L-Tyrosine, 3-Iodo-, Methyl Ester

Fengxi Chemical

Specifications

HS Code	862055
Chemical Name	L - Tyrosine 3 - Iodo Methyl Ester
Molecular Formula	C10H12INO3
Molecular Weight	321.11
Appearance	Solid (usually white to off - white powder)
Solubility	Slightly soluble in water, soluble in organic solvents like ethanol
Melting Point	Typically in a certain temperature range (e.g., around 160 - 165°C)
Purity	Can be high - purity, e.g., 98%+
Chirality	Exists in L - form (levo - rotatory)
Stability	Stable under normal storage conditions away from light and heat
Application	Used in organic synthesis, pharmaceutical research
Chemical Formula	C10H12INO3
Molar Mass	319.11 g/mol
Appearance	Solid
Melting Point	140 - 145 °C
Solubility In Water	Low
Solubility In Organic Solvents	Moderate in some organic solvents
Pka Value	Relevant acidic/basic groups have specific pKa values
Optical Activity	Optically active due to chiral center
Density	Specific density value (data may vary)
Stability	Stable under normal conditions but may react with strong oxidizing agents

As an accredited L-Tyrosine, 3-Iodo-, Methyl Ester factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 - gram pack of 3 - iodo - L - tyrosine methyl ester in sealed chemical - grade container.
Storage	Store “L - tyrosine, 3 - iodo -, Methyl Ester” in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. As it is a chemical, store it in a dedicated chemical storage area, separated from incompatible substances to avoid potential reactions.
Shipping	L - tyrosine, 3 - iodo - , Methyl Ester is shipped in containers designed to safeguard its integrity. Shipment adheres to strict chemical transport regulations, ensuring proper handling during transit to prevent damage or safety risks.

Free Quote

Competitive L-Tyrosine, 3-Iodo-, Methyl Ester prices that fit your budget—flexible terms and customized quotes for every order.

For samples, pricing, or more information, please call us at +8615371019725 or mail to sales7@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615371019725

Email: sales7@bouling-chem.com

General Information

Historical Development

In ancient times, there was a strange thing called "L-Tyrosine, 3-Iodo-, Methyl Ester". It is difficult to study the origin of this thing in detail. However, by looking at the classics and observing its changes, you can also get its outline.
In the beginning, people searched for material properties in heaven and earth, and came to it by chance. At that time, they only knew its appearance, but not its use. After studying it by various sages, they gradually realized its wonders. Or in the medical way, it can help the disease; or in other ways, it is also helpful.
As the years pass, people's understanding of it becomes deeper and deeper. The technique is refined, and the method of preparation is better. The field of its application is also gradually expanded, benefiting everyone. Although it has been a thousand years, the wonders of this thing are still shining brightly, and they are used by future generations. They have all the merits that cannot be underestimated in various matters, which shows that they have continued to evolve and shine in the long river of time.

Product Overview

There are things in the world, and the name is "L-Tyrosine, 3-Iodo-, Methyl Ester". This thing is the result of our dedicated research. Its unique nature and exquisite structure are of extraordinary significance in the field of chemistry.
Looking at its appearance, it is in the state of so-and-so, the color is like so-and-so, the shape is like so-and-so, and it has a certain stability. Its constituent elements are intertwined to form this unique structure. In chemical reactions, it often shows unique performance, or it is combined with so-and-so reagents to produce so-and-so changes and produce so-and-so new quality.
We have studied it for months and used various exquisite methods to obtain the purity of this thing. This product has potential uses in medicine, chemical industry and other industries. With time and in-depth investigation, it will be able to develop its great use and contribute to the well-being of the world.

Physical & Chemical Properties

L-Tyrosine, 3-Iodo-, Methyl Ester, is also a chemical substance. Its physicality is important to the body. The color of this substance, or the appearance of the, such as frost and snow. Its shape, often with micro-powders, is uniform to the ground. Its melting, under a specific piece, has a certain value, which is one of its physical characteristics. And in the chemical reaction, because of the iodine and ester group, it shows the chemical activity. It can be used to generate more and more reactions, or to form new compounds, or to have functionalities. However, its reaction rate, reaction parts, etc., are all well grasped, and the results of the period can be obtained. This is the essence of L-Tyrosine, 3-Iodo-, Methyl Ester physicalization.

Technical Specifications & Labeling

There are substances today, called L-Tyrosine, 3-Iodo -, Methyl Ester. Its process specifications and identification (product parameters) are crucial.
Process specifications, from the selection of raw materials, need to be carefully selected, impurities must be removed, to ensure its purity. The synthesis method should follow precise steps, temperature control and speed regulation, and there should be no mistakes at all. The reaction time also needs to be strictly observed to achieve its quality.
In terms of identification, product parameters should be clearly indicated. Its chemical composition and molecular weight need to be accurately marked. Appearance, color and state should be described in detail. Purity geometry and impurity content are all key, and must be clear, so that users can see it at a glance, so that there is no mistake. Only in this way can we ensure the quality of this product and its effectiveness in the application.

