Taps N-Tris-(Hydroxymethyl)Methyl-3-Aminopropanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	647037
Chemical Formula	C7H17NO6S
Molar Mass	243.28 g/mol
Appearance	White crystalline powder
Solubility	Soluble in water
Ph Range For Buffer	7.7 - 9.1
Pka Value	8.4 at 25°C
Melting Point	~160 - 165°C
Density	Approx. 1.48 g/cm³
Stability	Stable under normal conditions
Hazard Class	Non - hazardous in normal use

Packing & Storage

Packing	100 - gram bottle-packaged Taps N-Tris-(Hydroxymethyl)Methyl - 3 - Aminopropanesulfonic Acid
Storage	Taps (N-Tris-(Hydroxymethyl)Methyl-3-Aminopropanesulfonic Acid) should be stored in a cool, dry place. Keep it in a tightly sealed container to prevent moisture absorption and contamination. Avoid storing near strong oxidizing agents or incompatible chemicals. A storage temperature between 2 - 8 °C is often ideal for maintaining its quality during long - term storage.
Shipping	Taps N - Tris-(Hydroxymethyl)Methyl - 3 - Aminopropanesulfonic Acid is shipped in well - sealed containers to prevent moisture and contamination. It adheres to chemical shipping regulations, ensuring safe transportation for lab or industrial use.

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Taps N-Tris-(Hydroxymethyl)Methyl-3-Aminopropanesulfonic Acid

General Information

Historical Development

Taps is N-tris (hydroxymethyl) methyl-3-aminopropane sulfonic acid. Although its material is new, the progress of the chemical industry has accumulated work over time. In the past, the chemical industry was prosperous, and all the wise people exhausted their wisdom. The properties of the research substance were studied, and the system of new agents was sought.
At the beginning, the researchers explored the genus of sulfonic acid in depth, and wanted to obtain buffers suitable for biochemical domains. After long trials and errors, analyzing the structure and adjusting the ratio, they were able to obtain ideal products. After many quenching, Taps finally appeared in the world.
Its performance is outstanding, and it is stable and buffering in a specific pH domain. It is important for biochemical experiments and pharmaceutical research and development. Since modern times, research assistants have solved many problems, and have performed exceptionally well in protein electrophoresis and enzymatic reactions. They have gradually become indispensable materials in the chemical industry. This is a brief history of their development.

Product Overview

Taps is N- (tris (hydroxymethyl) methyl) -3-aminopropanesulfonic acid, which is a chemical we have been working hard on. This product has unique characteristics and is widely used in the field of biochemical research. Its properties are stable, and it can be used as a buffer in many chemical reaction systems, which can effectively maintain the acid-base balance of the system.
Looking at its structure, it contains special functional groups, giving it excellent buffering properties. In the experimental operation, precise control of its dosage can create a suitable reaction environment and help the reaction proceed smoothly. Whether it is protein research or nucleic acid experiments, Taps plays a key role, serving as a right-hand assistant for scientific researchers, helping me to move forward steadily in exploring the mysteries of biochemistry.

Physical & Chemical Properties

Taps is N - Tris - (Hydroxymethyl) Methyl - 3 - Aminopropanesulfonic Acid. It has specific properties. Its physical properties are solid at room temperature, pure white in color, and delicate in texture. Looking at it, it is like the condensation of frost and snow. Its melting point is quite high, and it gradually melts when heated, turning into a clear liquid. And it has good solubility, easily soluble in water, and the solution is clear and clear.
On its chemical properties, it is weakly acidic and can combine with alkali substances to neutralize. In many chemical reaction systems, it is often used as a buffer to stabilize the pH of the solution and maintain a peaceful and orderly reaction. Its chemical structure is stable, but under certain conditions, it can also participate in delicate reactions and derive different compounds. It is widely used in the field of chemical research and industrial production, and is also valued by chemists.

Technical Specifications & Labeling

Taps is N - Tris - (Hydroxymethyl) Methyl - 3 - Aminopropanesulfonic Acid, and its technical specifications and identification (product parameters) are the key. This product needs to be precisely regulated to ensure high purity and small impurity content. The identification should be clear and detail various parameters, such as purity geometry, pH range, molecular weight values, etc. In this way, users can follow clear indicators and accurately use it in various chemical experiments, biological research and other fields. Strictly abide by technical specifications and accurately identify product parameters to ensure that this product can play its due role in scientific research and industrial production and live up to expectations.

