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Citations & References (19)
Invitrogen™
Transferrin From Human Serum, Alexa Fluor™ 633 Conjugate
Transferrin is a monomeric serum glycoprotein (∼80,000 daltons) that binds to a specific receptor on the surface of vertebrate cellsRead more
| Catalog Number | Quantity |
|---|---|
| T23362 | 5 mg |
Catalog number T23362
Price (MXN)
-
Quantity:
5 mg
Transferrin is a monomeric serum glycoprotein (∼80,000 daltons) that binds to a specific receptor on the surface of vertebrate cells and delivers up to two Fe3+ atoms via receptor-mediated endocytosis—our labeled LDL complexes are useful tools for studying this phenomenon. Once iron-carrying transferrin proteins are inside endosomes, the acidic environment favors dissociation of iron from the transferrin–receptor complex. Following the release of iron, the apotransferrin is recycled to the plasma membrane, where it is released from its receptor to scavenge more iron. Fluorescent transferrin conjugates can therefore be used with fluorescent LDL to distinguish the lysosomally directed and recycling endosomal pathways.
These experiments are typically performed by adding fluorescently labeled transferrin to cultured cells and analyzing them by microscopy. We offer a biotinylated transferrin conjugate and more than 10 fluorescent versions.
Transferrin Specifications:
• Label (Ex/Em): Alexa Fluor™ 633 (632/650)
• Amount: 15 mg solid (contains 5 mg of transferrin conjugate)
Key Applications of Labeled Transferrin
Some of the many applications for labeled transferrin include:
• Image transferrin receptor dynamics using FRET
• Observe receptor trafficking in live cells by confocal laser-scanning microscopy
• Investigate events occurring during endosomal acidification
• Measure transferrin receptor binding affinity in mammals and parasites
For Research Use Only. Not intended for any animal or human therapeutic or diagnostic use.
These experiments are typically performed by adding fluorescently labeled transferrin to cultured cells and analyzing them by microscopy. We offer a biotinylated transferrin conjugate and more than 10 fluorescent versions.
Transferrin Specifications:
• Label (Ex/Em): Alexa Fluor™ 633 (632/650)
• Amount: 15 mg solid (contains 5 mg of transferrin conjugate)
Key Applications of Labeled Transferrin
Some of the many applications for labeled transferrin include:
• Image transferrin receptor dynamics using FRET
• Observe receptor trafficking in live cells by confocal laser-scanning microscopy
• Investigate events occurring during endosomal acidification
• Measure transferrin receptor binding affinity in mammals and parasites
For Research Use Only. Not intended for any animal or human therapeutic or diagnostic use.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Detection MethodFluorescence
Dye TypeAlexa Fluor Dyes
Excitation/Emission632/650
FormSolid
Protein FamilyTransferrin
Quantity5 mg
Shipping ConditionRoom Temperature
Product LineAlexa Fluor
Product TypeTransferrin
pH7.2
Unit Size5 mg
Contents & Storage
Store in freezer (-5 to -30°C) and protect from light.
Citations & References (19)
Citations & References
Abstract
CLIPR-59, a new trans-Golgi/TGN cytoplasmic linker protein belonging to the CLIP-170 family.
Journal:J Cell Biol
PubMed ID:11854307
'The microtubule cytoskeleton plays a fundamental role in cell organization and membrane traffic in higher eukaryotes. It is well established that molecular motors are involved in membrane-microtubule interactions, but it has also been proposed that nonmotor microtubule-binding (MTB) proteins known as CLIPs (cytoplasmic linker proteins) have basic roles in these
Geldanamycin stimulates internalization of ErbB2 in a proteasome-dependent way.
Journal:J Cell Sci
PubMed ID:16352662
'The potent oncoprotein and receptor tyrosine kinase ErbB2 is remarkable because it resists efficient downregulation. However, ErbB2 can be downregulated by the HSP-90 inhibitor geldanamycin, but the underlying cellular mechanisms are uncertain. Apparently, delivery of ErbB2 to lysosomes, cleavage of the ErbB2 kinase domain and proteasomal activity are all processes
Evaluation of disulfide reduction during receptor-mediated endocytosis by using FRET imaging.
Journal:Proc Natl Acad Sci U S A
PubMed ID:16950881
'Despite functional evidence for disulfide bond-reducing activity in endosomal compartments, the mechanistic details pertaining to such process (e.g., kinetics and sites of disulfide reduction) remain largely controversial. To address these questions directly, we have synthesized a previously uncharacterized fluorescent folate conjugate, folate-(BODIPY FL)-SS-rhodamine (folate-FRET), that changes fluorescence from red to
Self-assembled, aptamer-tethered DNA nanotrains for targeted transport of molecular drugs in cancer theranostics.
Journal:Proc Natl Acad Sci U S A
PubMed ID:23630258
'Nanotechnology has allowed the construction of various nanostructures for applications, including biomedicine. However, a simple target-specific, economical, and biocompatible drug delivery platform with high maximum tolerated doses is still in demand. Here, we report aptamer-tethered DNA nanotrains (aptNTrs) as carriers for targeted drug transport in cancer therapy. Long aptNTrs were
Pincher, a pinocytic chaperone for nerve growth factor/TrkA signaling endosomes.
Journal:J Cell Biol
PubMed ID:12011113
A central tenet of nerve growth factor (NGF) action that is poorly understood is its ability to mediate cytoplasmic signaling, through its receptor TrkA, that is initiated at the nerve terminal and conveyed to the soma. We identified an NGF-induced protein that we termed Pincher (pinocytic chaperone) that mediates endocytosis