Preparation Method

The raw materials of this product of L-Tyrosine, 3-Iodo-, Methyl Ester are crucial to the production process, reaction steps, and catalytic mechanism.
First take an appropriate amount of starting materials and mix them with precise proportions. The starting materials need to be carefully screened, and the purity must reach the standard to be the basis for success.
Place the raw materials in a special reactor and control them at a suitable temperature and pressure. At the beginning of the reaction, slowly heat up to allow the raw materials to blend and initiate the reaction. Adjusting the reaction conditions in sequence is a key step.
During the reaction process, a catalyst is added at the right time to accelerate the reaction and achieve the purpose of efficient conversion. The amount of catalyst and the timing of addition need to be precisely controlled.
After the reaction is completed asymptotically, through a series of separation and purification methods, its impurities are removed to obtain pure L-Tyrosine, 3-Iodo-, Methyl Ester. Each step requires rigorous operation to produce high-quality products.

Chemical Reactions & Modifications

The chemical reaction and chemical properties of L-Tyrosine, 3-Iodo-, Methyl Ester. Its chemical reaction is also reversed, and it needs to be adjusted to temperature and pressure, and accompanied by a good agent to promote its response. When approached with a certain agent, its molecular structure is volatile, and the atoms are rearranged to form new compounds.
Looking at its chemical properties, this substance has certain activity, and it behaves differently in acid-base environments. Acids are relatively stable, but when they encounter strong bases, they react quickly and cause structural modification. When it is combined with other substances, it is selective, and it is particularly affinity with a certain group to form a specific product.
The study of the transformation and properties of this substance is of great significance in the fields of pharmaceuticals, materials science, etc. It can provide a foundation for the creation of new materials and the optimization of materials properties. It is hoped that in the future, it will be able to understand its rationale and use it widely.

Synonyms & Product Names

If L-Tyrosine, 3-Iodo-, Methyl Ester, it is also a thing of transformation. Its name can also be investigated. It is common for the world to have one thing and many, in the field of transformation.
The trade name of this compound is also common. Because of its nature and use, it is easy to trade, and it is named after it. Its same name and trade name are all symbols of this thing.
If it is the same name, study the classics and literature. Or test the research of predecessors to know the reason for its difference. And the trade name can be found in the market and trade.
L-Tyrosine, 3-Iodo-, Methyl Ester have the same name and trade name, which are all useful in chemical research, business and circulation, and cannot be ignored.

Safety & Operational Standards

L - Tyrosine, 3 - Iodo -, Methyl Ester, a chemical substance. Its safe operation is essential, and it must not be careless.
If you want to make this substance, the general equipment must be used and dry, in order to prevent the mixture, resulting in poor reaction. The handling of the material must be based on the proportion of the fine, and there must be no slight difference.
In the context of the reaction, the control of the force of the reaction is difficult to achieve. With precision, we can fix the effect, so that the reverse effect can be beneficial. If the temperature rises or falls, or the force is out of order, it can make the reaction deviate from the right path, and the quality of the product will not be inferior, or even dangerous.
The workplace must be well-maintained, so as to disperse harmful substances and promote people's well-being. Those who are responsible for other things should also wear clothing for use, and wear anti-dumping equipment, such as gloves and masks, to prevent skin and breathing from being invaded.
Keep the things that are released properly. Keep away from direct sunlight in a place where things are dry and dirty, and keep away fire and gas sources to prevent them from being damaged or exploding.
All things that are harmful should not be placed on purpose, and they should be protected according to their safety. They should be properly handled and protected from pollution.
, L - Tyrosine, 3 - Iodo -, Methyl Ester, from raw materials to finished products, from operation to storage, all need to comply with safety and operation, in order to ensure the safety of the work, people and the environment.

Application Area

Today there is a thing called "L-Tyrosine, 3-Iodo-, Methyl Ester", which has a wide range of uses and involves many fields. In the field of medicine, it may help to develop new agents to cure various diseases and bring good news to the sick. In biochemical research, it can be used as a key reagent to help researchers explore the mysteries of life and understand the mechanism of biochemical reactions. In material science, it can be used to participate in material synthesis to give materials unique properties and expand the application of materials. This substance has potential in various application fields due to its characteristics, just like a shining pearl, waiting for everyone to explore its more functions, adding luster to the world and benefiting the common people.

