g-Hydroxy-3-pyridinebutanoic Acid

I am looking at your words, but I am inquiring about the chemical structure of "γ-Hydroxy-3 - pyridinebutanoic Acid". This substance, based on chemistry, has a unique structure.
"γ-Hydroxy-3 - pyridinebutanoic Acid", where "γ-Hydroxy", the epihydroxyl group is in the γ position. In organic chemistry, the γ position is the fourth position counted from the beginning of a specific functional group or main chain. Here the hydroxyl group is connected to the γ position of a specific carbon chain.
"3-pyridine" shows that its structure contains a pyridine ring, and the pyridine ring is connected at the third position of the carbon chain. The pyridine ring has a unique aromatic property. It consists of five carbon atoms and one nitrogen atom to form a six-membered ring structure. Its electron cloud is evenly distributed and its properties are stable.
"butanoic Acid" shows that the substance contains a butyric acid structure, which is a carboxylic acid containing four carbon atoms. The carboxyl group of butyric acid (-COOH) is its important functional group and is acidic.
In summary, the chemical structure of "γ-Hydroxy-3-pyridinebutanoic Acid" is the structure of a carbon chain with a hydroxyl group at the γ position, a pyridine ring at the 3rd position, and a carboxyl group at the end of the carbon chain. This structure integrates various functional groups such as hydroxyl, pyridine ring, and carboxyl group, making it possess the characteristics of each functional group, and may have unique applications and reactivity in many fields such as organic synthesis and medicinal chemistry.

G-hydroxy-3-pyridyl butyric acid, this substance has a wide range of uses. In medicine, it can be a key raw material for the creation of new drugs. Due to its unique chemical structure, it can interact with many targets in the body, or help to develop specific drugs for specific diseases, such as nervous system diseases, cardiovascular diseases and other fields, which is expected to bring good news to patients.
In the chemical industry, it also has important functions. It can be used as a starting material for the synthesis of special polymer materials. After ingenious chemical reactions, the materials are endowed with unique physical and chemical properties, such as excellent flexibility and stability. It is widely used in the improvement of plastics, fibers and other materials to improve product quality and performance.
In the field of biological research, g-hydroxy-3-pyridinobutyric acid can be used as a biomarker or a tool for metabolic research. By tracking its metabolic pathways and changes in organisms, researchers can gain insight into the complex physiological and biochemical processes in organisms, contributing to the exploration of life science, helping to reveal the mysteries of life, and promoting the development of theory and practice in related fields.

The synthesis method of g-hydroxy-3-pyridyl butyric acid is not directly described in the ancient book "Tiangong Kaiwu", but according to the principles of the ancient method, or related ideas can be found.
To make this product, or can start from the selection of raw materials. Find natural materials containing pyridine structures related to hydroxyl and carboxyl groups. This is the common way in ancient times. Natural products are pure and good in nature, and can be used as the basis for synthesis.
In the reaction method, we can think of doing it under mild conditions. For example, the ancient method of boiling and extraction, or the control of temperature and time can be used to make the materials react slowly. Using a kettle as a device, warm and low fire, so that the materials can be blended, imitating the ancient people's slow work and meticulous work. < Br >
It can also be used to combine media and find a suitable catalyst. Although the ancient method lacks the concept of modern accurate catalysts, it may be possible to borrow natural materials, such as certain ores, plant ash, etc., to promote the speed of reaction and increase the amount of yield.
In the section of separation and purification, the method of taking and crystallizing should be used by the ancients. Use a fine cloth, remove the residue, and apply an appropriate solvent to crystallize the product and remove its impurities to obtain pure g-hydroxy-3-pyridinobutyric acid.
Although there is no detailed method in "Tiangong Kaiwu", the ancient wisdom can be used to borrow natural materials, control the reaction conditions, and follow the order of separation and purification, or this synthesis can be achieved.

G-hydroxy-3-pyridinobutyric acid, this is an organic compound. Its physical properties are quite unique and have diverse characteristics.
Looking at its appearance, under normal circumstances, g-hydroxy-3-pyridinobutyric acid is mostly white to white crystalline powder. This morphology is conducive to observation and identification, and it is also convenient for subsequent operations. Because of its powder shape and good dispersion, it can participate more fully in the reaction in many reaction systems.
When it comes to solubility, this compound exhibits a certain solubility in water and alcohol solvents (such as methanol and ethanol). When dissolved in water, it can form hydrogen bonds and other interactions with water molecules, and then uniformly disperse between water molecules. In alcohol solvents, based on the principle of similarity and miscibility, it can also be dissolved by virtue of the mutual fit of its molecular structure with alcohol solvents. This solubility property makes it possible to prepare solutions and participate in reactions in the fields of drug preparation and chemical synthesis.
In terms of melting point, g-hydroxy-3-pyridinobutyric acid has a specific melting point range. Accurate determination of its melting point is crucial to judge the purity of the compound. The melting point of pure g-hydroxy-3-pyridinobutyric acid is relatively fixed. If it contains impurities, the melting point often shifts or the melting range becomes wider. By accurately measuring the melting point, its quality and purity can be effectively controlled to ensure stable performance in various application scenarios.
Furthermore, g-hydroxy-3-pyridyl butyric acid also has a certain degree of hygroscopicity. Because some groups in its molecular structure have affinity for water molecules, it is easy to absorb moisture in the air in a high humidity environment, resulting in increased weight, morphological changes, and even affecting its chemical stability and reactivity. Therefore, during storage and use, it is necessary to pay attention to control the ambient humidity and store it properly to prevent moisture absorption from affecting its quality and application effect.

I don't know the price range of "g - Hydroxy - 3 - pyridinebutanoic Acid" in the market. This is a chemical product, and its price often varies depending on quality, purity, supply and demand, and source. If you want to find the price, you should ask the quotation of the chemical reagent supplier, or check it carefully on the chemical trading platform. For chemical products, the price changes are irregular, and real-time information shall prevail. If you want to know for sure, you can consult someone in the industry, or search on a professional chemical trading website to get a close price range. Don't rely on assumptions, but rely on market conditions and what the merchant has quoted.