D-Serine丨CAS 312-84-5

D-Serine丨CAS 312-84-5
Product Introduction:
Catalog No.: SS117556
CAS No.: 312-84-5
Purity: 99.0%min
Assay: 99.0~101.0%
Product Name: D-Serine
Molecular Formula: C3H7NO3
Molecular Weight: 105.09
Synonym(s): D-2-Amino-3-hydroxypropanoic acid
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Technical Parameters
Description

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Specifications of D-Serine丨312-84-5

 

Property

Specification

Appearance

White crystals or crystalline powder

State of Solution

95.0% min

pH

5.2 - 6.2

Specific Rotation

-14.5° to -15.5°

Loss on Drying

0.20% max

Residue on Ignition

0.1% max

Heavy Metals

10 ppm max

Chloride

0.020% max

Arsenic

10 ppm max

Sulphate

0.020% max

Iron

10 ppm max

Ammonium

0.020% max

Chiral Impurity

0.5% max

Purity

99.0% min

Assay

99.0% - 101.0%

 

Manufacturing Information of D-Serine丨312-84-5

 

Parameter

Specification

Capacity

200MT/month

Frequency

 

Main Export Countries

 

Capacity/Batch

 

Experience

Production since 2005

Stock

 

Introduction

 

D-Serine丨312-84-5 is an amino acid that plays a crucial role in neurotransmission in the central nervous system. It is involved in NMDA receptor activation, which is important for synaptic plasticity, learning, and memory. D-Serine is often studied for its effects on neurological disorders and is also used as a research tool in neurobiology.

 

Applications of D-Serine丨312-84-5

 

1. Neurological and Psychiatric Disorders
● Schizophrenia:
oD-Serine is being studied as a potential adjunctive treatment for schizophrenia, particularly due to its NMDA receptor-modulating properties, which may improve cognitive dysfunction and negative symptoms in patients.
● Alzheimer's Disease:
oD-Serine's role in glutamatergic neurotransmission has led to research into its potential use in treating Alzheimer's disease, as it may support memory and learning functions.
● Parkinson's Disease:
oIt is also being investigated for its neuroprotective effects and its ability to modulate dopaminergic systems in the treatment of Parkinson's disease.
2. Cognitive Enhancement and Memory Research
● Synaptic Plasticity and Learning:
oD-Serine is involved in synaptic plasticity, the ability of synapses to strengthen or weaken over time in response to activity. This process is key to learning and memory, making D-Serine a subject of study in cognitive enhancement and brain function research.
● Neuroprotective Studies:
oD-Serine丨312-84-5 is also researched for its protective effects on neurons, particularly in conditions where glutamate excitotoxicity is a concern, such as in stroke and traumatic brain injury.
3. Research Tool in Neurobiology
● NMDA Receptor Studies:
oAs a co-agonist of the NMDA receptor, D-serine is widely used in neurobiology research to study neurotransmission, synaptic plasticity, and the role of glutamate receptors in brain function.
4. Potential Use in Treatment of Depression
● Antidepressant Effects:
oThere is growing interest in the potential of D-serine as a therapeutic agent for depression, particularly in cases where traditional antidepressants are ineffective. Its ability to modulate glutamate receptors may offer new treatment avenues for treatment-resistant depression.

 

Benefits of D-Serine丨312-84-5

 

1. Modulation of NMDA Receptors
● D-Serine is a key co-agonist of NMDA receptors, which are critical for synaptic plasticity, learning, and memory. It enhances glutamatergic signaling in the brain, making it important for both cognitive function and brain health.
2. Potential Therapeutic Benefits for Neurological Disorders
● D-Serine has shown potential as a therapeutic agent in treating schizophrenia, Alzheimer's, and Parkinson's disease due to its ability to modulate glutamate neurotransmission and support cognitive and neuroprotective functions.
3. Cognitive Enhancement
● By modulating the NMDA receptor, D-serine is being explored for its potential to enhance memory and learning abilities, making it a subject of interest in cognitive enhancement research.
4. Neuroprotective Properties
● D-Serine has been studied for its neuroprotective effects, especially in protecting neurons from excitotoxic damage, which can be caused by an overload of glutamate in neurological conditions like stroke and traumatic brain injury.
5. Adjunctive Therapy for Depression
● Research suggests that D-serine may offer alternative treatment options for treatment-resistant depression, potentially helping patients who do not respond to conventional therapies.

 

Conclusion

 

D-Serine丨312-84-5 is a key neurotransmitter with significant implications for neurological and psychiatric disorders, particularly those involving glutamate signaling, such as schizophrenia, Alzheimer's, and Parkinson's disease. Its ability to modulate NMDA receptors makes it an important tool in cognitive enhancement research and a potential therapeutic agent for various brain-related conditions. The ongoing exploration of D-serine may open new avenues for treating mental health disorders, neurodegenerative diseases, and enhancing cognitive function.

 

 

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