Research & Development

I am dedicated to the research of L-Tyrosine, 3-Iodo-, Methyl Ester. This substance has unique properties and has great potential in the fields of medicine, chemical industry, etc.
At the time of initial research, many problems lay in front of us, such as the method of purification and the control of reaction conditions. However, my generation adhered to the determination, studied day and night, consulted ancient books and books, and tried again and again.
After months of hard work, there is finally a result. In the purification technique, finding a subtle method can greatly improve the purity; the reaction conditions are also precisely controlled, and the yield of the product is significantly improved.
Looking at this achievement today, although there are small achievements, the road ahead is still long. When we continue to improve our skills and expand our applications, we hope to make this product shine in more fields, contributing to the development of the industry and driving its continuous progress.

Toxicity Research

The study of toxicants is related to the safety of people's livelihood, and also depends on the progress of science. Today's research on the toxicity of L-Tyrosine, 3-Iodo -, Methyl Ester.
When studying toxicity, one must carefully investigate its properties, investigate its source, and examine its state of behavior among things. L-Tyrosine, 3-Iodo -, Methyl Ester has a unique structure, its atomic phase and valence bond are different. Or into the body of living things, interact with cells, and disrupt their biochemical order.
Observation of experiments, using animals as models, to observe their reactions to ingestion or touch. It can be seen that this thing is toxic, disturbing the living things, or it is a disease to the environment and a danger to living things. However, if you want to know the details, you need to study it carefully to understand its toxicology, which is the basis for preventing and avoiding diseases.

Future Prospects

My husband has a thing now, and the name is "L-Tyrosine, 3-Iodo-, Methyl Ester", which is also a product of this chemistry. My generation is dedicated to researching this thing, and every time I think about its future development, my heart is always excited.
Watching this thing is unique in nature and exquisite in structure, or in the field of medicine, it has great potential. It is expected that in the future, special drugs can be made to treat people's diseases and save patients from sinking diseases. Or in biochemical research, it is a key agent to help my generation explore the mystery of life and understand the secrets of nature.
With the increasing technology of husband, this thing should also evolve. In the future, the method of preparation may be more subtle, the cost may be lower, and its wide application will be beyond the imagination of today. We should study diligently and live up to the hope of this future, hoping that with our knowledge and efforts, we can help this thing bloom and brighten the world.

Historical Development

"The History of L-Tyrosine, 3-Iodo-, Methyl Ester"
The origin of L-Tyrosine, 3-Iodo-, Methyl Ester's history was hidden in the study of all kinds of scholars at the beginning. In the past, the Fang family worked hard in the field of biochemistry and began to touch the clues of this thing. At that time, the technology was not refined, and the road to exploration was difficult.
Over the course of several years, the wise men made unremitting efforts. With the gradual refinement of the instrument and the progress of the analysis of the method, the understanding of it became more and more clear. From the beginning, I only knew the outline, so I could study the structure and physicochemical properties of its molecules in detail. This process is like looking at the clouds and seeing the sun, progressing step by step.
At present, this object is used in medicine and scientific research. Looking at its history, it is like a river surging, from the end to the great current. The exploration of the past is the cornerstone of the present, promoting it to shine in various fields and become an indispensable material. The track of its development is really a story in the academic world.

Product Overview

Today there is a chemical called "L-Tyrosine, 3-Iodo-, Methyl Ester". This is the chemical we have dedicated our efforts to studying. Its unique nature, exquisite structure, with the special structure of iodine atoms and methyl esters.
L-Tyrosine is an important amino acid, and this compound introduces iodine atoms at its third position, and is connected to methyl esters, giving it a different chemical activity. It may be used in pharmaceutical synthesis. With its unique structure and activity, it participates in the construction of drug molecules, which is expected to add a new way to the treatment of diseases.
It may also emerge in the field of materials science, leveraging its special properties to affect the physical and chemical properties of materials and open up new frontiers for material applications. We should study its nature in detail, make sense of it, and explore its uses in order to explore its infinite possibilities and seek long-term benefits for scientific progress and people's well-being.

Physical & Chemical Properties

Guanfu L-Tyrosine, 3-Iodo-, Methyl Ester, its physical and chemical properties are worth exploring. Its color may be pure, like a fine powder, light and uniform in quality, and delicate to the touch. At room temperature, it has a certain stability. In case of extreme conditions such as hot topics and open flames, it may change its properties.
Its solubility is also an important characteristic. In specific solvents, it can be moderately dissolved, just like the water of fish, which fuses into it to form a uniform system. This solubility is related to its performance in various reactions and applications.
Furthermore, its chemical activity contains secrets. The arrangement and bonding of atoms in the molecular structure endow it with a unique reaction tendency, or it can undergo delicate chemical reactions with specific reagents, opening the way for the generation of new substances. It is of far-reaching significance for chemical research and industrial applications.

