価格表
在庫・価格 : 2024年06月01日 05時39分 現在
| 商品名 | 商品コード | メーカー | 包装 | 価格 | 在庫 | リスト |
|---|---|---|---|---|---|---|
|
Anti-GluR2, Rabbit-Poly <Anti-Glu Receptor 2> <Anti-AMPA 2> <Anti-GluA 2> データシート |
182103 |
SS2シナプティックシステムズ Synaptic Systems GmbH |
50 μg | ¥105,000 |
無 (未発注) |
追加 |
在庫・価格 : 2024年06月01日 05時39分 現在
使用文献
| No. | 文献情報 | 備考 | 参照 |
|---|---|---|---|
| 1 |
Poulopoulos A et al. Homodimerization and isoform-specific heterodimerization of neuroligins. Biochem. J. 2012 Sep;446(2):321-30 Poulopoulos A et al 2012/01/01 |
application: WB |  |
| 2 |
Garcia-Alvarez G et al. STIM2 regulates PKA-dependent phosphorylation and trafficking of AMPARs. Mol. Biol. Cell 2015 Mar;26(6):1141-59 Garcia-Alvarez G et al 2015/01/01 |
application: WB | |
| 3 |
Acuna C et al. How to Make an Active Zone: Unexpected Universal Functional Redundancy between RIMs and RIM-BPs. Neuron 2016 Aug;91(4):792-807 Acuna C et al 2016/01/01 |
application: WB | |
| 4 |
Rajgor D et al. The PICK1 Ca<sup>2+</sup> sensor modulates <i>N</i>-methyl-d-aspartate (NMDA) receptor-dependent microRNA-mediated translational repression in neurons. J. Biol. Chem. 2017 06;292(23):9774-9786 Rajgor D et al 2017/01/01 |
application: WB | |
| 5 |
Fiuza M et al. PICK1 regulates AMPA receptor endocytosis via direct interactions with AP2 α-appendage and dynamin. J. Cell Biol. 2017 10;216(10):3323-3338 Fiuza M et al 2017/01/01 |
application: ICC, WB, species: rat | |
| 6 |
Huupponen J et al. Ongoing intrinsic synchronous activity is required for the functional maturation of CA3-CA1 glutamatergic synapses. Cereb. Cortex 2013 Nov;23(11):2754-64 Huupponen J et al 2013/01/01 |
application: WB, species: rat | |
| 7 |
Carmichael RE et al. MEF2A regulates mGluR-dependent AMPA receptor trafficking independently of Arc/Arg3.1. Sci Rep 2018 Mar;8(1):5263 Carmichael RE et al 2018/01/01 |
application: WB, species: rat | |
| 8 |
Parkinson GT et al. Cortactin regulates endo-lysosomal sorting of AMPARs via direct interaction with GluA2 subunit. Sci Rep 2018 Mar;8(1):4155 Parkinson GT et al 2018/01/01 |
application: WB | |
| 9 |
Rajgor D et al. NMDAR-dependent Argonaute 2 phosphorylation regulates miRNA activity and dendritic spine plasticity. EMBO J. 2018 Jun;37(11) Rajgor D et al 2018/01/01 |
application: WB, species: mouse | |
| 10 |
Mignogna ML et al. The intellectual disability protein RAB39B selectively regulates GluA2 trafficking to determine synaptic AMPAR composition. Nat Commun 2015 Mar;6:6504 Mignogna ML et al 2015/01/01 |
application: WB, species: mouse | |
| 11 |
Binda CS et al. Sorting nexin 27 rescues neuroligin 2 from lysosomal degradation to control inhibitory synapse number. Biochem J 2019 01;476(2):293-306 Binda CS et al 2019/01/01 |
|
|
| 12 |
Shrivastava AN et al. Clustering of Tau fibrils impairs the synaptic composition of α3-Na<sup>+</sup>/K<sup>+</sup>-ATPase and AMPA receptors. EMBO J 2019 02;38(3) Shrivastava AN et al 2019/01/01 |
|
|
| 13 |
Aguayo FI et al. Hippocampal Memory Recovery After Acute Stress: A Behavioral, Morphological and Molecular Study. Front Mol Neurosci 2018;11:283 Aguayo FI et al 2018/01/01 |
|
|
| 14 |
Pacheco A et al. Chronic Stress Triggers Expression of Immediate Early Genes and Differentially Affects the Expression of AMPA and NMDA Subunits in Dorsal and Ventral Hippocampus of Rats. Front Mol Neurosci 2017;10:244 Pacheco A et al 2017/01/01 |
