich, catalog no. AB16901), Alexa Fluor 568–conjugated pAb against rabbit immunoglobulin G (IgG) (1:400, Thermo Fisher Scientific, catalog no. A-11011), and Alexa Flour 488–conjugated pAb against chicken IgG (1:400; Thermo Fisher Scientific, catalog no. A-11039).

Techniques: Labeling

(A) Fluorescence images of the early PAS droplets supplemented with each Atg protein. Atg12–5–16 images are the same as those used in . Scale bar = 10 μm. (B) Quantification of fluorescence intensity of SNAP–Atg16 in the droplets in (A). * P = 1.04 × 10 −2 , **** P = 6.3 × 10 −6 (Atg12-5-16 vs. Atg5-16), 4.0 × 10 −5 (Atg12–5–16 vs. Atg12ΔIDR–5–16), using a two-sided Tukey’s multiple comparisons test. (C) Fluorescence images of the early PAS droplets supplemented with GB1– Atg12 17BH . Scale bar = 10 μm. (D) Fluorescence images of GFP–Atg5 and mCherry–Atg17 in yeast cells. Scale bar = 5 μm. (E) Quantification of the colocalization of GFP–Atg5 with mCherry–Atg17 at the PAS puncta in (D). Number of PAS puncta: n = 1,548 (WT), 1,990 (V43A), 1,815 (L47A), 1,710 (L54A), and 1,829 (L57A). **** P < 1.0 × 10 −15 , using a two-sided Dunn’s multiple comparisons test. See also Figure S3.

Journal: bioRxiv

Article Title: Phase separation promotes Atg8 lipidation for autophagy progression

doi: 10.1101/2024.08.29.610189

Figure Lengend Snippet: (A) Fluorescence images of the early PAS droplets supplemented with each Atg protein. Atg12–5–16 images are the same as those used in . Scale bar = 10 μm. (B) Quantification of fluorescence intensity of SNAP–Atg16 in the droplets in (A). * P = 1.04 × 10 −2 , **** P = 6.3 × 10 −6 (Atg12-5-16 vs. Atg5-16), 4.0 × 10 −5 (Atg12–5–16 vs. Atg12ΔIDR–5–16), using a two-sided Tukey’s multiple comparisons test. (C) Fluorescence images of the early PAS droplets supplemented with GB1– Atg12 17BH . Scale bar = 10 μm. (D) Fluorescence images of GFP–Atg5 and mCherry–Atg17 in yeast cells. Scale bar = 5 μm. (E) Quantification of the colocalization of GFP–Atg5 with mCherry–Atg17 at the PAS puncta in (D). Number of PAS puncta: n = 1,548 (WT), 1,990 (V43A), 1,815 (L47A), 1,710 (L54A), and 1,829 (L57A). **** P < 1.0 × 10 −15 , using a two-sided Dunn’s multiple comparisons test. See also Figure S3.

Article Snippet: For immunoblotting, antibodies against GFP (11814460001; Roche) and Atg5 were used.

Techniques: Fluorescence