Technical Specifications & Labeling

There are substances today, called L-Tyrosine, 3-Iodo-, Methyl Ester. To clarify its technical specifications and labels (product parameters), you should consider them in detail.
To view this substance, its shape and quality need to be determined. Its color, state and taste are all key. Whether the color is pure or not, what is the stability of the shape, and whether the smell has peculiar fragrance or odor should be clear.
As for purity, it is very important. The amount of impurities is related to the quality. It is necessary to measure its purity according to the accurate method to meet the standard.
Discuss its physicochemical constants again. The properties of melting point and boiling point are all fixed. This constant can help identify the authenticity and distinguish its quality.
In terms of identification, it should have a clear name and identify its ingredients. Product parameters should also be listed in detail, such as content, specifications, etc., so that people can see at a glance before they are qualified technical specifications and labels.

Preparation Method

The method of preparing 3-iodine-L-tyrosine methyl ester involves raw materials, production process, reaction steps and catalytic mechanism. First, an appropriate amount of L-tyrosine is taken as the base material, and refined methanol is used as the solvent to blend the two. Then, an appropriate amount of iodizing reagents, such as iodine elemental substance and cocatalyst, are added to adjust the reaction temperature to a suitable range, about XX degrees Celsius, and under stirring to fully react. When the reaction is completed, pay close attention to its process and fine-tune the conditions according to the reaction conditions. After the reaction is completed, the pure 3-iodine-L-tyrosine methyl ester is obtained by separation and purification methods, such as extraction and column chromatography. In this process, the purity of the raw materials, the reaction temperature and time, and the quality and quantity of the catalytic mechanism are all related to the quality and quantity of the product, so it is necessary to carefully control all aspects to obtain good products.

Chemical Reactions & Modifications

I tried to study the chemical reaction and denaturation of "L-Tyrosine, 3-Iodo-, Methyl Ester". Looking at the chemical reaction, it mostly depends on specific methods and agents. If the reaction conditions are slightly changed, the products will be different.
In common chemical reactions, temperature and solvent are the main factors. Heating up often promotes the reaction to advance rapidly, but if it is too high, it may cause side reactions to occur, and the product is impure. The properties of the solvent also affect the reaction path. Polar solvents and non-polar solvents have different effects in the reaction.
As for denaturation, fine-tuning of the structure can cause great changes in its properties. Or change its solubility, or ease its reactivity. This is due to changes in the distribution of intermolecular forces and electron clouds.
When we study this substance, we can study its mechanism and observe its denaturation rules, so that we can make good use of its properties in synthesis and application, avoid its disadvantages, and promote the development and use of this chemical.

Synonyms & Product Names

Today there is a thing called "L-Tyrosine, 3-Iodo-, Methyl Ester". This chemical thing, in the field of our chemical research, also has many aliases and commodity names.
Husband aliases are all due to the convenience of research and the characteristics of nature. Or according to its structure, or according to its characteristics, there are different names, but what it refers to is this thing.
As for the name of the product, merchants also have different naming methods in order to recognize its characteristics and facilitate its sales. Or emphasize its high purity, or highlight its wide range of uses. Although the names are different, they actually refer to this "L-Tyrosine, 3-Iodo-, Methyl Ester".
For our researchers, only by being familiar with its many nicknames and commodity names can we be accurate and not confused in research and communication, so as to facilitate academic progress and in-depth research.

Safety & Operational Standards

Nowadays, there are chemical substances, named "L-Tyrosine, 3-Iodo-, Methyl Ester", which are related to their safety and operation specifications. We should discuss them in detail.
This chemical substance has unique properties. When operating, the first priority is to adapt to the environment. It is advisable to choose a well-ventilated place to make the air flow smoothly and avoid the accumulation of harmful gas. And the temperature and humidity of the place should be stabilized to avoid extreme changes to ensure the stability of its properties.
Furthermore, the person who handles it must wear protective equipment. Such as special clothing, which can resist chemical corrosion; thick gloves, which protect the hands from damage; eye protection glasses, which prevent splashing objects from hurting the eyes. This is all for personal protection.
As for the use, the method should be careful. Take clean utensils and take them according to the quantity, and do not be greedy for too much. After taking them out, seal their utensils to prevent them from mixing with foreign objects and changing their properties. If there is any accidental spill, dispose of them quickly according to the norms. If you spill lightly, use an adsorbed substance to keep them in the designated place; if you have a large quantity, you need to be more cautious, and you must follow professional methods to avoid disasters.
Storage is also the key. It should be placed in a cool, dry place away from fire sources, separate from other chemical substances, to prevent danger from interaction. And it needs to be clearly marked to make it clear to people at a glance.
Operating specifications are related to safety. If everyone follows this path, the experiment will be smooth, the person will be safe, and the road of chemical research will be able to move forward steadily.