|
|
| 15 |
Ji Z et al. Kibra Modulates Learning and Memory via Binding to Dendrin. Cell Rep 2019 02;26(8):2064-2077.e7 Ji Z et al 2019/01/01 |
|
|
| 16 |
Won S et al. The STEP<sub>61</sub> interactome reveals subunit-specific AMPA receptor binding and synaptic regulation. Proc Natl Acad Sci U S A 2019 04;116(16):8028-8037 Won S et al 2019/01/01 |
|
|
| 17 |
Sclip A et al. LAR receptor phospho-tyrosine phosphatases regulate NMDA-receptor responses. Elife 2020 Jan;9 Sclip A et al 2020/01/01 |
|
|
| 18 |
Lin CI et al. Blue Light Promotes Neurite Outgrowth of Retinal Explants in Postnatal ChR2 Mice. eNeuro ;6(4) Lin CI et al |
|
|
| 19 |
Peter S et al. Dysfunctional cerebellar Purkinje cells contribute to autism-like behaviour in Shank2-deficient mice. Nat Commun 2016 09;7:12627 Peter S et al 2016/01/01 |
|
|
| 20 |
Holderith N et al. A High-Resolution Method for Quantitative Molecular Analysis of Functionally Characterized Individual Synapses. Cell Rep 2020 07;32(4):107968 Holderith N et al 2020/01/01 |
|
|
| 21 |
Gurung S et al. ADAR2-mediated Q/R editing of GluK2 regulates kainate receptor upscaling in response to suppression of synaptic activity. J Cell Sci 2018 12;131(24) Gurung S et al 2018/01/01 |
|
|
| 22 |
D鱈az-Alonso J et al. Long-term potentiation is independent of the C-tail of the GluA1 AMPA receptor subunit. Elife 2020 08;9 D鱈az-Alonso J et al 2020/01/01 |
|
|
| 23 |
Prieto M et al. Missense mutation of Fmr1 results in impaired AMPAR-mediated plasticity and socio-cognitive deficits in mice. Nat Commun 2021 03;12(1):1557 Prieto M et al 2021/01/01 |
|
- No.: 1
-
文献情報:
Poulopoulos A et al. Homodimerization and isoform-specific heterodimerization of neuroligins. Biochem. J. 2012 Sep;446(2):321-30
Poulopoulos A et al
2012/01/01
-
備考:
application: WB -
参照:
- No.: 2
-
文献情報:
Garcia-Alvarez G et al. STIM2 regulates PKA-dependent phosphorylation and trafficking of AMPARs. Mol. Biol. Cell 2015 Mar;26(6):1141-59
Garcia-Alvarez G et al
2015/01/01
-
備考:
application: WB -
参照:
- No.: 3
-
文献情報:
Acuna C et al. How to Make an Active Zone: Unexpected Universal Functional Redundancy between RIMs and RIM-BPs. Neuron 2016 Aug;91(4):792-807
Acuna C et al
2016/01/01
-
備考:
application: WB -
参照:
- No.: 4
-
文献情報:
Rajgor D et al. The PICK1 Ca<sup>2+</sup> sensor modulates <i>N</i>-methyl-d-aspartate (NMDA) receptor-dependent microRNA-mediated translational repression in neurons. J. Biol. Chem. 2017 06;292(23):9774-9786
Rajgor D et al
2017/01/01
-
備考:
application: WB -
参照:
- No.: 5
-
文献情報:
Fiuza M et al. PICK1 regulates AMPA receptor endocytosis via direct interactions with AP2 α-appendage and dynamin. J. Cell Biol. 2017 10;216(10):3323-3338
Fiuza M et al
2017/01/01
-
備考:
application: ICC, WB, species: rat -
参照:
- No.: 6
-
文献情報:
Huupponen J et al. Ongoing intrinsic synchronous activity is required for the functional maturation of CA3-CA1 glutamatergic synapses. Cereb. Cortex 2013 Nov;23(11):2754-64
Huupponen J et al
2013/01/01
-
備考:
application: WB, species: rat -
参照:
- No.: 7
-
文献情報:
Carmichael RE et al. MEF2A regulates mGluR-dependent AMPA receptor trafficking independently of Arc/Arg3.1. Sci Rep 2018 Mar;8(1):5263
Carmichael RE et al
2018/01/01
-
備考:
application: WB, species: rat -
参照:
- No.: 8
-
文献情報:
