Citations et références (702)

Invitrogen™

Lucifer Yellow CH, Lithium Salt, 25 mg

Colorant hydrosoluble avec pics d’excitation / d’émission de 428/536 nm

Référence	Quantité
L453	25 mg

Référence L453

Prix (EUR)

256,65

Online Exclusive

276,00

Économisez 19,35 (7%)

Quantité:

25 mg

Prix (EUR)

256,65

Online Exclusive

276,00

Économisez 19,35 (7%)

Le Lucifer yellow CH sous forme de sel de lithium est un colorant hydrosoluble avec des pics dʼexcitation/dʼémission de 428/536 nm. Cet outil populaire est communément utilisé pour lʼétude de la morphologie neuronale en raison du groupe de carbohydrazide (CH) quʼil contient et qui lui permet de former une liaison covalente avec les biomolécules environnantes durant la fixation de lʼaldéhyde. Le Lucifer yellow CH sous forme de sel de lithium est fréquemment utilisé pour les micro-injections du fait de sa solubilité supérieure à celle des sels de potassium et dʼammonium du Lucifer yellow CH.

Usage exclusivement réservé à la recherche. Ne pas utiliser pour des procédures de diagnostic.

Spécifications

CouleurJaune

Méthode de détectionFluorescence

À utiliser avec (équipement)Microscope à fluorescence

Poids moléculaire457.24

Type de produitSel de lithium

Quantité25 mg

Conditions d’expéditionTempérature ambiante

Localisation subcellulaireCytoplasme & cytosol

Excitation/Emission428/536 nm

Unit SizeEach

Contenu et stockage

Stocker à température ambiante et à l’abri de la lumière.

Citations et références (702)

Citations et références

Abstract

Endothelial and smooth muscle cell conduction in arterioles controlling blood flow.

Authors:Welsh DG, Segal SS

Journal:Am J Physiol

PubMed ID:9458866

We performed intracellular recording with Lucifer yellow dye microinjection to investigate the cellular pathway(s) by which constriction and dilation are conducted along the wall of arterioles (diameter 47 +/- 1 microns, n = 63) supplying blood flow to the cheek pouch of anesthetized hamsters. At rest, membrane potential (Em) of ... More

Bursting response to current-evoked depolarization in rat CA1 pyramidal neurons is correlated with lucifer yellow dye coupling but not with the presence of calbindin-D28k.

Authors:Baimbridge KG, Peet MJ, McLennan H, Church J

Journal:Synapse

PubMed ID:2042109

Calbindin-D28k (CaBP) immunohistochemistry has been combined with electrophysiological recording and Lucifer Yellow (LY) cell identification in the CA1 region of the rat hippocampal formation. CaBP is shown to be contained within a distinct sub-population of CA1 pyramidal cells which is equivalent to the superficial layer described by Lorente de NÃ³ ... More

Membrane conductance oscillations in astrocytes induced by phorbol ester.

Authors:MacVicar BA, Crichton SA, Burnard DM, Tse FW

Journal:Nature

PubMed ID:3627267

Glial cells in the central nervous systems (CNS) have complex functions which are difficult to decipher because of the intimate intertwining of glial cells with neurons. We have therefore developed an essentially neuron-free preparation of CNS astrocytes in the kainic acid lesioned hippocampal slice. With this preparation we have examined ... More

Deformation of network connectivity in the inferior olive of connexin 36-deficient mice is compensated by morphological and electrophysiological changes at the single neuron level.

Authors:De Zeeuw CI, Chorev E, Devor A, Manor Y, Van Der Giessen RS, De Jeu MT, Hoogenraad CC, Bijman J, Ruigrok TJ, French P, Jaarsma D, Kistler WM, Meier C, Petrasch-Parwez E, Dermietzel R, Sohl G, Gueldenagel M, Willecke K, Yarom Y

Journal:J Neurosci

PubMed ID:12805309

Compensatory mechanisms after genetic manipulations have been documented extensively for the nervous system. In many cases, these mechanisms involve genetic regulation at the transcription or expression level of existing isoforms. We report a novel mechanism by which single neurons compensate for changes in network connectivity by retuning their intrinsic electrical ... More

Dual fluorescence combined with a two-color immunoperoxidase technique: a new way of visualizing diverse neuronal elements.

Authors:Pilowksy PM, Lipski J, Prestidge R, Jiang C

Journal:J Neurosci Methods

PubMed ID:1712061

'A method is described that allows an estimation of the neurotransmitter-related immunoreactivity, morphology and relationship to other immunoreactive elements, of single functionally identified neurons in the central nervous system. First, neurons are identified electrophysiologically using intracellular recording and labelled by iontophoresis of lucifer yellow (LY). After fixation and sectioning of ... More

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