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  • 94
    Alomone Labs glur2
    a-c , Synaptic vesicles were labeled live using an antibody against a luminal epitope of synaptotagmin 1 (Syt1, magenta). The vesicular glutamate transporter (vGluT1, blue) and PSD95 (gray) were immunostained using an antibody and a nanobody, respectively. a , Recently endocytosed vesicle exhibiting circular morphology. b , Readily retrievable pool molecules form patches containing Syt1/vGluT1 (top), which are dispersed by cholesterol extraction using MβCD (bottom). c , MβCD causes molecules to spread across larger areas (left: N = 22-19, 2 independent experiments, p < 0.0044, Mann-Whitney test; right: N = 22-22, 2 independent experiments, p = 0.8937), although the signal per vesicle (the Syt1 copy number) remains unchanged. d , A visualization of PSDs (top and side views), after immunostaining PSD95 with the same nanobody used in a-c, and Shank2 and Homer1 with specific antibodies. The graph indicates the axial positioning, which agrees well with the literature . N = 11 measurements for each protein, 2 independent experiments; symbols show the medians, SEM and SD. e , Side view of a postsynapse displaying PSD95, MAP2 and two glutamate receptors <t>(GluR2,</t> AMPA type, and GluN2b, NMDA type). f , ONE images of PSD95 (top views), before or after the addition of 10% 1,6-hexanediol (Hex). g , Line scans through the PSD95 stainings shown in panel f. h , An analysis of PSD95 spot profiles; N = 10-7 synapses, Friedman test followed by Dunn-Sidak testing, p = 0.0027; the error bars show the SEM. For details on the analysis, see .
    Glur2, supplied by Alomone Labs, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    91
    Alomone Labs rabbit anti glua2 c terminal
    a-c , Synaptic vesicles were labeled live using an antibody against a luminal epitope of synaptotagmin 1 (Syt1, magenta). The vesicular glutamate transporter (vGluT1, blue) and PSD95 (gray) were immunostained using an antibody and a nanobody, respectively. a , Recently endocytosed vesicle exhibiting circular morphology. b , Readily retrievable pool molecules form patches containing Syt1/vGluT1 (top), which are dispersed by cholesterol extraction using MβCD (bottom). c , MβCD causes molecules to spread across larger areas (left: N = 22-19, 2 independent experiments, p < 0.0044, Mann-Whitney test; right: N = 22-22, 2 independent experiments, p = 0.8937), although the signal per vesicle (the Syt1 copy number) remains unchanged. d , A visualization of PSDs (top and side views), after immunostaining PSD95 with the same nanobody used in a-c, and Shank2 and Homer1 with specific antibodies. The graph indicates the axial positioning, which agrees well with the literature . N = 11 measurements for each protein, 2 independent experiments; symbols show the medians, SEM and SD. e , Side view of a postsynapse displaying PSD95, MAP2 and two glutamate receptors <t>(GluR2,</t> AMPA type, and GluN2b, NMDA type). f , ONE images of PSD95 (top views), before or after the addition of 10% 1,6-hexanediol (Hex). g , Line scans through the PSD95 stainings shown in panel f. h , An analysis of PSD95 spot profiles; N = 10-7 synapses, Friedman test followed by Dunn-Sidak testing, p = 0.0027; the error bars show the SEM. For details on the analysis, see .
    Rabbit Anti Glua2 C Terminal, supplied by Alomone Labs, used in various techniques. Bioz Stars score: 91/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/rabbit anti glua2 c terminal/product/Alomone Labs
    Average 91 stars, based on 1 article reviews
    Price from $9.99 to $1999.99
    rabbit anti glua2 c terminal - by Bioz Stars, 2023-02
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    94
    Alomone Labs guinea pig anti ampa receptor 2 subunit
    Validation of differentially expressed genes using qRT-PCR. ( A–E ) qPCR verification of the expression of genes involved in biological process identified as enriched by GO analysis compared with WT control. (F) Fold change expression of Ca 2+ -permeable AMPAR subunit Gria1 , Gria3 and Gria4 mRNAs, relative to WT motor neurons at E12.5. (G) Relative expression of Adarb1 mRNA in SOD1 G93A motor neurons at E12.5. ( H ) Schema showing the position of the fully complementary miR-124 target site at the 5′-end of the mouse <t>Gria2</t> , 3′-UTR. The seed region of miR-124 is shown. Data represent mean ± SEM, unpaired student t -test, n = 5–7 biological replicates, * P < 0.05.
    Guinea Pig Anti Ampa Receptor 2 Subunit, supplied by Alomone Labs, used in various techniques. Bioz Stars score: 94/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/guinea pig anti ampa receptor 2 subunit/product/Alomone Labs
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    Price from $9.99 to $1999.99
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    Image Search Results