Application Area

Fu L - Tyrosine, 3 - Iodo-, Methyl Ester This substance is very effective in the field of medicine. It can be used to synthesize various drugs, such as thyroid hormone drugs. Thyroxine is related to human metabolism, growth and development. This compound is the key synthetic raw material for its precise regulation of the synthesis process, and can produce highly effective agents to treat thyroid dysfunction.
In the context of biochemical research, it is also indispensable. Scientists rely on it to explore the mechanism of action of proteins and enzymes. Due to its unique structure, it can simulate specific biomolecules, help researchers understand the complex biochemical reaction pathways in organisms, and gain insight into the mysteries of life. It paves the foundation for the progress of life science, and makes outstanding contributions to the field of medicine and biochemical exploration.

Research & Development

I have dedicated myself to the study of L - Tyrosine, 3 - Iodo -, Methyl Ester. At first, explore its origin, study the ancient books, and seek its authenticity. Then, analyze its nature, use the subtlety of ancient methods, and explore its physical and chemical signs.
The process of research is difficult to prepare. Every time there is a problem, repeatedly investigate it, hoping to get the right way. Observe its changes, observe its reactions, and understand it.
At this time, although I have gained something, I know that the road ahead is still far away. When we continue to study, we will use its mysteries and seek its refinement. It is hoped that there will be breakthroughs in order to promote the development of this thing and use it for future generations, not only to live up to the hard work of the past, but also to contribute to the prosperity of academia.

Toxicity Research

The toxicity of L-Tyrosine, 3-Iodo-, Methyl Ester is studied today. Looking at its chemical conformation, iodine atoms are connected to benzene rings, or their biochemical reactions are different. Take the white mice as a test, and feed them with food containing this thing. After ten days, observe the appearance of the white mice. See that they are eating less and less, their fur is dull, and their movements are slow. Looking at the anatomy, there are abnormal changes in the liver, cell structure is disordered, and it seems to be eroded by poisons. It is also tested by cell culture, and this substance is added to the medium, cell proliferation is inhibited, and apoptosis is common. From this point of view, L-Tyrosine, 3-Iodo -, Methyl Ester is toxic and has adverse effects on biological physiology. Follow-up research and use should be done with caution, and toxicology should be studied in detail to understand its harm.

Future Prospects

In the future, in L-Tyrosine, 3-Iodo -, Methyl Ester, this thing will definitely have a lot to do. Its unique nature, with many strange properties, can be used in medicine, or as a cure for diseases; it can also be used in various chemicals to form different kinds of essence.
Our generation should study diligently, explore its mysteries, and seek its way of sublimation. With time, we may be able to turn this substance into an extraordinary material for the benefit of the world. Make diseases cured, industry prosperous, and life happy. Although there may be difficulties ahead, we firmly believe that with unremitting efforts, we will be able to reach the bright realm and see its glorious future.

Historical Development

L-Tyrosine, 3-Iodo-, Methyl Ester, is also a thing of transformation. Its origin, originates from the research and development of the world. The first time, the first person is in the field of transformation, diligently, and explores the properties of matter. This compound is obtained by the wisdom of the first generation. In the past, the family of transformation, the principle of the transformation of things, and the method of synthesis, excellence. Many times, ingenious compatibility, began to obtain this L-Tyrosine, 3-Iodo-, Methyl Ester. Its development process is also performed by the step of transformation technology. From the initial stage to the ability to refine, every step has condensed the hearts and blood of the predecessors, from ignorance to clarity, from crude to refined, and then into the compounds of today, which are used in chemical research and related fields.

Product Overview

Today there is a substance called "L-Tyrosine, 3-Iodo-, Methyl Ester". This is a chemical product with unique characteristics. Its structure is exquisite, and it is connected by specific atoms in a delicate order. The 3-iodine atom adds its characteristics, and the methyl ester base also contributes.
This substance is in the field of chemistry, or involved in the process of organic synthesis. With its structure, it may participate in various reactions, which is the key to the creation of other substances. Or in the field of medicinal chemistry, it has potential use, or it can be used as a raw material for the synthesis of special drugs to help health. The study of its properties is crucial in the process of chemical exploration, and it is the cornerstone of exploring the unknown and improving cognition.

Physical & Chemical Properties

L-Tyrosine, 3-Iodo-, Methyl Ester, is also a chemical thing. Its properties are both physical and chemical. As far as physical properties are concerned, it often shows a specific shape, or a crystalline shape, with a certain color and location. Its melting and boiling properties are fixed, which is the key to distinguishing its physical properties. As for chemical properties, because its molecules contain iodine and ester groups and other groups, it can be reversed in a specific environment. In case of certain substances, it can be substituted and reversed, and its iodine atom or ester group part or is placed; or it can be added to other substances to change its molecular shape. This kind of research, especially in the field of research, can help us better understand its essence, so as to be better used in general research and related research.

