2-{[(3Alpha,5Beta,7Beta,8Xi,9Xi,14Xi)-3,7-Dihydroxy-24-Oxocholan-24-Yl]Amino}Ethanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	507171
Chemical Formula	C26H43NO7S
Molecular Weight	513.69 g/mol
Appearance	Solid (likely white or off - white powder)
Solubility	Soluble in polar solvents like water to some extent
Pka	Values exist for acidic functional groups
Melting Point	Specific value determined by experimental analysis
Stability	Stable under normal storage conditions, may degrade in extreme pH or temperature
Ir Absorption	Characteristic peaks for hydroxyl, carbonyl, amino, and sulfonic acid groups
Uv Absorption	Absorption bands related to conjugated systems (if present)

Packing & Storage

Packing	100 - gram pack of 2-[(3α,5β,7β,8ξ,9ξ,14ξ)-3,7 - Dihydroxy - 24 - oxocholan - 24 - yl]aminoethanesulfonic acid.
Storage	Store 2-[(3α,5β,7β,8ξ,9ξ,14ξ)-3,7 - Dihydroxy - 24 - oxocholan - 24 - yl]aminoethanesulfonic Acid in a cool, dry place away from heat sources. Keep it tightly sealed in its original container to protect from moisture and oxidation. Store separately from incompatible materials to prevent chemical reactions.
Shipping	The chemical "2-{[(3Alpha,5Beta,7Beta,8Xi,9Xi,14Xi)-3,7 - Dihydroxy - 24 - Oxocholan - 24 - Yl]Amino}Ethanesulfonic Acid" must be shipped in accordance with hazardous chemical regulations, using suitable packaging to prevent leaks.

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2-{[(3Alpha,5Beta,7Beta,8Xi,9Xi,14Xi)-3,7-Dihydroxy-24-Oxocholan-24-Yl]Amino}Ethanesulfonic Acid

General Information

Historical Development

Regarding the historical development of [specific chemical substances]
Ancient scholars have studied the principles of all things. Today there is a thing called [2- [ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino] ethanesulfonic acid. The research of this substance has gone through years and is quite worth a note.
In the past, the Fang family was first involved in this field, and their understanding of it was still shallow. However, everyone adhered to the heart of research and has observed and experimented over the years. At first, only a few of its characteristics were known, and then its structure and characteristics were gradually clarified. With the deepening of research, the method of its preparation has also been refined. From the initial crude attempt to the later fine craftsmanship, every step has been condensed with the efforts of the public. This substance has been little known to various fields, which is a witness to the development of chemical research, and also paves the way for future generations to explore the unknown.

Product Overview

2 - {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxo-cholesterol-24-yl] amino} ethanesulfonic acid, this is a special compound. Its structure is unique and contains specific spatial configurations and functional groups. The 3,7 position has a dihydroxy group, the 24 position is an oxo group, and it has the structure of ethanesulfonic acid amino group.
This compound may have specific properties and uses in chemical research. It is used in biochemical reactions, pharmacological studies, etc., or exhibits special activities due to its unique structure. Researchers may use its characteristics to explore potential applications in medicine, biotechnology, etc. In-depth analysis of it could bring new opportunities for the development of related fields.

Physical & Chemical Properties

2 - [ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7 -dihydroxy-24-oxocholesterol-24-yl] aminoethanesulfonic acid, the physical and chemical properties of this substance are quite important. Its shape or crystalline state, pure color and uniform quality. Melting point and boiling point are characteristics related to its stability and application. Solubility varies in different solvents, and it varies in water or organic agents. Its chemical activity varies with functional groups, and the properties of hydroxyl and amino groups affect the direction of reaction. During chemical reactions, or participate in condensation and substitution changes, and form new products with the beauty of its structure. Understanding its physical and chemical properties can make good use of it, and it can be used in various fields of medicine and chemical industry to develop its growth and contribute to the progress of the industry.

Technical Specifications & Labeling

Today there is a product called "2- { (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid". In our pursuit of chemical research, technical specifications and identification (product parameters) are of the utmost importance.
The technical specifications of this product should be accurate and clear. The proportion of its ingredients, physical and chemical properties, etc. should be recorded in detail to meet the requirements of research and application. And its identification (product parameters) should not be sparse, from the appearance of the characterization to the internal characteristics of the parameters, should be correct, as the identification and use of evidence.
Only in this way can we follow the path of research and follow the rules, so that the nature of this product can be clarified, used well, and contribute to the progress of chemical research.