    a-c , Synaptic vesicles were labeled live using an antibody against a luminal epitope of synaptotagmin 1 (Syt1, magenta). The vesicular glutamate transporter (vGluT1, blue) and PSD95 (gray) were immunostained using an antibody and a nanobody, respectively. a , Recently endocytosed vesicle exhibiting circular morphology. b , Readily retrievable pool molecules form patches containing Syt1/vGluT1 (top), which are dispersed by cholesterol extraction using MβCD (bottom). c , MβCD causes molecules to spread across larger areas (left: N = 22-19, 2 independent experiments, p < 0.0044, Mann-Whitney test; right: N = 22-22, 2 independent experiments, p = 0.8937), although the signal per vesicle (the Syt1 copy number) remains unchanged. d , A visualization of PSDs (top and side views), after immunostaining PSD95 with the same nanobody used in a-c, and Shank2 and Homer1 with specific antibodies. The graph indicates the axial positioning, which agrees well with the literature . N = 11 measurements for each protein, 2 independent experiments; symbols show the medians, SEM and SD. e , Side view of a postsynapse displaying PSD95, MAP2 and two glutamate receptors (GluR2, AMPA type, and GluN2b, NMDA type). f , ONE images of PSD95 (top views), before or after the addition of 10% 1,6-hexanediol (Hex). g , Line scans through the PSD95 stainings shown in panel f. h , An analysis of PSD95 spot profiles; N = 10-7 synapses, Friedman test followed by Dunn-Sidak testing, p = 0.0027; the error bars show the SEM. For details on the analysis, see .

    Journal: bioRxiv

    Article Title: Expansion microscopy at one nanometer resolution

    doi: 10.1101/2022.08.03.502284

    Figure Lengend Snippet: a-c , Synaptic vesicles were labeled live using an antibody against a luminal epitope of synaptotagmin 1 (Syt1, magenta). The vesicular glutamate transporter (vGluT1, blue) and PSD95 (gray) were immunostained using an antibody and a nanobody, respectively. a , Recently endocytosed vesicle exhibiting circular morphology. b , Readily retrievable pool molecules form patches containing Syt1/vGluT1 (top), which are dispersed by cholesterol extraction using MβCD (bottom). c , MβCD causes molecules to spread across larger areas (left: N = 22-19, 2 independent experiments, p < 0.0044, Mann-Whitney test; right: N = 22-22, 2 independent experiments, p = 0.8937), although the signal per vesicle (the Syt1 copy number) remains unchanged. d , A visualization of PSDs (top and side views), after immunostaining PSD95 with the same nanobody used in a-c, and Shank2 and Homer1 with specific antibodies. The graph indicates the axial positioning, which agrees well with the literature . N = 11 measurements for each protein, 2 independent experiments; symbols show the medians, SEM and SD. e , Side view of a postsynapse displaying PSD95, MAP2 and two glutamate receptors (GluR2, AMPA type, and GluN2b, NMDA type). f , ONE images of PSD95 (top views), before or after the addition of 10% 1,6-hexanediol (Hex). g , Line scans through the PSD95 stainings shown in panel f. h , An analysis of PSD95 spot profiles; N = 10-7 synapses, Friedman test followed by Dunn-Sidak testing, p = 0.0027; the error bars show the SEM. For details on the analysis, see .

