| CAS No.: | 58-96-8 |
|---|---|
| Formula: | C9h12n2o6 |
| EINECS: | 200-407-5 |
| Type: | Pharmaceutical Intermediates |
| Appearance: | Powder |
| Quality: | Pharma Grade |
| Samples: |
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| Customization: |
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Suppliers with verified business licenses
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Product Name
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Uridine |
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Category
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Plant Extracts
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Analysis
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HPLC
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Storage
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Keep in cool and dry place, well-closed, away from moisture or direct sunlight.
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Uridine is a naturally occurring nucleoside that plays important roles in various biological processes. It is composed of a sugar molecule called ribose bonded to a nitrogenous base called uracil. Uridine is found in high levels in RNA , which is responsible for carrying genetic information and participating in various cellular functions.
In the body, uridine is involved in processes such as the synthesis of RNA, the formation of cell membranes, and the production of neurotransmitters. It also contributes to the regulation of various signaling pathways and plays a role in brain health and function.
Uridine has gained attention for its potential cognitive and neuroprotective benefits. It is believed to support memory and learning abilities by promoting the synthesis of neurotransmitters like acetylcholine, which is involved in cognitive processes. Additionally, uridine may support the growth and maintenance of brain cells and enhance the formation of synaptic connections.
Uridine can be obtained through dietary sources, such as certain foods like organ meats, fish, broccoli, and tomatoes. It can also be synthesized in the body from other compounds.
Supplemental forms of uridine, such as uridine monophosphate (UMP) or triacetyluridine (TAU), are available and are sometimes used to support cognitive function and overall brain health.
Uridine has several important functions and applications in the body. Here are some key points:
RNA Synthesis: Uridine is an essential component of RNA. It helps in the formation of RNA molecules, which are involved in protein synthesis, gene regulation, and other vital cellular processes.
Neurotransmitter Synthesis: Uridine is involved in the synthesis of neurotransmitters, such as acetylcholine. Neurotransmitters are chemical messengers that play a crucial role in signaling between nerve cells in the brain and other parts of the body. Uridine helps in maintaining optimal levels of neurotransmitters, which is important for proper brain function, memory, and cognition.
Brain Health: Uridine has been studied for its potential neuroprotective effects. Research suggests that uridine may support the growth and development of new brain cells, enhance synaptic connections, and protect against cognitive decline. It is also believed to have anti-inflammatory properties, which can benefit overall brain health.
Mood and Mental Health: Uridine may have a positive impact on mood and mental health. Some studies have shown that uridine supplementation can improve symptoms of depression, anxiety, and bipolar disorder. It is thought to modulate the levels of certain neurotransmitters and enhance neural communication in the brain.
Mitochondrial Function: Uridine is involved in the synthesis of mitochondrial DNA, which is essential for proper functioning of mitochondria, the energy-producing organelles in cells. Uridine helps maintain optimal mitochondrial health and function.
Dietary Sources and Supplementation: Uridine can be obtained through dietary sources, including organ meats, fish, broccoli, and tomatoes. However, it may be challenging to obtain therapeutic doses of uridine through food alone. Supplemental forms, such as uridine monophosphate (UMP) or triacetyluridine (TAU), are available and can be used to support specific health needs. However, it is important to consult a healthcare professional before starting any supplementation.
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