Preparation Method

To obtain\ (2 -\ { (3\ alpha, 5\ beta, 7\ beta, 8\ xi, 9\ xi, 14\ xi) -3,7 -dihydroxy-24-oxocholesterol-24-yl\} aminoethylenesulfonic acid\), the method of preparation must first clarify the materials and production process. Select high-quality raw materials, such as cholesteroids with specific configurations, with appropriate sulfonating reagents.
The reaction step is also critical, temperature control, time control and pressure control. Before the appropriate temperature, the cholesterol compound and the sulfonate agent are mixed to initiate the reaction. The process needs to be monitored and the conditions fine-tuned in a timely manner. The catalytic mechanism of
cannot be ignored. High-efficiency catalysts are selected to accelerate the reaction and yield. Such as some metal salts or organic base catalysts, the reaction path is optimized. In this way, the product may be obtained by this method.

Chemical Reactions & Modifications

There is a chemical thing called "2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} Ethanesulfonic Acid", and my generation studied it. The reaction and change of chemistry are really the key to studying this substance.
Looking at its structure, many groups are connected, and it should be different, or it varies from environment to environment. In case of acid and alkali, it may cause neutralization; in case of light and heat, it may decompose. Its chemical response can generate new substances or change its properties.
We should carefully investigate its change and understand its mechanism. If we can make good use of it, we can make good medicines, or use it in work, and benefit the world. However, if you don't know the change, do it rashly, or cause disaster. Therefore, in the response and change of chemistry, it is necessary to be careful and study in depth, in order to control this substance and benefit mankind.

Synonyms & Product Names

Today there is a thing called (2 - {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7 - Dihydroxy - 24 - Oxocholan - 24 - Yl] Amino} Ethanesulfonic Acid). Although its name is complicated, it is also known by another name in the industry. It is common in the world to cover the same thing with different names. This compound has a very important position in our research. Or because of its unique structure, (specific configurations such as 3Alpha, 5Beta, 7Beta, etc.) and the hydroxyl and carbonyl groups it contains, it is endowed with different properties. It is called by people in the industry under different names, which is convenient for research and communication. There may be those who have aliases based on their characteristics, and there are those who have trade names based on their uses. Although the titles are different, they actually refer to the same thing. Looking forward to future research, we can use this different name to explore its mysteries more deeply and contribute to chemical research.

Safety & Operational Standards

Drug safety and practice theory (take 2- { (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxycholane-24-yl] amino} ethanesulfonic acid as an example)
The development of drugs is related to human life and cannot be careless. Today, 2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxycholane-24-yl] amino} ethanesulfonic acid is a drug whose safety and operation standards are of paramount importance.
At the safety end of the drug, the purity of the first raw materials. When picking raw materials, it is necessary to carefully check their sources and prevent the mixing of impurities. If the raw materials are impure, the efficacy of the drug is difficult to measure, and there may be toxic side effects, endangering patients. The second and preparation environment must be clean and sterile. Dust, microorganisms, etc. can damage the quality of the drug, so the preparation place should be cleaned frequently to comply with hygienic regulations.
As for the operation specifications, the preparation method should follow the established procedures. Every step is reasonable and cannot be changed. The accuracy of weighing is related to the dosage of the drug. If the dosage is inaccurate, the efficacy of the drug will not be reached, or even harm. The reaction conditions, such as temperature, time, etc., should not be ignored. Too high or too low temperature, too long or too short time, can cause the composition of the drug to mutate.
When storing, check the properties of the drug. 2 - { (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7 -dihydroxy-24-oxycholane-24-yl] amino} ethanesulfonic acid If it is afraid of light, it should be hidden away from light; if it is afraid of moisture, it must be placed in a dry place.
When used in clinical practice, the doctor must understand its pharmacology and review the patient's condition to determine the appropriate amount. Patients should also follow the doctor's advice and do not increase or decrease the amount of medicine.
In short, the safety and operating standards of medicines are interlinked and affect life and death. Developers, doctors, and patients should all act carefully in order to obtain the benefits of medicine and avoid the harm of medicine.

Application Area

Since modern times, with the refinement of chemistry, many new things have come to light. Today there is a thing called "2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} Ethanesulfonic Acid", and its application field is quite extensive.
In the field of medicine, this substance may have unique effects. It can help doctors heal various diseases, or adjust the biochemical balance of the human body, so that patients can be healed. It is used in pharmacological mechanisms or precisely acts on specific targets to achieve the purpose of curing and saving people.
In scientific research and exploration, it is also an important tool. Researchers use its characteristics to deeply study the mysteries of life and the laws of material changes. It helps the academic community to understand biochemical reactions, physiological functions and other aspects, and promotes the expansion of the frontier of science. It adds to the treasure house of human knowledge, promotes the prosperity of learning, and is widely used. It is something that cannot be underestimated.

