Benzothiazole 6 Amino
quinoline thiophene imidazole thiazole

Benzothiazole, 6-amino-

    Specifications

    HS Code

    953422

    Chemical Formula C7H6N2S
    Molecular Weight 150.206 g/mol
    Appearance Solid
    Odor Typical of heterocyclic amines
    Melting Point 159 - 162 °C
    Solubility In Water Poorly soluble
    Solubility In Organic Solvents Soluble in common organic solvents like ethanol, methanol, acetone
    Pka Value Related to the basicity of the amino group, approximate pKa in the range of 4 - 5 for the conjugate acid of the amino group
    Uv Vis Absorption Absorbs in the ultraviolet region characteristic of benzothiazole and amino - substituted aromatic compounds

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    Where to Buy Benzothiazole, 6-amino- in China?
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    Frequently Asked Questions

    As a leading Benzothiazole, 6-amino- supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

    What are the chemical properties of this product "6-Aminobenzothiazole"?
    "6-Aminopurine", also known as adenine, is an important organic compound that plays a key role in many biochemical processes. Its chemical properties are unique, let me tell you in detail.
    The molecular formula of adenine is $C_5H_5N_5 $, and the number of nitrogen atoms is quite large, which makes it weakly basic. In common acid-base environments, it can react with acids to form corresponding salts. This property makes it play a subtle role in maintaining acid-base balance in organisms.
    Furthermore, adenine has a conjugated system, which gives it a certain stability. Due to its conjugation effect, electrons can be delocalized in the entire conjugated system, thereby reducing the energy of molecules. This stability not only affects its own chemical behavior, but also is crucial for the structural stability of biological macromolecules such as nucleic acids.
    The solubility of adenine is also characterized. Slightly soluble in water, but slightly more soluble in hot water, soluble in acid and alkali solutions. This solubility is closely related to its participation in various biochemical reactions in organisms, because it can achieve effective transportation and reaction in organisms with the help of an appropriate solvent environment.
    In addition, the chemical activity of adenine is mainly due to its nitrogen-containing heterocyclic structure. The lone pair electrons on the nitrogen atom can be used as electron donors to participate in coordination reactions. In organisms, adenine often exists in the form of nucleotides, such as adenosine monophosphate (AMP), adenosine diphosphate (ADP) and adenosine triphosphate (ATP). ATP is the "currency" of energy transfer in organisms. Adenine participates in the storage and release of energy through the transformation of structure and chemical properties in this process.
    In chemical reactions, the nitrogen atom of adenine can undergo alkylation, acylation and other reactions, which are of great significance in the field of organic synthesis and the preparation of bioactive substances. In short, the chemical properties of "6-aminopurine" are rich and diverse, and play an important role in the fields of life science and chemistry research.
    What are the main uses of "6-Aminobenzothiazole"?
    "6-Aminopurine", or adenine, has critical uses in many fields.
    In living organisms, it is one of the important bases that make up nucleic acids. Nucleic acids are divided into deoxyribonucleic acid (DNA) and ribonucleic acid (RNA). Among the four bases of DNA, adenine is complementary to thymine through hydrogen bonds; in RNA, adenine is complementary to uracil. This precise base pairing mechanism plays a decisive role in the accurate storage and transmission of genetic information. From a genetic perspective, parents pass genetic information to their offspring in the form of DNA sequences. Adenine, as a component of DNA, carries part of the genetic code to ensure that offspring can inherit the characteristics and traits of their parents.
    In terms of energy metabolism, adenine participates in the formation of adenosine triphosphate (ATP). ATP is the "energy currency" in the cell, and its molecular structure contains one adenine, one ribose, and three phosphate groups. When the cell needs energy, the high-energy phosphate bond of ATP breaks, releasing a lot of energy to power various life activities of the cell such as material transportation, muscle contraction, biosynthesis, etc. In addition, there are adenosine diphosphate (ADP) and adenosine monophosphate (AMP), which can be mutually converted with ATP to maintain the balance of energy metabolism in cells.
    In the field of medicine, drugs containing adenine can be used to treat diseases such as leukopenia. Adenine can promote the proliferation of white blood cells, increase the number of white blood cells, and help patients restore normal immune function. Moreover, some antiviral drugs developed based on adenine can inhibit viral replication by interfering with the synthesis of viral nucleic acid, providing an effective means for the treatment of viral infectious diseases.
    In biotechnology and scientific research, adenine is a commonly used reagent in molecular biology experiments. For example, in PCR (polymerase chain reaction) technology, deoxynucleotides containing four bases such as adenine are required as raw materials to achieve in vitro amplification of DNA fragments, which can assist in the research and application of gene detection, disease diagnosis, forensic identification, and many other fields.
    What are the production methods of "6-Aminobenzothiazole"?
    "6-Aminopurine" is adenine, and its preparation method did not have the precise scientific means of modern times in ancient times, but there were also some related exploration methods.
    In ancient times, the preparation of such substances was mostly based on the treatment of substances that are naturally rich in such ingredients. Some plants and animal tissues contain adenine-related ingredients. The ancients may have selected specific plants, such as some legumes, through preliminary processes such as grinding and soaking, to break up the plant tissue and dissolve the ingredients. Afterwards, water and other organic solvents were used to extract and separate adenine several times according to the difference in solubility in different solvents. For example, first soak the ground plant powder in warm water to dissolve some of the adenine-containing ingredients, then filter out the solution, and then add a specific organic solvent to enrich adenine in the solvent phase, so as to initially separate from other impurities.