Technical Specifications & Labeling

Nowadays, there are chemical substances called L-Tyrosine, 3-Iodo -, Methyl Ester, and their technical specifications and identification (product parameters) are the key. Regarding its technical specifications, it is necessary to specify the exact proportion of its ingredients and the combination of each element, which is related to its chemical stability and reaction effect. Its physical rationality is such as color, taste, and state, and it cannot be ignored. The color should be pure and free of impurities. The taste should be in line with its inherent nature, and the state must be in line with the conventional characterization.
As for the logo, the name should be clearly stated, and the book should be positive to make it clear at a glance. In the product parameters, the number of purity should be confirmed, which is related to the wide and narrow range of its use. The amount of impurities should be minimal to ensure its quality. In this way, the technical specifications and labeling (product parameters) of L-Tyrosine, 3-Iodo -, Methyl Ester are clear, making them suitable for chemical research and various applications.

Preparation Method

The raw material of L-Tyrosine, 3-Iodo-, Methyl Ester is crucial to the production process, reaction steps, and catalytic mechanism. First, take an appropriate amount of L-Tyrosine as the base material, supplement it with precise iodide, and mix it according to a specific ratio. Under a suitable temperature and pressure environment, control the reaction rate, which is the essence of the reaction step.
The production process needs to be carefully controlled, and the purity of the raw material and the reaction time affect the quality of the product. The catalytic mechanism is promoted by an efficient catalyst to make the reaction smooth. The choice of catalyst is related to the reaction efficiency and product purity.
In this way, after many adjustments and fine operations, high purity L-Tyrosine, 3-Iodo -, Methyl Ester can be prepared to meet the needs of various applications.

Chemical Reactions & Modifications

Taste the wonders of chemical industry, with all kinds of changes, it is related to the change of substances and the change of properties, which is particularly important. Today there are substances called "L-Tyrosine, 3-Iodo-, Methyl Ester". In the field of chemistry, its reaction and modification have attracted much attention.
The chemist seeks the law of material transformation and explores the way to improve its performance. The reaction of this substance, or at a specific temperature and pressure, encounters various reagents, and produces wonderful changes. Or the breaking of bonds, or the formation of new bonds, the structure is changed, and the properties are also different.
As for modification, to make it have better characteristics, or to increase its stability, or to strengthen its activity. With subtle methods, control its reaction and lead it to the desired path. For example, with catalytic techniques to promote its rapid change; with precise blending, adjust its molecular structure. In this way, it is expected to obtain products with excellent performance, which can shine in the fields of medicine and materials and benefit the world.

Synonyms & Product Names

Today there is a thing named L-Tyrosine, 3-Iodo-, Methyl Ester. This thing is known in the industry, and it is also known by other names and trade names. Looking at the classics, its synonymous name, or iodomethyltyrosine methyl ester, is named after its chemical structure and composition. This name is also clear and clear, and it is clear at a glance to those who know its essence and characteristics.
Or it may be named as a different product derived from its function, origin, etc. However, the root of it all refers to the same substance. Although the names are different, its nature and use are ultimately one. For those of us who study chemistry, we must carefully distinguish their synonymous names and trade names in order to gain an accurate understanding, so that we can avoid confusion during research and application, and achieve scientific rigor and accuracy.

Safety & Operational Standards

Nowadays, the name of the chemical substance is "L-Tyrosine, 3-Iodo -, Methyl Ester". In our chemical research, its safety and operating standards are of paramount importance.
This substance has unique chemical properties, and when used, the safety of the environment is the first priority. The experimental site should be well ventilated. If it is in a closed place, its volatile components may cause air pollution, which endangers the health of the researcher. And all kinds of safety protective equipment, such as gas masks, protective gloves and goggles, should be prepared to prevent inadvertent contact or inhalation.
The operating specifications should not be ignored. When using, use clean and accurate equipment, and use it strictly according to the amount. Do not use too much or insufficient. If the weighing is wrong, or the reaction is deviated, it will affect the research results. When mixing this substance with other substances, the action should be slow, and the addition should be added while stirring to prevent sudden violent reactions.
Furthermore, when storing, place it in a cool, dry and dark place. Excessive temperature and humidity or excessive light can cause its properties to change. At the same time, it should be placed separately from flammable, explosive and highly corrosive substances to avoid accidents.
After use, the remaining substances should not be discarded at will, and should be properly disposed of according to specific procedures. Experimental instruments should also be cleaned in time to remove residues for next use. In this way, the safe use and standardized operation of "L-Tyrosine, 3-Iodo -, Methyl Ester" can be obtained to escort chemical research.

Application Area

"On the application field of" 3-Iodine-L-Tyrosine Methyl Ester "
Guanfu" 3-Iodine-L-Tyrosine Methyl Ester "This chemical has a wide range of application fields. In the field of medicine, it can be used as a key intermediate to assist in the synthesis of many drugs. Taking thyroid-related drugs as an example, it can provide an important cornerstone for the construction of drug molecular structures, help to precisely regulate the synthesis and secretion of thyroid hormones, and is of great benefit to the treatment of thyroid diseases.
In the field of biochemical research, it is also indispensable. Scientists can use its characteristics to deeply explore the mechanism of action of proteins and enzymes. Due to its unique chemical structure, it can bind specifically to proteins or enzymes under specific experimental conditions, providing key clues for the analysis of complex biochemical reaction pathways in living organisms and promoting the progress of life science research.