Research & Development

Today there is a product called " (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxo-cholane-24-ylamino] ethanesulfonic acid". As a chemical researcher, I explore this product.
Study this product to clarify its properties and explore its use. After many tests, observe its response to various products, and test its physicochemical properties. This product has a unique reaction under specific conditions, or can have extraordinary performance in the field of medicine.
However, the road to research and development is full of thorns. To make it useful to the world, it is still necessary to study its mechanism and refine its preparation method to achieve perfection. I will do my best to study unremittingly, hoping to achieve something, so that this thing will shine in the world and contribute to research and development.

Toxicity Research

Studies on the toxicity of [2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid]
The author wants to investigate the toxicity of [2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid], which is a serious task of chemical research.
This substance has been carefully investigated and its effects on organisms have been observed in various experiments. Take the animal as the test, apply this substance, and examine its physiological changes in detail. Or observe its behavior, or test its organ function, and strive to understand the signs of its toxicity.
However, the study of toxicity is not achieved overnight. It is necessary to study the difference in dosage and observe the difference in the effect under different dosages. And when the time of action is long, explore the hidden changes in the organism after long-term exposure.
And different organisms may have different reactions to its toxicity. Therefore, it is necessary to involve a wide range of organisms and consider comprehensively to obtain the true appearance of its toxicity, which will provide solid evidence for the application and prevention of this substance in the future.

Future Prospects

Sad husband! Looking at this (2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid), I think about its future prospects, and my heart is full of excitement. This substance has a unique structure and seems to contain endless potential. Our generation of chemical researchers, studying day and night, hope that in the field of medicine, it can become a cure and save people; in the land of industry, it can turn corruption into magic and help production be efficient. May its future be like Kunpeng's wings, soaring up 90,000 miles. It can solve the problems of the world, create unprecedented achievements, and seek well-being for future generations, and become a work of thousands of generations. We should do our best to promote its development, and in the future, we will see it shining brightly, blooming infinite light, leading the trend of the times, and opening up unknown new frontiers.

Frequently Asked Questions

What is the chemical structure of 2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} Ethanesulfonic Acid?

This is the chemical structure analysis of (2- {[ (3α, 5β, 7β, 8α, 9β, 14β) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid). Its structure is related to cholic acids, with cholesterane as the parent nucleus.
The parent nucleus cholesterane has a tetracyclic structure, that is, A, B, C, D tetracyclic fused. There are substituent modifications at specific positions, such as the 3-position and the 7-position connected to a hydroxy (-OH), and the dihydroxy group is spatially oriented to α and β types. The 24-position is an oxo group (= O), forming a 24-oxo structure. In addition, the 24-oxocholesterol-24-yl group is connected to ethanesulfonic acid (-CH ³ CH ³ SO ³ H) through an amino group (-NH -), which is the key structural feature of 2 - {[ (3α, 5β, 7β, 8 🥰, 9 🥰, 14 🥰) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid.
The interaction between each atom and the group in this chemical structure determines the physical and chemical properties of the compound, or has specific physiological activities in living organisms, or participates in specific biochemical processes.

2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} What are the main uses of Ethanesulfonic Acid?

2-% {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholane-24-yl] amino} ethanesulfonic acid, often called taurine, is an important component of bile acids. Its main uses are as follows:
1. ** Digestive aid **: Taurine is a key component of bile and helps fat emulsification, hydrolysis and absorption. Food enters the small intestine, bile is secreted, and taurine disperses fat droplets into small particles, increases the area of lipase action, facilitates fat digestion and absorption, and also promotes fat-soluble vitamin absorption.
2. ** Hepatitis and liver protection **: It can promote bile secretion and excretion, maintain biliary tract unobstructed, and prevent cholestasis. It can also protect liver cells, enhance liver detoxification and metabolic functions, and is beneficial to liver damage repair. It is often used in adjuvant treatment of liver and biliary diseases.
3. ** Medicinal research **: In the pharmaceutical field, it is a variety of drug raw materials or additives for the preparation of biliary, anti-inflammatory, and digestive drugs. In scientific research, it is an important tool for the study of bile acid metabolism, hepatobiliary physiology and pathology, to help reveal the mechanism of related diseases, and to develop new therapies.
4. ** Other **: The addition of taurine in the feed industry can improve animal digestive function, promote growth and development In the food industry, it can be used for the development of special foods and health products because of its certain emulsification and stability.