    Article Snippet: The primary antibodies used were anti synaptotagmin1 (SYT1, #105011 Synaptic Systems), anti Homer1 (#160 003, Synpatic Systems), anti Shank2 (#162204 Synaptic Systems), anti GluR2 (Alomone Labs, #AGC-005, Jerusalem, Israel), anti GluN2b (Neuromab 75-101, California, USA), anti MAP2 (Novus Biologicals #NB300-213), anti vGluT1 (#135304, Synaptic Systems), anti Bassoon (#ADI-VAM-PS003-F, Enzo, New York, USA).

    Techniques: Labeling, MANN-WHITNEY, Immunostaining

    Validation of differentially expressed genes using qRT-PCR. ( A–E ) qPCR verification of the expression of genes involved in biological process identified as enriched by GO analysis compared with WT control. (F) Fold change expression of Ca 2+ -permeable AMPAR subunit Gria1 , Gria3 and Gria4 mRNAs, relative to WT motor neurons at E12.5. (G) Relative expression of Adarb1 mRNA in SOD1 G93A motor neurons at E12.5. ( H ) Schema showing the position of the fully complementary miR-124 target site at the 5′-end of the mouse Gria2 , 3′-UTR. The seed region of miR-124 is shown. Data represent mean ± SEM, unpaired student t -test, n = 5–7 biological replicates, * P < 0.05.

    Journal: Brain Communications

    Article Title: α-Amino-3-hydroxyl-5-methyl-4-isoxazole-propionate receptor and RNA processing gene dysregulation are early determinants of selective motor neuron vulnerability in a mouse model of amyotrophic lateral sclerosis

    doi: 10.1093/braincomms/fcac081

    Figure Lengend Snippet: Validation of differentially expressed genes using qRT-PCR. ( A–E ) qPCR verification of the expression of genes involved in biological process identified as enriched by GO analysis compared with WT control. (F) Fold change expression of Ca 2+ -permeable AMPAR subunit Gria1 , Gria3 and Gria4 mRNAs, relative to WT motor neurons at E12.5. (G) Relative expression of Adarb1 mRNA in SOD1 G93A motor neurons at E12.5. ( H ) Schema showing the position of the fully complementary miR-124 target site at the 5′-end of the mouse Gria2 , 3′-UTR. The seed region of miR-124 is shown. Data represent mean ± SEM, unpaired student t -test, n = 5–7 biological replicates, * P < 0.05.

    Article Snippet: Primary antibodies were as follows: chicken anti-GFP (1:1000; Abcam; AB13970), rabbit anti-NeuN (1:1000; Abcam; AB104225), goat anti-ChAT (1:500; Abcam; AB34419) and guinea pig anti-AMPA receptor 2 subunit (GluA2) (1:500; Alomone Labs; AGP-073).

    Techniques: Quantitative RT-PCR, Expressing

    Expression of GluA2 in spinal cords of embryonic SOD1 G93A mice. Cross-sections of lumbar spinal cord from WT (HB9:GFP; WT) and SOD1 G93A (SOD1 G93A ; HB9:GFP) mice at (A–J) E12.5 and ( K–T ) E17.5. Double-immunolabelling for GFP, GluA2 and NeuN (Neuronal nuclei). Plots represent quantification analysis of GluA2 signal intensity in HB9:GFP motor neurons at ( U ) E12.5 and ( V ) E17.5. Data represent mean ± SEM, unpaired student t -test performed on n = 4 biological replicates, ∼50 neurons analysed per biological replicate, * P < 0.05. Scale bars 50 μm.

