L-Allylglycine: A Versatile Amino Acid Derivative for Neuroscience Research and Biochemical Studies
Explore the multifaceted applications of L-Allylglycine in understanding neurological pathways and biochemical processes. Discover its potential as a key research tool for scientists worldwide.
Get a Quote & SampleProduct Core Value
L-Allylglycine
L-Allylglycine, identified by CAS number 16338-48-0, is a specialized amino acid derivative that serves as a crucial tool in neurological research. As a potent inhibitor of Glutamic Acid Decarboxylase (GAD), it plays a significant role in modulating GABAergic neurotransmission. We are a trusted supplier in China, providing high-purity L-Allylglycine to facilitate groundbreaking scientific discoveries.
- Understanding GABAergic System Dynamics: Leveraging L-Allylglycine for precise investigations into how to study neurotransmitter amino acid research by altering GABA concentration in vivo.
- Exploring Neurochemical Pathways: Utilize L-Allylglycine CAS 16338-48-0 in experiments to understand its effects on convulsions and neurotransmitter levels, aiding in GABA concentration study.
- Advanced Neuroscience Applications: Our L-Allylglycine is a reliable component for researchers focused on L-Allylglycine applications in neuroscience, particularly in animal models.
- High Purity for Research: Sourced and supplied by NINGBO INNO PHARMCHEM CO.,LTD., ensuring consistent quality for reproducible scientific outcomes.
Advantages Provided by the Product
Targeted GAD Inhibition
L-Allylglycine acts as a specific inhibitor of Glutamic Acid Decarboxylase (GAD), allowing researchers to isolate and study the impact of reduced GABA synthesis on neural function, critical for GABA concentration study.
Neurobehavioral Research Tool
Its ability to induce convulsions and modify neurotransmitter levels makes L-Allylglycine a valuable asset for exploring neurochemical processes and L-Allylglycine applications in neuroscience.
Versatile in Animal Models
Widely utilized in various animal models to investigate neurological disorders, attention, and fear responses, thereby contributing to deeper insights in to neurotransmitter amino acid research.
Key Applications
Neurotransmitter Research
Investigating the role of GABA and other neurotransmitters in brain function, by using L-Allylglycine CAS 16338-48-0 to manipulate GABAergic pathways.
Seizure Model Studies
Developing and studying epilepsy models by inducing seizures with L-Allylglycine to explore potential therapeutic interventions for treatment-resistant seizures.
Behavioral Neuroscience
Analyzing the impact of neurochemical changes on behavior, such as locomotor activity and attention, as part of comprehensive L-Allylglycine applications in neuroscience.
Biochemical Assays
Utilizing L-Allylglycine as a standard or substrate in biochemical assays designed to study enzyme kinetics and inhibition, particularly for GAD.