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Fmoc-Ala-OH
🥰Excellent
Catalog No. T67563Cas No. 35661-39-3
Fmoc-Ala-OH is a chemically protected alanine derivative for use in life science research,Fmoc-Ala-OH can be used in the synthesis of perovskite solar cell, impedance spectroscopy revealed a decreased charge transfer resistance and an increased recombination resistance after amino acid passivation.Fmoc-Ala-OH is widely employed in solid-phase peptide synthesis and biochemical investigations.
Fmoc-Ala-OH
🥰Excellent
Purity: 99.57%
Catalog No. T67563Cas No. 35661-39-3
Fmoc-Ala-OH is a chemically protected alanine derivative for use in life science research,Fmoc-Ala-OH can be used in the synthesis of perovskite solar cell, impedance spectroscopy revealed a decreased charge transfer resistance and an increased recombination resistance after amino acid passivation.Fmoc-Ala-OH is widely employed in solid-phase peptide synthesis and biochemical investigations.
| Pack Size | Price | USA Warehouse | Global Warehouse | Quantity |
|---|---|---|---|---|
| 25 g | $29 | - | In Stock |
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In Stock Estimated shipping dateUSA Warehouse[1-2 days] Global Warehouse[5-7 days]
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Purity:99.57%
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Product Introduction
Bioactivity
Chemical Properties
| Description | Fmoc-Ala-OH is a chemically protected alanine derivative for use in life science research,Fmoc-Ala-OH can be used in the synthesis of perovskite solar cell, impedance spectroscopy revealed a decreased charge transfer resistance and an increased recombination resistance after amino acid passivation.Fmoc-Ala-OH is widely employed in solid-phase peptide synthesis and biochemical investigations. |
| In vitro | Common uses of Fmoc-Ala-OH include serving as a component in the preparation of triazole peptides and aza-peptides [1]. Synthesizing dicationic porphyrin peptides via standard Fmoc solid-phase peptide synthesis [2]. Converting Mannich adducts into α-haloamides without undergoing aziridination [3]. |
| Molecular Weight | 311.34 |
| Formula | C18H17NO4 |
| Cas No. | 35661-39-3 |
| Smiles | C(OC(N[C@H](C(O)=O)C)=O)C1C=2C(C=3C1=CC=CC3)=CC=CC2 |
| Color | White |
| Appearance | Solid |
| Sequence | Fmoc-Ala-OH |
| Sequence Short | A |
Storage & Solubility Information
| Storage | keep away from moisture | Powder: -20°C for 3 years | In solvent: -80°C for 1 year | Shipping with blue ice/Shipping at ambient temperature. | |||||||||||||||||||||||||||||||||||
| Solubility Information | DMSO: 40 mg/mL (128.48 mM), Sonication is recommended. | |||||||||||||||||||||||||||||||||||
Solution Preparation Table | ||||||||||||||||||||||||||||||||||||
DMSO
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In Vivo Formulation Calculator (Clear solution)
Please enter your animal experiment information in the following box and click Calculate to obtain the mother liquor preparation method and in vivo formula preparation method:
For example, your dosage is 10 mg/kg Each animal weighs 20 g, and the dosage volume is 100 μL . A total of 10 animals were administered, and the formula you used is 5% 
DMSO+30% PEG300+5% Tween 80+60% Saline/PBS/ddH2O. So your working solution concentration is 2 mg/mL。Mother liquor preparation method: 2 mg of drug dissolved in 50 μL DMSO (mother liquor concentration of 40 mg/mL), if you need to configure a concentration that exceeds the solubility of the product, please contact us first.
(mother liquor concentration of 40 mg/mL), if you need to configure a concentration that exceeds the solubility of the product, please contact us first.Preparation method for in vivo formula: Take 50 μL DMSO main solution, add 300 μLPEG300 mix well and clarify, then add 50 more μL Tween 80, mix well and clarify, then add 600 more μLSaline/PBS/ddH2O mix well and clarify
main solution, add 300 μLPEG300 mix well and clarify, then add 50 more μL Tween 80, mix well and clarify, then add 600 more μLSaline/PBS/ddH2O mix well and clarifyFor Reference Only. Please develop an appropriate dissolution method based on your laboratory animals and route of administration.
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