    Journal: Brain Communications

    Article Title: α-Amino-3-hydroxyl-5-methyl-4-isoxazole-propionate receptor and RNA processing gene dysregulation are early determinants of selective motor neuron vulnerability in a mouse model of amyotrophic lateral sclerosis

    doi: 10.1093/braincomms/fcac081

    Figure Lengend Snippet: Expression of GluA2 in spinal cords of embryonic SOD1 G93A mice. Cross-sections of lumbar spinal cord from WT (HB9:GFP; WT) and SOD1 G93A (SOD1 G93A ; HB9:GFP) mice at (A–J) E12.5 and ( K–T ) E17.5. Double-immunolabelling for GFP, GluA2 and NeuN (Neuronal nuclei). Plots represent quantification analysis of GluA2 signal intensity in HB9:GFP motor neurons at ( U ) E12.5 and ( V ) E17.5. Data represent mean ± SEM, unpaired student t -test performed on n = 4 biological replicates, ∼50 neurons analysed per biological replicate, * P < 0.05. Scale bars 50 μm.

    Article Snippet: Primary antibodies were as follows: chicken anti-GFP (1:1000; Abcam; AB13970), rabbit anti-NeuN (1:1000; Abcam; AB104225), goat anti-ChAT (1:500; Abcam; AB34419) and guinea pig anti-AMPA receptor 2 subunit (GluA2) (1:500; Alomone Labs; AGP-073).

    Techniques: Expressing

    Expression of GRIA2 and ADAR2 in iPSC motor neurons derived from ALS patients with SOD1 mutations and healthy control lines. Representative images of iPSC mature motor neurons derived from ( A–E ) healthy control line and ( F–J ) SOD1 I114T line, immunolabelled with ChAT, GluA2 and TUJ1, counterstained with Hoechst. ( K ) Plot represents quantification analysis of GluA2 signal intensity in iPSC motor neurons. Data represent mean ± SEM, unpaired student t -test performed on n = 3 biological replicates, 50 neurons analysed per biological replicate. (L) Fold change expression of GRIA2 in SOD1 lines, compared with healthy control line determined by qRT-PCR. ( M ) Fold change expression of ADAR2 in SOD1 lines, compared with healthy control line determined by qRT-PCR. Data represent mean ± SEM, n = 3 biological replicates, one-way ANOVA with Dunnett's multiple comparison test, * P < 0.01, ** P < 0.005. Scale bars 50 μm.

    Journal: Brain Communications

    Article Title: α-Amino-3-hydroxyl-5-methyl-4-isoxazole-propionate receptor and RNA processing gene dysregulation are early determinants of selective motor neuron vulnerability in a mouse model of amyotrophic lateral sclerosis

    doi: 10.1093/braincomms/fcac081

    Figure Lengend Snippet: Expression of GRIA2 and ADAR2 in iPSC motor neurons derived from ALS patients with SOD1 mutations and healthy control lines. Representative images of iPSC mature motor neurons derived from ( A–E ) healthy control line and ( F–J ) SOD1 I114T line, immunolabelled with ChAT, GluA2 and TUJ1, counterstained with Hoechst. ( K ) Plot represents quantification analysis of GluA2 signal intensity in iPSC motor neurons. Data represent mean ± SEM, unpaired student t -test performed on n = 3 biological replicates, 50 neurons analysed per biological replicate. (L) Fold change expression of GRIA2 in SOD1 lines, compared with healthy control line determined by qRT-PCR. ( M ) Fold change expression of ADAR2 in SOD1 lines, compared with healthy control line determined by qRT-PCR. Data represent mean ± SEM, n = 3 biological replicates, one-way ANOVA with Dunnett's multiple comparison test, * P < 0.01, ** P < 0.005. Scale bars 50 μm.

    Article Snippet: Primary antibodies were as follows: chicken anti-GFP (1:1000; Abcam; AB13970), rabbit anti-NeuN (1:1000; Abcam; AB104225), goat anti-ChAT (1:500; Abcam; AB34419) and guinea pig anti-AMPA receptor 2 subunit (GluA2) (1:500; Alomone Labs; AGP-073).

    Techniques: Expressing, Derivative Assay, Quantitative RT-PCR