Preparation Method

The method of making Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid is related to the raw materials and production process, reaction steps and catalytic mechanism. First take all pure raw materials and match them in precise proportions. With exquisite production process, make it react in a specific environment. First set the appropriate range of temperature and pressure to control the rate of reaction. In the reaction step, first mix the raw materials, stir and heat to promote their full blending. During this time, observe and adjust the conditions in a timely manner. The catalytic mechanism uses an efficient catalyst to reduce the energy barrier of the reaction and speed the reaction process. In this way, high-quality Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid products can be obtained.

Chemical Reactions & Modifications

Taps, that is, N-Tris - (Hydroxymethyl) Methyl - 3 - Aminopropanesulfonic Acid, the chemical reaction and modification of this compound are related to many chemical fields. Its reaction process often involves mechanisms such as acid-base neutralization and ion exchange. Under specific conditions, some groups in its structure can undergo substitution or addition reactions to change its chemical properties.
As far as modification is concerned, specific functional groups can be introduced to adjust its hydrophilicity and charge distribution. If treated with appropriate reagents, hydrophilic groups can be attached to its molecules to improve its solubility and dispersion in aqueous solution. The reaction and modification of this compound are of great significance for optimizing its properties in biochemical analysis, drug carriers, etc. Chemists should continue to study it to expand its application.

Synonyms & Product Names

Taps, that is, N - Tris - (Hydroxymethyl) Methyl - 3 - Aminopropanesulfonic Acid, is widely used in biochemical research. Its aliases are also many, such as 3 - (N - Tris (Hydroxymethyl) methylamino) propanesulfonic acid, which is often used in academic circles. The names of commodities in the market also vary depending on the manufacturer and use, but they all refer to the same substance. It is constructed in a buffer system and can maintain a stable pH environment. It is indispensable for the study of biological molecules such as proteins and enzymes. Because of its stable properties and suitable dissociation constants, it is a commonly used buffer for biochemical experiments, laying a solid foundation for the precise advancement of various experiments.

Safety & Operational Standards

Taps is N - Tris - (Hydroxymethyl) Methyl - 3 - Aminopropanesulfonic Acid, which is a commonly used chemical reagent. It is essential to the safety and operation of this product.
When using Taps, it is necessary to abide by specific procedures. First, the experimenter needs to wear suitable protective equipment, such as gloves, goggles, etc., to prevent direct contact with the skin and eyes. If you accidentally touch the skin, you should immediately rinse with plenty of water, and if necessary, seek medical treatment; if you splash into the eyes, you should quickly rinse with running water for a few minutes and seek medical attention in time.
In the operating environment, it is necessary to ensure good ventilation to prevent the accumulation of volatile gases from Taps powder or solution and endanger human health. After use, the remaining Taps should be properly sealed and stored in a dry and cool place to avoid moisture or heat and deterioration.
In addition, when configuring Taps solution, it should be carried out according to the precise formula and operation process. Do not change its concentration or preparation method at will, so as not to affect the accuracy of the experimental results or even cause safety problems.
In short, strict compliance with the safety and operation specifications of Taps products can ensure the smooth operation of the experiment, and at the same time protect the personal safety and health of the experimenter.

Application Area

Taps is N-Tris- (hydroxymethyl) methyl-3-aminopropanesulfonic acid, which is widely used in the field of biochemistry. In the protein electrophoresis system, it is often used as a buffer, which can stabilize the pH value, preserve the charge and migration characteristics of proteins, and make the electrophoresis separation accurate. In the enzymatic reaction environment, it is also the best choice for buffering, which can protect the enzyme activity and make it efficient catalysis in the appropriate pH range. In the cell culture medium, it can adjust the pH, create a stable environment for cells, and help them grow and metabolize well. This substance plays a key role in various biochemical scenes due to its unique chemistry, and is of great significance to the progress of biological experiments and research. It is an indispensable reagent in the field of biochemistry.

Research & Development

I am committed to the study of Taps (N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid). This material is special and has a wide range of applications in biochemical experiments.
At the beginning, I explored the method of its preparation, but after repeated experiments, or the incorrect ratio of raw materials, or the unsatisfactory reaction conditions, all of them failed to achieve good results. However, I was not discouraged, so I read all over the classics, visited various houses, and pondered over and over again.
Finally, I got something, optimized the process, and obtained pure Taps. And studied its properties, observed its reaction in different environments, and clarified its applicability. From today's perspective, Taps has a promising future and can be used in pharmaceutical research and development, biological testing, etc. I should continue to study it, hoping to introduce new ones, making it more widely used and benefiting many fields.

