0 item(s)
View cart
You have no items in your shopping cart.
02
Feb
Phosphorylated Proteins: Mechanisms, Functions and Detection
Exploring the central role of Post-Translational Modification (PTM) in cellular signaling and disease.
Phosphorylated proteins refer to proteins that undergo covalent modification on specific amino acid residues, most commonly serine, threonine, and tyrosine.
This process involves the transfer of a phosphate group from adenosine triphosphate (ATP), catalyzed by protein kinases. This reversible modification is dynamically regulated by protein phosphatases, acting as a molecular "on/off" switch for biological functions.
ðŽ Functions and Molecular Mechanisms
Protein phosphorylation modulates cellular processes primarily through conformational changes and electrostatic alterations. Key regulatory mechanisms include:
1. Enzymatic Regulation Phosphorylation can activate or inhibit enzymes, such as the reciprocal regulation of glycogen synthase to adapt to energy demands.
2. Signal Amplification Phosphorylation cascades amplify extracellular signals, efficiently modulating gene expression and intercellular communication.
3. Disease Association Aberrant phosphorylation is linked to oncogenesis, metabolic disorders, and neurodegenerative diseases like Alzheimer's.
Methods for Detection
Selecting the right analytical approach is crucial for accurate phosphorylation profiling:
| Method | Core Advantages | Typical Application |
|---|---|---|
| Western Blotting | Highly specific for defined sites using antibodies. | Routine lab validation. |
| Mass Spectrometry (MS) | Global profiling; high resolution with IMAC/TiO2 enrichment. | Discovery-based proteomics. |
| ELISA | Quantitative, high-throughput, and high sensitivity. | Large-scale screening. |
Biofargo team
