Date published: 2025-10-15

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PKA Substrates

Santa Cruz Biotechnology now offers a broad range of PKA Substrates for use in various applications. PKA Substrates are crucial tools for studying the activity and specificity of protein kinase A (PKA), an enzyme that plays a pivotal role in regulating a wide array of cellular processes, including metabolism, gene expression, cell cycle progression, and apoptosis. By providing specific substrates for PKA, researchers can measure its kinase activity and investigate the phosphorylation events mediated by this enzyme, which are essential for understanding its regulatory functions. In scientific research, PKA Substrates are utilized to explore the downstream signaling pathways activated by cyclic AMP (cAMP)-dependent PKA and to delineate the role of PKA in various physiological contexts. Researchers employ these substrates to study how PKA-mediated phosphorylation affects the function of target proteins and how these modifications influence cellular responses to external stimuli. Additionally, PKA Substrates are valuable in high-throughput screening assays for identifying potential inhibitors or activators of PKA, facilitating the discovery of new regulatory mechanisms and pathways. The use of PKA Substrates supports the development of experimental models that help explain the complex signaling networks controlled by PKA and their broader implications in cellular function and adaptation. View detailed information on our available PKA Substrates by clicking on the product name.

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Product NameCAS #Catalog #QUANTITYPriceCitationsRATING

CREBtide

149155-45-3sc-3102
1 mg
$95.00
3
(0)

CREBtide functions as a selective PKA inhibitor, characterized by its unique ability to engage in specific hydrogen bonding and hydrophobic interactions with the enzyme's active site. Its structural conformation allows for a precise fit, disrupting the typical substrate binding and altering the enzyme's catalytic efficiency. This modulation of PKA activity can lead to significant changes in downstream signaling pathways, highlighting its role in fine-tuning cellular responses.

PKA substrate

sc-3059
0.5 mg
$95.00
1
(0)

PKA substrate exhibits a distinctive ability to undergo phosphorylation through its unique structural motifs, which facilitate specific electrostatic interactions with protein kinase A. Its conformation promotes optimal alignment within the enzyme's active site, enhancing reaction kinetics and substrate specificity. The substrate's dynamic behavior in solution allows for rapid conformational changes, influencing binding affinity and catalytic turnover, ultimately impacting cellular signaling cascades.

H1-7 (histone H1 phosphorylation site), PKA Substrate

65189-70-0sc-201152
1 mg
$110.00
(0)

H1-7, a histone H1 phosphorylation site, showcases a remarkable capacity for selective phosphorylation, driven by its specialized amino acid sequence. This substrate engages in unique hydrogen bonding and hydrophobic interactions with protein kinase A, ensuring precise recognition and binding. Its structural flexibility enables rapid adaptation to varying cellular environments, optimizing the phosphorylation process and influencing downstream signaling pathways with high specificity and efficiency.

Kemptide

65189-71-1sc-201153
1 mg
$45.00
(1)

Kemptide, a synthetic peptide, serves as a potent substrate for protein kinase A (PKA) due to its unique sequence that facilitates specific interactions with the enzyme's active site. The peptide's conformation allows for optimal alignment during phosphorylation, enhancing reaction kinetics. Its distinct amino acid composition promotes electrostatic interactions, stabilizing the enzyme-substrate complex and ensuring efficient signal transduction within cellular pathways.

KEMPTIDE

sc-3064
0.5 mg/0.1 ml
$95.00
(0)

Kemptide is a synthetic peptide that acts as a selective substrate for protein kinase A (PKA), characterized by its unique sequence that promotes specific binding interactions. The peptide's structural features enable precise orientation within the PKA active site, enhancing phosphorylation efficiency. Its unique side chain properties facilitate hydrophobic interactions, contributing to the stability of the enzyme-substrate complex and influencing downstream signaling cascades.

Malantide, Protein Kinase Substrate

86555-35-3sc-201154
1 mg
$106.00
(0)

Malantide is a synthetic peptide designed to serve as a substrate for protein kinase A (PKA), distinguished by its tailored amino acid sequence that fosters specific molecular interactions. Its conformation allows for optimal alignment within the PKA catalytic site, promoting effective phosphorylation. The peptide's unique charge distribution enhances electrostatic interactions, influencing reaction kinetics and modulating the dynamics of cellular signaling pathways.

PKA Inhibitor IV

99534-03-9sc-3010
0.5 mg
$95.00
17
(1)

PKA Inhibitor IV is a selective small molecule that disrupts the PKA signaling cascade by binding to the enzyme's regulatory domain. Its unique structural features facilitate strong non-covalent interactions, stabilizing the inactive conformation of PKA. This inhibition alters the enzyme's kinetics, effectively reducing substrate phosphorylation rates. The compound's hydrophobic regions enhance membrane permeability, influencing its distribution within cellular compartments and impacting downstream signaling events.

MLC (Thr 18/Ser 19)

sc-24518
0.5 mg/0.1 ml
$95.00
1
(0)

MLC (Thr 18/Ser 19) is a potent PKA modulator that selectively alters the enzyme's conformational dynamics. Its unique binding affinity to the catalytic subunit promotes a shift in the equilibrium towards the inactive state, effectively hindering substrate access. The compound's specific interactions with key amino acid residues enhance its inhibitory potency, while its distinct hydrophilic and hydrophobic balance influences solubility and cellular localization, ultimately affecting PKA-mediated pathways.

phospholamban (Ser 16)

sc-24519
0.5 mg/0.1 ml
$95.00
(0)

Phospholamban (Ser 16) serves as a critical regulator of cardiac muscle contraction by modulating the activity of the sarcoplasmic reticulum Ca²⁺ ATPase. Its phosphorylation at Ser 16 by PKA enhances calcium reuptake, promoting relaxation. The unique structural conformation of phospholamban allows it to interact with the ATPase, influencing its activity. This phosphorylation alters the protein's electrostatic properties, impacting its interaction dynamics and functional outcomes in cardiac physiology.

4E-BP1 (Ser 65/Thr 70)

sc-24508
0.5 mg/0.1 ml
$95.00
(0)

4E-BP1 (Ser 65/Thr 70) is a pivotal regulator of protein synthesis, particularly in the context of mTOR signaling. Phosphorylation at these sites by PKA disrupts its binding to eIF4E, thereby modulating cap-dependent translation. This alteration in binding affinity influences the translational control of specific mRNAs, affecting cellular growth and proliferation. The unique conformational changes induced by phosphorylation enhance its interaction with other translational regulators, fine-tuning the cellular response to nutrient availability.