Oregon Green™ 488 1,2-dihexadécanoyl-<i>sn</i>-glycéro-3-phosphoéthanolamine (Oregon Green™ 488 DHPE)

Citations et références (7)

Invitrogen™

Oregon Green™ 488 1,2-dihexadécanoyl-sn-glycéro-3-phosphoéthanolamine (Oregon Green™ 488 DHPE)

Le phospholipide, Oregon Green® 488 DHPE, est marqué sur le groupe de têtes avec le fluorophore vert fluorescent Oregon Green®Afficher plus

Référence	Quantité
O12650 également connu sous le numéro O-12650	1 mg

Référence O12650

également connu sous le numéro O-12650

Prix (EUR)

385,00

Quantité:

Prix (EUR)

385,00

Le phospholipide, Oregon Green® 488 DHPE, est marqué sur le groupe de têtes avec le fluorophore vert fluorescent Oregon Green® avec des maxima d’excitation/émission ∼ 501/526 nm. Cet analogue fluoré de la fluorescéine surmonte certaines des principales limites de la fluorescéine, notamment une plus grande photostabilité et un pKa inférieur (pKa ∼4,7 contre 6,4 pour la fluorescéine), rendant sa fluorescence essentiellement insensible au pH dans la gamme de pH physiologique.

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

Spécifications

Nom chimique ou matériauPhospholipides

Température de stockageConserver au congélateur (-5 à -30°C) à l’abri de la lumière.

Forme physiqueSolid

Gamme de produitsOregon Green

Quantité1 mg

Unit SizeEach

Citations et références (7)

Citations et références

Abstract

Zero mode waveguides for single-molecule spectroscopy on lipid membranes.

Authors:Samiee KT, Moran-Mirabal JM, Cheung YK, Craighead HG

Journal:Biophys J

PubMed ID:16461393

'Zero mode waveguides (ZMWs), subwavelength optical nanostructures with dimensions ranging from 50 to 200 nm, have been used to study systems involving ligand-receptor interactions. We show that under proper conditions, lipid membranes will invaginate into the nanostructures, which confine optical excitation to subattoliter volumes. Fluorescence correlation spectroscopy (FCS) was used ... More

Early endosomal SNAREs form a structurally conserved SNARE complex and fuse liposomes with multiple topologies.

Authors:Zwilling D, Cypionka A, Pohl WH, Fasshauer D, Walla PJ, Wahl MC, Jahn R

Journal:EMBO J

PubMed ID:17159904

'SNARE proteins mediate membrane fusion in eukaryotic cells. They contain conserved SNARE motifs that are usually located adjacent to a C-terminal transmembrane domain. SNARE motifs spontaneously assemble into four helix bundles, with each helix belonging to a different subfamily. Liposomes containing SNAREs spontaneously fuse with each other, but it is ... More

Surface-coupled proton exchange of a membrane-bound proton acceptor.

Authors:Sandén T, Salomonsson L, Brzezinski P, Widengren J,

Journal:Proc Natl Acad Sci U S A

PubMed ID:20160117

Proton-transfer reactions across and at the surface of biological membranes are central for maintaining the transmembrane proton electrochemical gradients involved in cellular energy conversion. In this study, fluorescence correlation spectroscopy was used to measure the local protonation and deprotonation rates of single pH-sensitive fluorophores conjugated to liposome membranes, and the ... More

Effects of linker sequences on vesicle fusion mediated by lipid-anchored DNA oligonucleotides.

Authors:Chan YH, van Lengerich B, Boxer SG,

Journal:Proc Natl Acad Sci U S A

PubMed ID:19164559

Synthetic lipid-oligonucleotide conjugates inserted into lipid vesicles mediate fusion when one population of vesicles displays the 5'-coupled conjugate and the other the 3'-coupled conjugate, so that anti-parallel hybridization allows the membrane surfaces to come into close proximity. Improved assays show that lipid mixing proceeds more quickly and to a much ... More

Interplay between H1N1 influenza a virus infection, extracellular and intracellular respiratory tract pH, and host responses in a mouse model.

Authors:

Journal:PLoS One

PubMed ID:33979408

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