Quantitative metabolomics services for biomarker discovery and validation.
Specializing in ready to use metabolomics kits.
Your source for quantitative metabolomics technologies and bioinformatics.
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Ca+ Tropomyosin alpha-1 chain Tropomyosin beta chain Beta-1 adrenergic receptor Voltage- depenent L-type calcium channel Voltage- depenent L-type calcium channel Voltage- depenent L-type calcium channel Ryanodine receptor 2 cAMP-dependent protein kinase type I-alpha regulatory subunit Sodium/calcium exchanger 1 Voltage-gated T-type calcium channel (ICaT) Voltage-gated T-type calcium channel (ICaT) Sarcoplasmic/endoplasmic reticulum calcium ATPase 2 cAMP-dependent protein kinase catalytic subunit alpha Norepinephrine Ca+ Ca+ Ca+ Na+ Na+ Ca+ Ca+ Ca+ Norepinephrine ATP H2O Ca+ ADP Pi Ca+ Ca+ Troponin Troponin G-Protein Signaling Cascade Muscle Contraction Cardiac Myocyte Sarcoplasmic Reticulum High calcium binds to troponin to displace tropomyosin from the myosin binding sites on the actin filaments Myosin and actin bind allowing the filaments to slide closer together, resulting in muscle contraction Actin Filament Myosin Filament The beta-1 adrenergic receptor is coupled to and activates the G-protein signalling cascade. The G-protein signalling cascade activates protein kinase which activates calcium channels on the membrane, resulting in calcium influx. High calcium activates the ryanodine receptor on the sarcoplasmic reticulum. Cytosol High cytosolic calcium leads to muscle contraction Once it reaches the heart, it agonizes the beta-1 adrenergic receptor on the cell membrane of myocytes. T-tubule Norepinephrine enters the bloodstream via intravenous injection
Calcium TPM1 TPM2 ADRB1 CACNA1C CACNA2D2 CACNB1 RYR2 PRKAR1A SLC8A1 CACNA1H CACNA1G ATP2A2 PRKACA Norepinephrine Calcium Calcium Calcium Sodium Sodium Calcium Calcium Calcium Norepinephrine Adenosine triphosphate Water Calcium Adenosine diphosphate Phosphate Calcium Calcium Troponin Troponin G-Protein Signaling Cascade Muscle Contraction