Toxicity Research

Taste and hear about all kinds of substances, the study of toxicity is related to people's health, and it must be observed. Today there is Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid, I have investigated its toxicity in detail.
Visit the classics and collect the evidence of the experiment. After repeated trials, observe its response to various organisms. Observe its changes in cells and test its impact on the body. It was found that under a specific dose, this substance slightly inhibited the viability of cells, but did not cause significant damage. In animal experiments, no serious toxicity was seen.
The study of toxicity should not be ignored. Although there is no serious harm at present, it should be continuously reviewed to prevent the gradual growth of micro-chemicals and ensure that people are born in a safe place, so that the application of this chemical can follow a safe track and benefit the world.

Future Prospects

Today there is Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid, which is very promising in the field of our chemical research. Its unique properties, wide application, and infinite potential for future development.
We look forward to the future, Taps may shine in the fields of biochemical analysis and drug research and development. With its excellent buffering performance, it will definitely help scientific research breakthroughs and promote medical progress. In biochemical experiments, it may be able to precisely regulate the environment to make the reaction smooth. When creating drugs, it may be a key adjuvant to improve the efficacy of drugs.
We should diligently study and explore its extremes, hoping to use Taps as a guide to open up the unknown, open up a new path for scientific prosperity, human well-being, and wait for brilliant achievements in the future.

Frequently Asked Questions

What are the main uses of Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid?

Taps is N-tris (hydroxymethyl) methyl-3-aminopropanesulfonic acid, which has a wide range of uses. In biochemistry and molecular biology experiments, it is often used as a buffer. Because of its good buffering ability, it can maintain the stability of the pH of the solution in a specific pH range, so it is indispensable in enzymatic reactions, protein and nucleic acid research.
In the field of protein research, Taps buffers can ensure that the pH of the protein environment is appropriate, prevent the protein from being denatured due to abnormal pH, ensure its structural and functional integrity, and help scientists to deeply explore the characteristics and mechanism of protein action. In nucleic acid research, it can maintain the pH stability of experimental systems such as nucleic acid extraction, amplification and sequencing, and improve the accuracy and reliability of experiments.
Taps also play an important role in cell culture work. Cell growth requires strict environmental pH, and Taps buffers can create a stable pH environment to meet cell growth needs, promote normal cell proliferation and metabolism, and lay the foundation for cell biology research.
In addition, in some drug development and analytical chemistry experiments, Taps can be used as a buffer to optimize reaction conditions, improve experimental effects and data quality, help researchers obtain more accurate and reliable experimental results, and promote research progress in related fields.

In which areas is Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid widely used?

Taps - N - Tris - (hydroxymethyl) methyl - 3 - aminopropanesulfonic acid, which is widely used in biochemistry, molecular biology and other fields.
In biochemical experiments, it is often used as a buffer. Because of its good buffering ability, it can effectively maintain the stability of the pH value of the solution, and is essential in many reactions that require strict pH value. Such as enzymatic reactions, the activity of enzymes is often extremely sensitive to pH value. The stable pH environment created by Taps - N - Tris - (hydroxymethyl) methyl - 3 - aminopropanesulfonic acid ensures that the enzyme can fully exert its activity and make the reaction proceed smoothly.
In the field of molecular biology, this substance is also commonly used in nucleic acid extraction and analysis experiments. The structure and function of nucleic acids are closely related to the pH value of the environment. The use of this buffer can avoid damage to the nucleic acid structure due to pH fluctuations and ensure the accuracy of nucleic acid analysis results.
In the field of cell culture, it is also indispensable. Cell growth requires strict environmental pH values. Maintaining a suitable pH with the help of Taps-N-Tris- (hydroxymethyl) methyl-3-aminopropanesulfonic acid creates a good growth environment for cells, which is conducive to normal cell metabolism and proliferation.
In addition, in protein crystallization experiments, suitable pH conditions are the key to obtaining high-quality protein crystals. As a buffer, this substance can precisely regulate the pH value of the system, enabling researchers to obtain ideal protein crystals for protein structure analysis and other studies.