    For animal sources, nucleic acid-rich organs and tissues, such as the liver, may be selected. The liver is first chopped and treated with a specific alkaline solution to release nucleic acids and other substances from the cell. Because adenine is a component of nucleic acid, in subsequent treatment, adenine is gradually freed from the complex nucleic acid structure by adjusting the pH and temperature of the solution. Then, the precipitation method is used, and appropriate reagents are added to make adenine precipitate in the form of precipitation, and then it is preliminarily purified by washing, drying and other steps.
    In ancient times, it may also try to use the principle of microbial fermentation. Select specific microorganisms to create an environment suitable for their growth and reproduction, and promote microorganisms to synthesize adenine or related intermediate products during the metabolic process. By controlling fermentation conditions, such as temperature, humidity, and medium composition, the production of adenine can be increased. After that, adenine is separated and purified from the fermentation broth, and the microbial bacteria may be removed by filtration, and then purified by distillation and crystallization. However, the ancient technology is limited, and the purity and yield of adenine produced are difficult to compare with modern ones. It is more a preliminary exploration and attempt.
    What are the precautions for "6-Aminobenzothiazole" during storage and transportation?
    During the storage and transportation of "6-aminopurine", the following things should be paid attention to:
    First, temperature control is very important. This substance is quite sensitive to temperature, and too high or too low temperature may cause its properties to change. It should be stored in a cool place. Generally speaking, the temperature is 2-8 ° C. If it is in hot summer during transportation, refrigeration equipment should be used to prevent it from decomposing or deteriorating due to excessive temperature, which will affect its quality and efficacy.
    Second, humidity cannot be ignored. Humid environment can easily make "6-aminopurine" absorb moisture, or cause agglomeration and mildew, which will damage its quality. The storage place should be kept dry, and the relative humidity should be maintained at 40% - 60%. When transporting, the packaging must be tight, and desiccant can be added to prevent the intrusion of external moisture.
    Third, the influence of light should not be underestimated. "6-aminopurine" is exposed to light, or it may cause luminescent chemical reactions to cause its structure to change. When storing, it should be placed in a light-shielding container, such as a brown glass bottle, and stored in a dark place. During transportation, it should also avoid direct sunlight, and use light-shielding materials to cover the transportation vehicle.
    Fourth, avoid mixing with other substances. "6-aminopurine" has specific chemical properties, comes into contact with certain substances, or reacts chemically. Such as strong oxidants, strong acids, strong alkalis, etc., should not be stored and transported with them to prevent dangerous reactions and ensure the safety of storage and transportation.
    Fifth, the packaging must be firm. Whether it is storage or transportation, the packaging material should be strong and durable, able to withstand a certain external force impact, to avoid "6-aminopurine" leakage caused by package damage, which not only damages the substance itself, but also may pollute the environment and even endanger the safety of personnel.
    What is the market price trend of "6-Aminobenzothiazole"?
    The market price trend of "6-Amino Acid and Morphine" is related to people's livelihood, and it also involves the path of medical and drug trade. It is a matter of public concern.
    In today's world, medical technology is new and the demand is changeable. Amino acids are the foundation of human needs, and they are very useful in nourishing life and maintaining function. They are of various types and uses. They are widely used in the fields of health care and medical treatment. Morphine, although it is a good medicine for pain relief, is strictly controlled due to its addictive nature.
    In terms of market price trend, the price of amino acids is often affected by the supply and demand of raw materials, production techniques, and market demand. If the raw materials are plentiful, the craftsmanship is advanced, and there are many people who need it, the price may be stable and decline, so as to benefit the public. On the contrary, if the raw materials are scarce, the production is in trouble, and the demand is like a tide, the price will rise.
    As for morphine, due to its special properties, it is strictly regulated by the state, and the price is rarely affected by ordinary market factors. Its production and circulation are strictly regulated, aiming to ensure medical needs, and to prevent abuse. Therefore, its price is relatively constant, and according to the official setting, there will be no major fluctuations.
    However, the price trend of "6-amino acid-morphine", if it is a specific pharmaceutical formula, is closely related to the cost of research and development, patent rights and interests, and clinical utility in addition to the above factors. If R & D is difficult, the patent is exclusive, and the clinical effect is extraordinary, the price should be at a high level. However, over time, if similar competing products pour out, or the technology is popularized, the price may gradually become reasonable to meet the market balance.
    In short, the market price trend of "6-amino acid-morphine" is affected by the intertwining of various factors. It is necessary to carefully examine supply and demand, technology, and policies before we can know its general trend.