Rabbit Recombinant Monoclonal TBB4A antibody - conjugated to Alexa Fluor® 568.
IgG
Rabbit
Alexa Fluor® 568
Ex: 578nm, Em: 603nm
pH: 7.4
Preservative: 0.02% Sodium azide
Constituents: 68% PBS, 30% Glycerol (glycerin, glycerine), 1% BSA
Liquid
Monoclonal
Application | Reactivity | Dilution info | Notes |
---|---|---|---|
Application Target Binding Affinity | Reactivity Expected | Dilution info - | Notes - |
Application Antibody Labelling | Reactivity Expected | Dilution info - | Notes - |
Select an associated product type
Tubulin is the major constituent of microtubules. It binds two moles of GTP, one at an exchangeable site on the beta chain and one at a non-exchangeable site on the alpha chain.
Tubulin beta-4A chain, Tubulin 5 beta, Tubulin beta-4 chain, TUBB4A, TUBB4, TUBB5
Rabbit Recombinant Monoclonal TBB4A antibody - conjugated to Alexa Fluor® 568.
Tubulin beta-4A chain, Tubulin 5 beta, Tubulin beta-4 chain, TUBB4A, TUBB4, TUBB5
IgG
Rabbit
Alexa Fluor® 568
Ex: 578nm, Em: 603nm
pH: 7.4
Preservative: 0.02% Sodium azide
Constituents: 68% PBS, 30% Glycerol (glycerin, glycerine), 1% BSA
Liquid
Monoclonal
EPR16775
Affinity purification Protein A
Blue Ice
1-2 weeks
+4°C
-20°C
Upon delivery aliquot
Avoid freeze / thaw cycle, Store in the dark
This product is a recombinant monoclonal antibody, which offers several advantages including:
For more information, read more on recombinant antibodies.
Our RabMAb® technology is a patented hybridoma-based technology for making rabbit monoclonal antibodies. For details on our patents, please refer to RabMAb® patents.
This conjugated primary antibody is released using a quantitative quality control method that evaluates binding affinity post-conjugation and efficiency of antibody labeling.
For suitable applications and species reactivity, please refer to the unconjugated version of this clone. This conjugated antibody is eligible for the Abcam trial program.
This supplementary information is collated from multiple sources and compiled automatically.
Beta IV Tubulin also known as TUBB4 is an important component of the microtubule structure within cells. It has a molecular mass of approximately 50 kDa. This protein is a critical part of the cytoskeleton and is expressed in a variety of tissues including neuronal tissues. Beta IV Tubulin plays a role in forming dynamic structures that aid in maintaining cell shape facilitating intracellular transport and enabling cell division. Researchers often use beta tubulin staining techniques to observe microtubules in cells which is important for understanding cellular processes.
Beta IV Tubulin contributes significantly to the stability and function of microtubule networks. It is a member of the tubulin family and often forms tubulin heterodimers which are building blocks of microtubules. These microtubules are essential for many cellular activities such as mitosis and transport of organelles. Beta IV Tubulin is integral to the microtubule-based cellular processes and its functions are critical for neuronal development and function because it is a part of the complex cytoskeletal framework.
Beta IV Tubulin is deeply involved in cellular processes such as the MAP kinase pathway and cell cycle regulation. These pathways are pivotal in transmitting signals that regulate cellular processes including growth and differentiation. The protein interacts with other tubulin isotypes and motor proteins like dynein and kinesin contributing to intracellular transport and chromosomal segregation during cell division. These interactions highlight its importance in maintaining proper cellular responses and functions.
Mutations or dysregulation of beta IV Tubulin are associated with neurological conditions like dystonia and Charcot-Marie-Tooth disease. These disorders underline the importance of beta IV Tubulin in neuronal health and development. The protein’s interaction with other tubulins and motor proteins also relates it to neurodegenerative diseases where cytoskeletal integrity and function are often compromised. Understanding these interactions helps unravel the pathogenic mechanisms of these diseases and can guide therapeutic strategies.
We have tested this species and application combination and it works. It is covered by our product promise.
We have not tested this specific species and application combination in-house, but expect it will work. It is covered by our product promise.
This species and application combination has not been tested, but we predict it will work based on strong homology. However, this combination is not covered by our product promise.
We do not recommend this combination. It is not covered by our product promise.
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