Product Details
Place of Origin: China
Brand Name: Quickoolchem
Payment & Shipping Terms
Minimum Order Quantity: 50 Grams
Price: Negotiable
Packaging Details: 1~10 KG Aluminum Foil Bag, 25KG/drum
Delivery Time: 1-3 working day
Payment Terms: L/C, L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Ability: 10 MT/Month
Package: |
1kg/bag, 25kg/drum |
Cas Number: |
59997-14-7 |
Purity: |
≥ 99%min |
Molecular Formula: |
C14H13N3O2 |
Appearance: |
Yellow Powder |
Storage: |
Store In A Cool, Dry Place |
Test Method: |
HPLC UV |
Shelf Life: |
2 Years |
Origin: |
China |
Shipping Method: |
Air(UPS, FedEx, TNT, EMS) Or Sea |
MOQ: |
10 Grams |
Package: |
1kg/bag, 25kg/drum |
Cas Number: |
59997-14-7 |
Purity: |
≥ 99%min |
Molecular Formula: |
C14H13N3O2 |
Appearance: |
Yellow Powder |
Storage: |
Store In A Cool, Dry Place |
Test Method: |
HPLC UV |
Shelf Life: |
2 Years |
Origin: |
China |
Shipping Method: |
Air(UPS, FedEx, TNT, EMS) Or Sea |
MOQ: |
10 Grams |
3-Methyl-10-Ethyl-5-Deazaflavin (TND-1128) is a specialized chemical compound designed as an analog of natural flavins, which are crucial for redox reactions in biological systems. Unlike natural flavins such as FAD and FMN, which contain nitrogen atoms in their ring structure, deazaflavins like TND-1128 have modified structures where some of these nitrogen atoms are replaced, leading to distinct chemical properties and reactivity.
The specific methyl and ethyl substitutions at the 3 and 10 positions in TND-1128 make it particularly useful in scientific studies of enzyme catalysis and electron transfer. Its unique structure allows it to mimic or disrupt the function of flavin-dependent enzymes, which are critical in metabolic processes such as cellular respiration and oxidative stress responses. This makes TND-1128 a valuable tool for probing the role of flavins in various biochemical pathways.
In addition to its research applications, TND-1128 is explored for potential therapeutic use, especially in diseases related to oxidative stress, mitochondrial dysfunction, and certain cancers. Its ability to modulate enzymatic activity and participate in redox reactions positions it as a promising compound for both fundamental biochemical studies and drug development initiatives.
| Item | Value |
|---|---|
| Product Name | 3-Methyl-10-Ethyl Deazaflavin(TND-1128) Powder |
| Molecular Formula | C14H13N3O2 |
| Shipping Method | Air (UPS, FedEx, TNT, EMS) or Sea |
| Package | 1kg/bag, 25kg/drum |
| Appearance | Yellow powder |
| Test Method | HPLC UV |
| Shelf Life | 2 years |
| Purity | ≥ 99%min |
| Cas Number | 59997-14-7 |
| Storage | Store in a cool, dry place |
The function of 3-Methyl-10-Ethyl-5-Deazaflavin (TND-1128) Powder primarily revolves around its role as a deazaflavin analog, which can mimic or interfere with biological processes that involve natural flavins, such as flavin adenine dinucleotide (FAD) or flavin mononucleotide (FMN). These natural flavins are essential for numerous redox reactions in metabolism, particularly in enzymes known as flavoproteins.
Here are key potential functions of TND-1128:
1. Cofactor Mimic in Redox Reactions
Flavins like FAD and FMN are critical cofactors for enzymes involved in electron transfer, oxygen activation, and other redox processes.
3-Methyl-10-Ethyl-5-Deazaflavin can serve as a synthetic analog to these cofactors, modifying or inhibiting enzyme activities, which can be useful in understanding and studying enzyme mechanisms in biochemistry and molecular biology.
2. Inhibition or Alteration of Flavin-Dependent Enzymes
Due to its structural similarity to natural flavins, it may act as a competitive inhibitor or modulator of flavin-dependent enzymes (flavoproteins). This makes it a useful tool in biochemical research to investigate enzyme pathways that rely on flavins.
These enzymes play crucial roles in energy production, DNA repair, and detoxification processes, so TND-1128 could help explore how these pathways can be regulated or disrupted.
3. Potential in Drug Discovery and Development
In pharmaceutical research, TND-1128 might be evaluated for its ability to target specific metabolic or redox-related diseases. For example, inhibitors of flavoproteins are sometimes explored as treatments for conditions like cancer, viral infections, and mitochondrial disorders.
Its modified structure could make it a candidate for developing therapeutic agents that can selectively interact with enzymes involved in oxidative stress and energy metabolism.
4. Research Tool in Biochemistry
It is often used as a research tool to study reaction mechanisms that involve electron transfer, oxidative metabolism, and cellular respiration. Its unique chemical structure allows scientists to investigate how changes in cofactor structure can impact enzyme function.
1~25kgs packaging: Aluminium bag inside, Carton box outside.
25kgs packaging: Plastic bag inside, Fiber drum outside
Video
Video
