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Citations & References (20)
Invitrogen™
NeuroTrace™ 640/660 Deep-Red Fluorescent Nissl Stain - Solution in DMSO
ニッスル染色は、脳や脊髄の神経細胞を可視化するための標準的な組織学的手法です.神経細胞の周核体と樹状突起の粗面小胞体と結合しているリボソームRNAから構成されているニッスル物質は、傷ついた神経細胞や再生した神経細胞の細胞内に再分配し、神経細胞の生理的状態のマーカーとなります。当社のNeuroTrace 640/660深紅色蛍光ニッスル染色剤は、神経細胞のニッスル特性に適した選択性を有し、トルイジンブルーやクレシルバイオレットなどの従来の組織学的色素よりも高い感度を提供します。詳細を見る
| 製品番号(カタログ番号) | 数量 |
|---|---|
| N21483 | 1 mL |
製品番号(カタログ番号) N21483
価格(JPY)お問い合わせください ›
56,800
Each
数量:
1 mL
ニッスル染色は、脳や脊髄の神経細胞を可視化するための標準的な組織学的手法です.神経細胞の周核体と樹状突起の粗面小胞体と結合しているリボソームRNAから構成されているニッスル物質は、傷ついた神経細胞や再生した神経細胞の細胞内に再分配し、神経細胞の生理的状態のマーカーとなります。当社のNeuroTrace 640/660深紅色蛍光ニッスル染色剤は、神経細胞のニッスル特性に適した選択性を有し、トルイジンブルーやクレシルバイオレットなどの従来の組織学的色素よりも高い感度を提供します。
研究用にのみ使用できます。診断用には使用いただけません。
仕様
色濃赤
検出法蛍光
使用対象 (装置)蛍光顕微鏡
製品タイプニッスル染色
数量1 mL
出荷条件室温
細胞内局在ニッスル小体
Excitation/Emission640/660 nm
製品ラインNEUROTRACE
Unit SizeEach
組成および保存条件
フリーザー(-5~-30度)に保存し、遮光してください。
よくあるご質問(FAQ)
I am labeling brain cryosections with a NeuroTrace Nissl Stain. Is this compatible with antibody labeling?
I can use the NeuroTrace Nissl stains for staining glia or other cell types. What can I do to improve the staining so that it is more selective for neurons?
Can the NeuroTrace Nissl stains be used on paraffin sections?
What are the NeuroTrace Nissl stains?
What products do you have for neuronal tracing?
引用および参考文献 (20)
引用および参考文献
Abstract
Glutamate acting on AMPA but not NMDA receptors modulates the migration of hippocampal interneurons.
Journal:J Neurosci
PubMed ID:16738232
'Paracrine GABA and glutamate acting, respectively, on GABAA and NMDA receptors modulate the migration of hippocampal pyramidal cells. Using corticohippocampal organotypic explants from glutamic acid decarboxylase (GAD) 67-enhanced green fluorescent protein (EGFP) knock-in embryos, we now report that, in contrast to pyramidal neurons, the blockade of AMPA but not NMDA
Differential roles of the dopamine 1-class receptors, D1R and D5R, in hippocampal dependent memory.
Journal:
PubMed ID:24843151
'Activation of the hippocampal dopamine 1-class receptors (D1R and D5R) are implicated in contextual fear conditioning (CFC). However, the specific role of the D1R versus D5R in hippocampal dependent CFC has not been investigated. Generation of D1R- and D5R-specific in situ hybridization probes showed that D1R and D5R mRNA expression
Phenotypic heterogeneity and plasticity of isocortical and hippocampal astrocytes in the human brain.
Journal:
PubMed ID:24501367
'To examine the diversity of astrocytes in the human brain, we immunostained surgical specimens of temporal cortex and hippocampus and autopsy brains for CD44, a plasma membrane protein and extracellular matrix receptor. CD44 antibodies outline the details of astrocyte morphology to a degree not possible with glial fibrillary acidic protein
Neutralization of Nogo-A enhances synaptic plasticity in the rodent motor cortex and improves motor learning in vivo.
Journal:
PubMed ID:24966370
The membrane protein Nogo-A is known as an inhibitor of axonal outgrowth and regeneration in the CNS. However, its physiological functions in the normal adult CNS remain incompletely understood. Here, we investigated the role of Nogo-A in cortical synaptic plasticity and motor learning in the uninjured adult rodent motor cortex.
Superficially projecting principal neurons in layer V of medial entorhinal cortex in the rat receive excitatory retrosplenial input.
Journal:
PubMed ID:24089485
Principal cells in layer V of the medial entorhinal cortex (MEC) have a nodal position in the cortical-hippocampal network. They are the main recipients of hippocampal output and receive inputs from several cortical areas, including a prominent one from the retrosplenial cortex (RSC), likely targeting basal dendrites of layer V