2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} What is the production process of Ethanesulfonic Acid?

To prepare 2 - {[ (3α, 5β, 7β, 8α, 9β, 14β) -3,7-dihydroxy-24-oxocholane-24-yl] amino} ethanesulfonic acid, the preparation method is as follows:
The preparation of this compound is often based on cholic acid compounds. First modify the specific position of cholic acid, introduce hydroxyl groups at the 3,7 positions of cholic acid, this step may be achieved by a specific oxidation reaction. Select a suitable oxidizing agent, control the reaction conditions, such as temperature, pH and reaction time, etc., to promote the precise oxidation of cholic acid at the corresponding position and convert it into an intermediate containing 3,7-dihydroxy groups.
Then, the 24-position of this intermediate is oxidized to turn it into a carbonyl group to obtain a 3,7-dihydroxy-24-oxycholane derivative. This oxidation process also requires fine regulation of the reaction conditions to ensure that the reaction occurs smoothly and precisely at the 24-position.
Then, the derivative is condensed with a reagent containing an aminoethanesulfonic acid structure. Select a suitable condensation agent, such as carbodiimide reagent, in a suitable solvent system, such as dichloromethane, N, N-dimethylformamide, etc., to promote the condensation of the two to form the target product 2- {[ (3α, 5β, 7β, 8α, 9β, 14β) -3,7-dihydroxy-24-oxycholane-24-yl] amino} ethanesulfonic acid. After the reaction is completed, the high-purity product is obtained through separation, purification and other steps. The purification method may be column chromatography, recrystallization method, etc., to meet the requirements of product purity.

2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} What are the physicochemical properties of Ethanesulfonic Acid?

2-% {[ (3 α, 5 β, 7 β, 8 🥰, 9 🥰, 14 🥰) -3,7-dihydroxy-24-oxocholesterol-24-yl] amino} ethanesulfonic acid, this substance has many physical and chemical properties. Its properties are mostly white to off-white crystalline powders with certain solubility and solubility in water. The solubility in organic solvents varies depending on the properties of the solvent. For example, the solubility is relatively good in polar organic solvents, and poor in non-polar solvents.
The melting point is within a specific range and fluctuates slightly due to factors such as purity, about a certain temperature range. In terms of stability, it is relatively stable under normal storage conditions, but the structure may change in case of extreme conditions such as strong acid, strong alkali or high temperature and high humidity. It can be ionized in solution, and there is a corresponding acid-base balance. The degree of ionization is significantly affected by the pH value of the solution. Molecules contain specific functional groups, which determine their chemical reactivity. They can participate in a variety of chemical reactions, such as substitution and addition with specific reagents, laying the foundation for their application in chemical synthesis and drug development.

2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3, 7-Dihydroxy-24-Oxocholan-24-Yl] Amino} What is the current status of Ethanesulfonic Acid in the market?

Today, there are 2- {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7-dihydroxy-24-oxocholane-24-yl] amino} ethanesulfonic acid. How is the situation in the market? This is a fine chemical, often known as taurine. Taurine is used in medicine, food, and feed industries and has a wide range of uses.
In the field of medicine, taurine has cholagogic, anti-inflammatory, and detoxifying effects. It can be used for the treatment of hepatobiliary diseases, such as cholecystitis and gallstones. It can promote bile secretion and excretion, help fat digestion and absorption, and can regulate intestinal flora and improve body immunity.
In the food industry, taurine can be used as a food additive and added to functional foods to increase the nutritional value and health function of food.
In the feed industry, taurine can be added to animal feed to improve animal growth performance, enhance immunity, improve meat quality, and then improve breeding efficiency.
The supply of taurine in the market originates from chemical synthesis and biological extraction. The chemical synthesis method has low cost and considerable yield; the biological extraction method has high product purity and good biological activity. With the increase in market demand, the production technology of taurine is also improving day by day, and the quality and output are improved.
In terms of market competition, many manufacturers are involved in this field, and the competition is quite fierce. Enterprises with technological and brand advantages are more likely to stand out and occupy a large market share. Overall, 2 - {[ (3Alpha, 5Beta, 7Beta, 8Xi, 9Xi, 14Xi) -3,7 - dihydroxy - 24 - oxycholane - 24 - yl] amino} ethanesulfonic acid has broad market prospects and demand is growing.