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Citations & References (20)
Invitrogen™
Concanavalin A (Con A) Conjugates
Thermo Fisher Scientific offers a broad selection of Invitrogen concanavalin A (Con A) conjugates, including Alexa Fluor™ and Alexa Fluor™ Plus conjugates.
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| Catalog Number | Conjugate | Color | Excitation/Emission | Protein Subtype |
|---|---|---|---|---|
| C11253 | Alexa Fluor 594 | Red | 590/617 nm | Concanavalin A (Con A) |
| C11254 | Alexa Fluor 350 | Blue | 346/442 nm | Concanavalin A (Con A) |
| C11252 | Alexa Fluor 488 | Green | 495/519 nm | Concanavalin A (Con A) |
| C21401 | Alexa Fluor 488 | Green | 495/519 nm | Concanavalin A, succinylated |
| C21402 | Alexa Fluor 633 | Deep Red | 632/647 nm | Concanavalin A (Con A) |
| C21421 | Alexa Fluor 647 | Deep Red | 650/668 nm | Concanavalin A (Con A) |
| C56126 | Alexa Fluor Plus 405 | Violet | 405/450 nm | Concanavalin A (Con A) |
| C56127 | Alexa Fluor Plus 750 | Near-infrared | 750/777 nm | Concanavalin A (Con A) |
| C825 | Texas Red | Red | 595/615 nm | Concanavalin A (Con A) |
| C860 | Tetramethylrhodamine | Orange | 555/580 nm | Concanavalin A (Con A) |
Catalog number C11253
Price (EUR)
355,00
Each
Conjugate:
Alexa Fluor 594
Color:
Red
Excitation/Emission:
590/617 nm
Protein Subtype:
Concanavalin A (Con A)
Price (EUR)
355,00
Each
Thermo Fisher Scientific offers a broad selection of Invitrogen concanavalin A (Con A) conjugates, including Alexa Fluor™ and Alexa Fluor™ Plus conjugates. Concanavalin A (Con A) has been used in a variety of applications, including immunofluorescence (IF), immunohistochemistry (IHC) and flow cytometry (FC). In many cell types, concanavalin A (Con A) is a good marker of ER and Golgi.
Thermo Fisher Scientific offers a broad selection of Invitrogen concanavalin A (Con A) conjugates, including Alexa Fluor and Alexa Fluor Plus conjugates. Concanavalin A selectively binds to alpha‐mannopyranosyl and alpha‐glucopyranosyl residues. In neutral and alkaline solutions, concanavalin A exists as a tetramer with a molecular weight of approximately 104,000 Daltons. In acidic solutions (pH below 5.0), concanavalin A exists as a dimer. Conjugated concanavalin A has been used in variety of applications, including immunofluorescence (IF), immunohistochemistry (IHC), and flow cytometry (FC).
For Research Use Only. Not for use in diagnostic procedures.
Specifications
ColorRed
Cross Reactivityα-man, α-glc
Excitation/Emission590/617 nm
Expression SystemNatural
Label TypeAlexa Fluor Dyes
Ligand TypeLectin
Product LineAlexa Fluor
Protein FamilyLectins
Protein SubtypeConcanavalin A (Con A)
Protein TagNone
Purity or Quality GradeImaging Quality
Quantity5 mg
Research CategoryImaging
Shipping ConditionRoom Temperature
SourceCanavlia ensiformis
ConjugateAlexa Fluor 594
For Use With (Application)Immunocytochemistry, Immunohistochemistry, Immunofluorescence
FormLyophilized
RecombinantNative
SpeciesC. ensiformis
Unit SizeEach
Contents & Storage
Store in freezer (-5 to -30°C) and protect from light.
Citations & References (20)
Citations & References
Abstract
Phosphatidylinositol 4,5-bisphosphate and Arf6-regulated membrane traffic.
Journal:J Cell Biol
PubMed ID:11535619
'ADP-ribosylation factor (Arf) 6 regulates the movement of membrane between the plasma membrane (PM) and a nonclathrin-derived endosomal compartment and activates phosphatidylinositol 4-phosphate 5-kinase (PIP 5-kinase), an enzyme that generates phosphatidylinositol 4,5-bisphosphate (PIP2). Here, we show that PIP2 visualized by expressing a fusion protein of the pleckstrin homology domain from
Expression of UME6, a key regulator of Candida albicans hyphal development, enhances biofilm formation via Hgc1- and Sun41-dependent mechanisms.
Journal:Eukaryot Cell
PubMed ID:23223035
'Biofilm formation is associated with the ability of Candida albicans, the major human fungal pathogen, to resist antifungal therapies and grow on tissues, catheters, and medical devices. In order to better understand the relationship between C. albicans morphology and biofilm formation, we examined biofilms generated in response to expression of
G proteins mediate changes in cell shape by stabilizing the axis of polarity.
Journal:Mol Cell
PubMed ID:10882121
Upon exposure to mating pheromone, yeast cells change their form to pear-shaped shmoos. We looked at pheromone-dependent cell shape changes in mutants that are unable to orient growth during mating and unable to choose a bud site. In these double mutants, cell surface growth, secretion sites, cytoskeleton, and pheromone receptors
Environmental hyperosmolality regulates phospholipid biosynthesis in the renal epithelial cell line MDCK.
Journal:J Lipid Res
PubMed ID:23269393
Hyperosmolality is a key signal for renal physiology. On the one hand, it contributes to the differentiation of renal medullary structures and to the development of the urinary concentrating mechanism. On the other, it is a stress factor. In both cases, hyperosmolality activates processes that require an adequate extension of
Visualization in zebrafish larvae of Na(+) uptake in mitochondria-rich cells whose differentiation is dependent on foxi3a.
Journal:Am J Physiol Regul Integr Comp Physiol
PubMed ID:16946087
Uptake of Na(+) from the environment is an indispensable strategy for the survival of freshwater fish, as they easily lose Na(+) from the plasma to a diluted environment. Nevertheless, the location of and molecules involved in Na(+) uptake remain poorly understood. In this study, we utilized Sodium Green, a Na(+)-dependent