TNNT3 Rabbit pAb
Sizes: 20μL, 100μL
Catalogue Numbers: A15323-20, A15323-100
Citations, Manuals and MSDS Available upon request.
Background: The binding of Ca (2+) to the trimeric troponin complex initiates the process of muscle contraction. Increased Ca (2+) concentrations produce a conformational change in the troponin complex that is transmitted to tropomyosin dimers situated along actin filaments. The altered conformation permits increased interaction between a myosin head and an actin filament which, ultimately, produces a muscle contraction. The troponin complex has protein subunits C, I, and T. Subunit C binds Ca (2+) and subunit I binds to actin and inhibits actin-myosin interaction. Subunit T binds the troponin complex to the tropomyosin complex and is also required for Ca (2+) -mediated activation of actomyosin ATPase activity. There are 3 different troponin T genes that encode tissue-specific isoforms of subunit T for fast skeletal-, slow skeletal-, and cardiac-muscle. This gene encodes fast skeletal troponin T protein; also known as troponin T type 3. Alternative splicing results in multiple transcript variants encoding additional distinct troponin T type 3 isoforms. A developmentally regulated switch between fetal/neonatal and adult troponin T type 3 isoforms occurs. Additional splice variants have been described but their biological validity has not been established. Mutations in this gene may cause distal arthrogryposis multiplex congenita type 2B (DA2B).
Category: Polyclonal Antibodies
Applications: WB, ELISA
Cross-reactivity: Mouse, Rat
Protein Weight: 32kDa
Observed Molecular Weight: 37kDa
Immunogen: Recombinant protein (or fragment)
Species: Human
GeneID: 7140
SWISS: P45378
Alternate Names: TNTF; DA2B2; beta-TnTF; TNNT3
Source: Rabbit
Isotype: IgG
Purity: Affinity purification
Storage: Store at -20℃. Avoid freeze / thaw cycles. Buffer: PBS with 0.01% thimerosal, 50% glycerol, pH 7.3.
Recommended Dilutions: WB, 1:200 - 1:2000 ELISA, Recommended starting concentration is 1 μg/mL. Please optimize the concentration based on your specific assay requirements.
Research Areas: Signal Transduction, Cell Biology Developmental Biology, Cytoskeleton, Microfilaments.
NCBI Alias: TNNT3
Research Use Only