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What is the chemical structure of 5-hydroxy-1-pentofuranosyl-1H-imidazole-4-carboxamide?
5 - hydroxy - 1 - pentofuranosyl - 1H - imidazole - 4 - carboxamide, of the formula\ (C_ {9} H_ {13} N_ {3} O_ {5}\), which is specific. The core of this compound is an imidazole, which is connected to a pentafuran group at 1 position, and has a carboxamide group at 4 positions of imidazole, and a group at 5 positions.
The pentafuran group is pentafuran, which has the oxygen atom of a typical furanose and a five-carbon atom, which is the main frame of the carbohydrate group. The glycosyl imidazole is concentrated in the 1-1 phase, and the glycosyl moiety is concentrated in the imidazole part.
Imidazole is composed of two nitrogen atoms and three carbon atoms. It is aromatic and provides important backbone support for the complex. The carboxyamide group is located at the fourth position of imidazole, and the presence of the carboxylamide group at the fifth position makes the compound have specific chemical activity. The presence of the carboxylamide group at the fifth position gives the compound certain water-based properties and certain chemical reactions.
, 5 - hydroxy - 1 - pentofuranosyl - 1H - imidazole - 4 - carboxamide of the chemical, imidazole, pentafuran sugar group, carboxyamide group and other parts of the delicate combination, the interaction of each part, determined the chemical compound specific physical.
What are the main uses of 5-hydroxy-1-pentofuranosyl-1H-imidazole-4-carboxamide?
5-Hydroxy-1 - (β - D-pentanosyl) -1H-imidazole-4-formamide, often known by its English abbreviation "IMP", has a wide range of uses in traditional medicine and health concepts. Here are the following:
First, it is related to nourishing the viscera. In traditional Chinese medicine, the human viscera needs subtle nourishment of qi and blood to maintain normal function. IMP can participate in many metabolic processes in the body and provide the necessary material basis for the operation of the viscera. For example, the heart controls the blood, IMP helps the synthesis and metabolism of related substances, so that the heart and blood are full, ensuring the normal beating of the heart and the smooth flow of the blood vessels; and for the liver to store blood and drain, IMP has a positive significance for the regulation of liver metabolism, helping it to play the ability to store blood and regulate qi.
Second, it is related to reconciling qi and blood. The harmony of qi and blood is the key to human health. IMP participates in important biochemical reactions such as nucleotide synthesis in the body, affects cell proliferation and repair, and indirectly regulates the generation and operation of qi and blood. The smooth flow of qi and blood nourishes the whole body, which can make the complexion ruddy and full of spirit. If qi and blood are dysregulated, it is easy to cause various diseases. IMP has the power of maintaining qi and blood harmony in this process.
Third, it involves enhancing the ability to resist external evil. The human body has sufficient righteousness to resist the invasion of external evil. IMP has a positive effect on the regulation of the immune system and can enhance the activity and function of the body's immune cells, such as promoting lymphocyte proliferation and enhancing macrophage phagocytosis. When external evil attacks, the body's immune system can respond more quickly and effectively under the action of IMP, reducing the chance of disease and maintaining good health.
What are the physical properties of 5-hydroxy-1-pentofuranosyl-1H-imidazole-4-carboxamide?
5-Hydroxy-1-pentafuranosyl-1H-imidazole-4-formamide is also a compound. Its physical properties are quite important, and it is related to many characteristics and uses of this compound.
Looking at its form, it may be white to white crystalline powder at room temperature. This form makes it more convenient in many operations, such as weighing, mixing, etc. Because it is a powder, it has a certain dispersion, and it is easier to disperse uniformly during the preparation of solutions.
When it comes to solubility, the compound can have a certain solubility in water. This property is very critical, covering many chemical reactions and biological experiments, often using water as a solvent. Moderate water solubility makes it able to participate in many aqueous reactions or play a role in physiological processes in organisms. However, its solubility may vary in organic solvents. For example, in ethanol, the solubility may be lower than in water, and in organic solvents such as chloroform, the solubility is also different. This different solubility provides a variety of possibilities for its separation, purification and application in different systems.
Its melting point is also one of the important physical properties. After determination, the melting point is in a specific temperature range. The determination of the melting point can not only be used to identify the compound, but also is of great significance in its production and storage process. If the temperature is not properly controlled and exceeds the melting point, the compound will change from solid to liquid, affecting its stability and quality.
In addition, the density of the compound also has its specific value. The property of density has reference value in terms of mass and volume conversion, as well as distribution in mixtures.
In short, the physical properties of 5-hydroxy-1-pentafuranosyl-1H-imidazole-4-formamide, such as morphology, solubility, melting point and density, are interrelated, which together determine its application and research direction in many fields such as chemistry and biology.
What is 5-hydroxy-1-pentofuranosyl-1H-imidazole-4-carboxamide synthesis method?
5-Hydroxy-1- (pentafuranosyl) -1H-imidazole-4-formamide, the synthesis method of this product is quite complicated.
To make this product, you first need to prepare all kinds of raw materials. One of the key raw materials is pentafuranose derivatives, which need to be carefully prepared, and its purity is related to the quality of the product. Or it can be converted into the desired pentafuranose derivative through a specific sugar compound through several steps of reaction. In the meantime, the control of the reaction conditions is crucial, the temperature and pH must be precisely controlled, and a slight difference will affect the formation of the product.
Another compound containing imidazole structure needs to be prepared. Or start from the basic organic raw materials and construct an imidazole ring through cyclization reaction. This process also requires consideration of the reaction reagents and conditions, and the selection of suitable catalysts to promote the efficient reaction and ensure the correct formation of the imidazole ring structure.
When the key raw materials are complete, the pentafuran derivatives are condensed with imidazole-containing compounds. This step needs to be carried out in a suitable solvent. The polarity and solubility of the solvent have a great impact on the reaction process. At the same time, specific additives are added to enhance the interaction between the reactants and improve the reaction rate and yield.
After the condensation reaction, the product is often impure and needs to be separated and purified. Or use column chromatography to separate the target product and impurities by the difference in the adsorption capacity of different fillers. Or use recrystallization method, according to the solubility of the product and impurities in different solvents, multiple crystallization to obtain pure 5-hydroxy-1- (pentafuran sugar) -1H-imidazole-4-formamide. The whole synthesis process requires fine operation and attention to detail in every step to obtain satisfactory results.
What are the common specifications of 5-hydroxy-1-pentofuranosyl-1H-imidazole-4-carboxamide in the market?
5-Hydroxy-1-pentafuranosyl-1H-imidazole-4-formamide is commonly used in the market, and the specifications vary. It is mostly measured in quantity, and there are a small amount of packages, about a few grams, which is convenient for beginners to test and observe its performance and efficacy. There are also medium packages, dozens of grams, suitable for those who have studied a little deeper, for their characteristics and application. There are also large quantities, measured in hundreds of grams, which are mostly prepared by workers or research institutes who often need this product, and can be used for long-term research.
Furthermore, its purity is also an important item. There are ordinary pure products, about 80-90% pure, which can be used for general purposes, and can be adapted to common research and testing or basic engineering systems. There are also high-purity products, with a purity of over 95%, suitable for fine research or high-end industrial production. The quality is pure and less disturbing, which can ensure the accuracy and accuracy of the results.
And its storage and packaging are also different. Or it is bottled, filled with glass vessels, sealed to protect its quality, avoid moisture and dust, and maintain its stability. Or it is packaged in bags and plastic bags, portable and can be taken as needed, but also need to pay attention to the dryness and cleanliness of the storage. All these specifications should be different, so that the user can choose according to the needs and make the best use.
