Rabbit Recombinant Monoclonal Hemoglobin subunit alpha 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 - |
Involved in oxygen transport from the lung to the various peripheral tissues.
Hemoglobin subunit alpha, Alpha-globin, Hemoglobin alpha chain, HBA2, HBA1
Rabbit Recombinant Monoclonal Hemoglobin subunit alpha antibody - conjugated to Alexa Fluor® 568.
Hemoglobin subunit alpha, Alpha-globin, Hemoglobin alpha chain, HBA2, HBA1
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
EPR3608
Affinity purification Protein A
This antibody gave a positive signal in Western blotting of rat brain, heart, kidney and spleen tissue. This antibody works in human, mouse and rat in IHC.
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.
Hemoglobin subunit alpha also known as alpha-globin is a component of the hemoglobin protein complex which plays an important role in oxygen transport within the blood. Alpha-globin has an approximate molecular weight of 15.1 kDa and is expressed highly in the red blood cells. It is part of the hemoglobin tetramer along with two beta subunits each one containing an iron-bound heme group. Variants of the alpha chain can be studied using hemoglobin peptides or denatured hemoglobin samples. Researchers can further analyze the alpha hemoglobin using methods like SDS-PAGE or alpha ELISA assays.
Hemoglobin subunit alpha forms an important part of the hemoglobin complex facilitating the binding and release of oxygen molecules as blood circulates in the body. Alpha hemoglobin ensures efficient loading of oxygen in the lungs and unloading in tissues maintaining cellular respiration. The subunit plays a structural role as well stabilizing the hemoglobin tetramer for optimal function. Its ability to carry oxygen depends on the cooperative interaction between its alpha and beta globin counterparts.
Hemoglobin subunit alpha operates predominantly within the oxygen transport pathway which is essential to meet the metabolic demands of cells. It also links to pathways involving iron metabolism given its coordination with heme groups. Alpha hemoglobin interacts cooperatively with proteins such as beta-globin to ensure efficient oxygen delivery. This interplay is highlighted when examining hemoglobin biosynthesis and breakdown pathways.
Alpha-globin is linked to conditions like alpha-thalassemia and sickle cell disease. These disorders result from mutations in the hemoglobin alpha or beta subunits leading to imbalanced globin production or abnormal hemoglobin structures. Alpha thalassemia is connected with unequal production of globin chains affecting hemoglobin stability while beta-globin mutations lead to sickle cell disease with altered oxygen delivery. Anti-hemoglobin antibodies might help in researching these conditions allowing a better understanding of molecular changes and potential therapeutic targets.
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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