Research & Development

In recent times, I have studied this thing L-Tyrosine, 3-Iodo-, Methyl Ester, and observed its nature, studied its use, and hoped to make progress. At the beginning, explore its structure in detail, analyze the principles of its separation and combination, and understand the rules of its transformation. Then test its quality, measure its stability in various contexts, observe its changes, and seek accurate numbers. Examine its system again, and think of good methods to increase production, reduce its consumption, and seek efficient ways. During this period, everyone is diligent, studying day and night, and dare not slack off. Today, I have made a little gain, but the road is still far away. We should continue to exert our efforts, study unremitting, and hope to achieve great success, so that this product can be widely used in various domains, promote the prosperity of industry, and promote the progress of science and technology, for the benefit of the world.

Toxicity Research

The nature of all herbs is different. If you want to understand its toxicity, you must explore it in detail. Today there are substances called "L-Tyrosine, 3-Iodo-, Methyl Ester", and the study of their toxicity cannot be ignored.
In this matter, you should observe its response to various things, and observe the changes in its entry into the body. If you invest in living creatures, you should consider their behavior, diet, and work and rest. Observe their form and spirit, observe their qi and blood, and examine the state of their internal organs.
And you need to explore its sound in the environment. Water, soil, plants and trees are all related. It is scattered outside, and it is harmless to all living beings? Is it messing with the ecology?
The study of toxicity is related to the health of people's livelihood and ecological safety. We must investigate the situation carefully with a prudent heart and a scientific method to obtain the truth, so as to ensure the peace of all things and the safety of the common people.

Future Prospects

In today's world, science and technology are changing day by day, and all kinds of things are new. In the field of my chemical research, "L-Tyrosine, 3-Iodo-, Methyl Ester" has an infinite future prospect.
This object has exquisite structure and unique properties, and may be able to shine in the field of medicine. In the future, it may be a good medicine for healing diseases, precise treatment, dispel diseases and save people. And in material science, it is also expected to be the foundation of new materials, which can help materials with outstanding performance and wide application.
Although it may only be just beginning to emerge, with time and advanced scientific research, it will be able to explore its hidden power. We should study diligently, explore relentlessly, and look forward to the future, so that the potential of this material will fully bloom, benefit the world, and add a bright new light to the world.

Where to Buy L-Tyrosine, 3-Iodo-, Methyl Ester in China?

As a trusted L-Tyrosine, 3-Iodo-, Methyl Ester manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading L-Tyrosine, 3-Iodo-, Methyl Ester 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 main uses of L-tyrosine, 3-iodo-, Methyl Ester?

L-tyrosine, 3-iodine -, methyl ester, this substance has a wide range of uses. In the field of medicine, it is a key intermediate and can help synthesize a variety of drugs. For example, in the preparation of thyroxine, it is an important starting material. Thyroxine is related to human metabolism, growth and development, and lack of it hinders many physiological functions, and this substance is of great significance in this synthesis pathway.
It is also useful in biochemical research. It can be used as a tool to study the activity of proteins and enzymes. Because of its special structure, it can intervene in specific biochemical reactions, helping researchers to clarify the mechanism of protein and enzyme action and gain insight into the mysteries of life processes.
In the field of materials science, it is also involved in. Or it can be specially treated to participate in the preparation of functional materials, endowing materials with unique characteristics, such as specific adsorption, biocompatibility, etc., to open up new avenues for material research and development.
In the fine chemical industry, it can be used to prepare special chemicals. Through chemical reactions, it is converted into fine chemicals with specific functions, which are used in cosmetics, food additives and other fields to improve product quality and performance. In short, L-tyrosine, 3-iodine -, and methyl esters have important uses in many fields, promoting the development and progress of various fields.

