Recombinant Myosin IB anticorps

N° du produit ABIN7881737

Cet anticorps anti-Myosin IB Monoclonal Lapin (Clone 30M16) (ABIN7881737) détecte spécifiquement Myosin IB dans WB et IHC. L’anticorps est réactif avec des échantillons de Humain, Souris et Rat.

Aperçu rapide pour Recombinant Myosin IB anticorps (ABIN7881737)

Antigène: Myosin IB (MYO1B)

Type d'anticorp: Recombinant Antibody

Reactivité: Humain, Souris, Rat

Hôte: Lapin

Clonalité: Monoclonal

Conjugué: Cet anticorp Myosin IB est non-conjugé

Application: Western Blotting (WB), Immunohistochemistry (IHC)

Clone: 30M16

Détail du produit anti-Myosin IB anticorps

Fonction: MYO1B Antibody / Myosin IB

Purification: Affinity-chromatography

Immunogène: A synthesized peptide derived from human MYO1B was used as the immunogen for the MYO1B antibody.

Isotype: IgG

Information d'application

Indications d'application: Optimal dilution of the MYO1B antibody should be determined by the researcher.

Restrictions: For Research Use only

Stockage

Format: Liquid

Buffer: Rabbit IgG in phosphate buffered saline, pH 7.4, 150 mM NaCl, 0.02 % sodium azide and 50 % glycerol, 0.4-0.5 mg/mL BSA

Agent conservateur: Sodium azide

Précaution d'utilisation: This product contains Sodium azide: a POISONOUS AND HAZARDOUS SUBSTANCE which should be handled by trained staff only.

Stock: -20 °C

Stockage commentaire: Store the MYO1B antibody at -20oC.

Détails sur Myosin IB

Antigène: Myosin IB (MYO1B)

Autre désignation: MYO1B

Sujet: MYO1B antibody recognizes myosin IB, a member of the class I myosins encoded by the MYO1B gene. Myosin IB is a monomeric actin based motor protein that uses ATP hydrolysis to generate mechanical force. Unlike conventional myosins, class I myosins lack the ability to form filaments and instead function as membrane associated motors. MYO1B contains a motor domain that interacts with actin filaments, a neck domain with calmodulin binding IQ motifs, and a tail domain that anchors the protein to cellular membranes. Through these features, MYO1B contributes to membrane trafficking, endocytosis, and cytoskeletal organization.

MYO1B antibody is widely used in studies of cell motility, intracellular trafficking, and actin cytoskeleton dynamics. The protein is expressed in a variety of tissues, with high levels found in brain, kidney, and epithelial cells. MYO1B regulates actin dependent processes including lamellipodia extension and endocytic vesicle transport. By detecting MYO1B, researchers can explore how actin motor proteins coordinate signaling and transport at the plasma membrane.

The antibody is suitable for western blotting, immunohistochemistry, immunofluorescence, and flow cytometry. In western blot assays, MYO1B antibody identifies protein bands of expected molecular weight, enabling quantitative assessment of expression. Immunohistochemistry reveals strong staining at actin rich regions of cells and tissues. Immunofluorescence studies highlight dynamic localization of MYO1B in lamellipodia, endocytic vesicles, and actin filament networks.

MYO1B has been implicated in neuronal development, where it contributes to neurite outgrowth and synaptic remodeling. It also plays roles in epithelial polarity and vesicle trafficking, influencing processes such as nutrient uptake and receptor internalization. Dysregulation of MYO1B has been linked to cancer progression, where altered actin dynamics promote invasion and metastasis. By using MYO1B antibody, scientists can evaluate how myosin IB expression changes in development and disease.

In kidney physiology, MYO1B regulates endocytic pathways that control protein reabsorption. Defects in this process may contribute to renal disorders. In cancer research, increased MYO1B activity has been associated with enhanced migratory capacity of tumor cells. Detecting MYO1B with specific antibodies provides insight into how actin motor proteins contribute to both physiological and pathological outcomes.

MYO1B antibody from NSJ Bioreagents is a dependable reagent for investigating actin based motor proteins, vesicle trafficking, and cytoskeletal regulation. Its specificity supports studies across cell biology, neuroscience, and cancer research.

UniProt: O43795