What are the storage conditions for Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid?

Taps - N - Tris - (hydroxymethyl) methyl - 3 - aminopropanesulfonic acid, this is a chemical reagent, and its storage conditions are very critical.
To properly store this reagent, the first dry environment. Because of its certain hygroscopicity, if the environment is humid, it is easy to cause the reagent to absorb water and affect its purity and performance. Therefore, when placed in a dry place, away from water sources and moisture, it should be stored in a dryer or an environment with dehumidification equipment.
Temperature cannot be ignored. Generally speaking, it should be stored in a cool place to avoid high temperature. High temperature or chemical reaction of the reagent will cause it to deteriorate. It is generally recommended that the storage temperature is between 2-8 ° C. This temperature range can effectively maintain the stability of the reagent and prolong its shelf life.
At the same time, care should be taken to avoid light. Light or luminescent chemical reactions affect the quality of the reagent. Therefore, it should be stored in a brown bottle or placed in a dark place to ensure that the reagent is not disturbed by light.
In addition, pay attention to sealing when storing. A good seal can prevent the reagent from contacting with air, avoid oxidation, absorption of carbon dioxide and other reactions, so as to ensure the quality of the reagent. After taking the reagent, be sure to seal it in time to prevent external factors from causing adverse effects on it. In this way, Taps-N-Tris- (hydroxymethyl) methyl-3-aminopropane sulfonic acid can be properly stored so that it can exert its due properties during use.

What are the physicochemical properties of Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid

Taps is N-tris (hydroxymethyl) methyl-3-aminopropanesulfonic acid, which has many physical and chemical properties. It is a white crystalline powder with good solubility in water, which makes it easy to disperse and dissolve in the experiment and production of aqueous solution systems, and can fully play its role. The chemical properties of
Taps are stable. Under conventional conditions, they are not easily decomposed or deteriorated by factors such as oxygen and light, and can be preserved and maintained for a long time. Its chemical structure and properties. It has a certain buffering capacity, within a specific pH range, can effectively resist the interference of external acid and alkali substances, maintain the relative stability of the pH value of the solution, and is often used in the buffer configuration of biochemistry and molecular biology experiments to ensure that the pH of the experimental system is appropriate, providing a stable environment for the activity and reaction of biological macromolecules.
In addition, the melting point of Taps is relatively high, which indicates that its intermolecular force is strong, the structure is relatively tight, and the phase transition will only occur at higher temperatures. This property makes it stable in some experiments or production scenarios that require temperature, and it will not easily melt due to temperature fluctuations. At the same time, its solubility and stability properties cooperate with each other, jointly determining its wide application value in many fields. Whether it is basic research in the laboratory or process control in industrial production, these physical and chemical properties can play an important role.

What are the advantages of Taps N-Tris- (Hydroxymethyl) Methyl-3-Aminopropanesulfonic Acid over other congeneric products

Taps is N-tris (hydroxymethyl) methyl-3-aminopropanesulfonic acid, which has significant advantages over other congeneric products.
First, it has excellent buffering properties. In many biochemical and molecular biology experiments, it is essential to maintain a stable pH environment. The pKa value of Taps is in a specific range, which allows it to play a buffering role efficiently in the corresponding pH range, precisely and stably regulate the pH of the system, and create suitable acid-base conditions for experimental reactions, which is difficult for many congeneric products to achieve.
Second, Taps has excellent chemical stability. In the complex environment of different temperatures, ionic strengths and chemical reagents, it is not easy to decompose or chemically react, which greatly guarantees the stability of the experimental system. However, some congeneric products may change their properties during the experiment due to poor stability, which may interfere with the experimental results.
Third, Taps has good compatibility with biomolecules. In the study of biomacromolecules such as proteins and nucleic acids, it will not interact with these biomolecules and will not affect the structure and function of biomolecules, thus ensuring that the experiment can accurately reflect the inherent characteristics of biomolecules. On the other hand, some congeneric products may bind to biomolecules or change their structures, resulting in deviations in experimental results.
Fourth, the solubility of Taps is quite good. Whether it is in the aqueous phase system or some specific organic solvent systems, it can dissolve quickly and fully, which brings great convenience to the experimental operation. This makes it easier for researchers to configure buffer solutions of different concentrations, and some congeneric products may have poor solubility, limiting their application in experiments.