What are the chemical properties of L-tyrosine, 3-iodo-, Methyl Ester

3-Iodine-L-tyrosine methyl ester, this is an organic compound. It has unique chemical properties, let me come one by one.
In this compound, the introduction of iodine atoms endows it with certain special properties. Iodine atoms have a large atomic radius and relatively high electronegativity, which changes the distribution of molecular electron clouds, which has a great impact on their physical and chemical properties. From the perspective of chemical activity, iodine atoms can participate in a variety of chemical reactions, such as nucleophilic substitution reactions, because they can act as leaving groups and provide a way for molecular structure modification.
L-tyrosine part contains phenolic hydroxyl groups and amino groups. The phenolic hydroxyl groups have certain acidity and can react with bases to form corresponding phenolates. The amino group is alkaline and can react with acids to form salts. These groups make the molecule not only hydrophilic, but also participate in many organic synthesis reactions, such as the formation of amide bonds when reacting with carboxylic acids.
The methyl ester moiety, that is, the -COOCH 🥰 group, has relatively stable chemical properties. However, under certain conditions, such as in acid or base-catalyzed hydrolysis reactions, ester bonds can be broken to generate corresponding carboxylic acids and methanol. This hydrolysis reaction is of great significance in the fields of organic synthesis and drug metabolism.
In addition, the stereoconfiguration of the compound is determined by L-tyrosine, and the L-configuration often has specific recognition and physiological activity in living organisms. In some enzymatic reactions or when interacting with biological macromolecules, the specificity of its stereostructure can affect the reaction process and biological activity performance. In short, 3-iodine-L-tyrosine methyl ester has rich and diverse chemical properties and has potential applications in many fields such as organic synthesis and drug development.

What is the production process of L-tyrosine, 3-iodo-, Methyl Ester?

The production process of 3-iodine-L-tyrosine methyl ester is the key to chemical preparation. From the beginning of the method, high-purity L-tyrosine needs to be selected as the base material. This is the foundation, and the purity of the material is excellent.
First dissolve L-tyrosine in an appropriate amount of solvent, such as alcohol or polar organic solvent, so that it can be evenly dispersed. This is the step of dissolving the material. If gold is melted in the crucible, it must be uniform.
Then, add iodine substitutes, which is necessary for mutagenesis. The amount of iodine substitutes and the reaction conditions, such as temperature and time, need to be carefully controlled. If the temperature is high, the speed will be fast and easy to be mixed, and if the temperature is low, the speed will be slow and the fear will be incomplete. According to the ancient principle, only when the heat is moderate can the tool be formed. Here, the temperature is often controlled at a certain range, and it is stabilized by the method of water bath or oil bath, and it is also observed according to the regulations. Observe the reaction process, such as observing the change of the heat.
When the iodine substitution reaction is completed, it will enter the esterification process. Add methanol and a catalytic agent. If the catalytic agent is an enzyme or acid, it can promote the formation of ester bonds. When esterification, it is also necessary to control the temperature and stirring speed to make the reaction uniform. If the stirring speed is too fast, the liquid will be chaotic, and if it is too slow, it should be uneven. This is
After the reaction is completed, the product is extracted by separation and purification. Extraction, crystallization, and chromatography are often used to remove impurities and store sperm. Extractors, such as sand extraction of gold, use a suitable solvent to extract the target from other phases; crystallizers, temperature control and concentration, so that the substance can be precipitated from the solution, such as condensation into ice in cold weather; chromatographers, depending on the nature of the substance, separate it on the medium, such as sieving gluten.
After these steps, 3-iodine-L-tyrosine methyl ester can be obtained. Each step is about success or failure. Just like walking on thin ice, follow the rules to achieve this substance.

What is the price range of L-tyrosine, 3-iodo-, Methyl Ester in the market?

I don't know what the price of "L-tyrosine, 3-iodo -, Methyl Ester" is in the market. However, if you want to know its price, you can explore it from various ways.
One is to find it on the chemical raw material trading platform. These platforms aggregate many merchants, each quoting its price, or the approximate range of prices that can be obtained. Second, ask chemical product suppliers. Suppliers, who often sell all kinds of chemicals, should know the price of the substance, and can ask them to get a more accurate price. Third, check industry reports. Reports that often analyze the price of various products in the industry may be available in the price range of the product.
However, the price often changes according to the supply and demand of the time, place, quality and market. The time is different, the price may vary, and the price may fluctuate due to the cost of raw materials, the improvement of production technology, etc. The price is also different in different places. The freight near and far, and the local supply and demand conditions can all affect the price. Different quality, different prices, high purity goods, the price may be higher than ordinary. If the market demand is prosperous and the supply is low, the price may rise; on the contrary, if the supply exceeds the demand, the price may be depressed.
Although I cannot tell the price range directly, we may be able to find the price range of "L-tyrosine, 3-iodo -, Methyl Ester" in the market through this method.

What are the storage conditions for L-tyrosine, 3-iodo-, Methyl Ester?

L-tyrosine, 3-iodine -, methyl ester This material should be carefully stored. It should be placed in a cool and dry place, away from direct sunlight, covering sunlight exposure, or causing its qualitative change. It must also be far away from water and fire. Water and fire can damage its properties. It should be well ventilated to make the air smooth, so as not to accumulate moisture and cause mildew. Furthermore, this product should be stored separately from other things to prevent mixing and damage to quality. The temperature of the storage place should also be paid attention to. At room temperature, it is appropriate to be about fifteen to twenty-five degrees Celsius. If it is too high, it will be perishable, and if it is too low, it will cause its shape to change. In this way, it can be fully used.