Parkinson GT et al. Cortactin regulates endo-lysosomal sorting of AMPARs via direct interaction with GluA2 subunit. Sci Rep 2018 Mar;8(1):4155
Parkinson GT et al
2018/01/01
-
備考:
application: WB -
参照:
- No.: 9
-
文献情報:
Rajgor D et al. NMDAR-dependent Argonaute 2 phosphorylation regulates miRNA activity and dendritic spine plasticity. EMBO J. 2018 Jun;37(11)
Rajgor D et al
2018/01/01
-
備考:
application: WB, species: mouse -
参照:
- No.: 10
-
文献情報:
Mignogna ML et al. The intellectual disability protein RAB39B selectively regulates GluA2 trafficking to determine synaptic AMPAR composition. Nat Commun 2015 Mar;6:6504
Mignogna ML et al
2015/01/01
-
備考:
application: WB, species: mouse -
参照:
- No.: 11
-
文献情報:
Binda CS et al. Sorting nexin 27 rescues neuroligin 2 from lysosomal degradation to control inhibitory synapse number. Biochem J 2019 01;476(2):293-306
Binda CS et al
2019/01/01
-
備考:
-
参照:
- No.: 12
-
文献情報:
Shrivastava AN et al. Clustering of Tau fibrils impairs the synaptic composition of α3-Na<sup>+</sup>/K<sup>+</sup>-ATPase and AMPA receptors. EMBO J 2019 02;38(3)
Shrivastava AN et al
2019/01/01
-
備考:
-
参照:
- No.: 13
-
文献情報:
Aguayo FI et al. Hippocampal Memory Recovery After Acute Stress: A Behavioral, Morphological and Molecular Study. Front Mol Neurosci 2018;11:283
Aguayo FI et al
2018/01/01
-
備考:
-
参照:
- No.: 14
-
文献情報:
Pacheco A et al. Chronic Stress Triggers Expression of Immediate Early Genes and Differentially Affects the Expression of AMPA and NMDA Subunits in Dorsal and Ventral Hippocampus of Rats. Front Mol Neurosci 2017;10:244
Pacheco A et al
2017/01/01
-
備考:
-
参照:
- No.: 15
-
文献情報:
Ji Z et al. Kibra Modulates Learning and Memory via Binding to Dendrin. Cell Rep 2019 02;26(8):2064-2077.e7
Ji Z et al
2019/01/01
-
備考:
-
参照:
- No.: 16
-
文献情報:
Won S et al. The STEP<sub>61</sub> interactome reveals subunit-specific AMPA receptor binding and synaptic regulation. Proc Natl Acad Sci U S A 2019 04;116(16):8028-8037
Won S et al
2019/01/01
-
備考:
-
参照:
- No.: 17
-
文献情報:
Sclip A et al. LAR receptor phospho-tyrosine phosphatases regulate NMDA-receptor responses. Elife 2020 Jan;9
Sclip A et al
2020/01/01
-
備考:
-
参照:
- No.: 18
-
文献情報:
Lin CI et al. Blue Light Promotes Neurite Outgrowth of Retinal Explants in Postnatal ChR2 Mice. eNeuro ;6(4)
Lin CI et al
-
備考:
-
参照:
- No.: 19
-
文献情報:
Peter S et al. Dysfunctional cerebellar Purkinje cells contribute to autism-like behaviour in Shank2-deficient mice. Nat Commun 2016 09;7:12627
Peter S et al
2016/01/01
-
備考:
-
参照:
- No.: 20
-
文献情報:
Holderith N et al. A High-Resolution Method for Quantitative Molecular Analysis of Functionally Characterized Individual Synapses. Cell Rep 2020 07;32(4):107968
Holderith N et al
2020/01/01
-
備考:
-
参照:
- No.: 21
-
文献情報:
Gurung S et al. ADAR2-mediated Q/R editing of GluK2 regulates kainate receptor upscaling in response to suppression of synaptic activity. J Cell Sci 2018 12;131(24)
Gurung S et al
2018/01/01
-
備考:
-
参照:
- No.: 22
-
文献情報:
D鱈az-Alonso J et al. Long-term potentiation is independent of the C-tail of the GluA1 AMPA receptor subunit. Elife 2020 08;9
D鱈az-Alonso J et al
2020/01/01
-
備考:
-
参照:
- No.: 23
-
文献情報:
Prieto M et al. Missense mutation of Fmr1 results in impaired AMPAR-mediated plasticity and socio-cognitive deficits in mice. Nat Commun 2021 03;12(1):1557
Prieto M et al
2021/01/01
-
備考:
-
参照: