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Wuhan Desheng Biochemical Technology Co., Ltd
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Wuhan Desheng Biochemical Technology Co., Ltd

Company IntroductionWuhan Desheng Biochemical Technology Co., Ltd. is founded in 2005, located in Wuhan, China, specializing in R&D, production and sales of blood collection tube additives and homology chemcial reagents.We are mainly engaged in blood specimen pretreatment reagents including anticoagulant series: lithium heparin, sodium heparin, EDTA K2/K3, blood specimen coagulant series: powder and liquid of blood clot accelerator etc; blood specimen pretreatment series: serum separating gel ...
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China Wuhan Desheng Biochemical Technology Co., Ltd

2005

Year Established

10000000 +

Annual Sales

>100 +

Employees

News
What detection methods can TOOS, a chromogenic substrate, be used for
2025-07-02
The chromogenic substrate TOOS reagent plays an important role in various detection fields due to its unique chemical properties. The color reaction it participates in can convert the presence and content of the target substance into visible or instrument measurable color changes, providing an intuitive and effective analytical tool for detection work. In clinical biochemical testing, TOOS is commonly used to detect various metabolic products and enzyme activities in the human body. Taking blood glucose testing as an example, glucose oxidase catalyzes the reaction between glucose and oxygen, producing gluconic acid and hydrogen peroxide. Under the joint action of TOOS and peroxidase (POD), hydrogen peroxide will oxidize TOOS to generate quinone imine compounds with specific colors. By measuring the absorbance of the chromogenic product at a specific wavelength, the glucose content in the blood can be accurately calculated. This method has high sensitivity and specificity, and is widely used in clinical diagnosis in hospitals to help doctors quickly understand the blood sugar level of patients and provide an important basis for the diagnosis and treatment of diabetes and other diseases. In addition, in cholesterol detection, cholesterol esterase and cholesterol oxidase act on cholesterol in sequence, producing hydrogen peroxide, followed by TOOS participating in colorimetric reaction, achieving the determination of cholesterol content in serum, which is of great significance for evaluating the risk of cardiovascular disease. TOOS is also indispensable in liver function testing. Alanine aminotransferase (ALT) and aspartate aminotransferase (AST) are important indicators reflecting liver cell damage. During the detection process, these two enzymes catalyze specific transamination reactions, producing hydrogen peroxide that undergoes color reactions in TOOS and POD systems. Based on changes in absorbance, the activity of ALT and AST can be accurately determined, thereby evaluating the health status of the liver and assisting in the diagnosis and monitoring of liver disease. In addition to clinical biochemical testing, TOOS has also demonstrated significant value in the field of environmental monitoring. In water quality testing, TOOS can be used to detect certain pollutants in water. For example, for water samples containing phenolic compounds, under specific oxidation conditions, phenolic substances will react with TOOS to produce color products. By measuring the color depth, quantitative analysis of the content of phenolic pollutants in water can be achieved, providing data support for water pollution control. In addition, the TOOS-POD colorimetric system can also play a role in detecting the hydrogen peroxide content in water, helping to understand the redox status of the water and evaluate the safety of water quality. TOOS, a chromogenic substrate, has wide and important applications in various fields such as clinical biochemical testing and environmental monitoring due to its efficient chromogenic performance. With the continuous development of detection technology, TOOS is expected to play a role in more detection projects, providing stronger support for people's health, environmental monitoring, and safety assurance. Desheng specializes in producing more than ten the new Trinder's reagents, including TOOS. After more than ten years of research and development, it can ensure that TOOS appears as a white powder with a purity of up to 99.5%. It has strong water solubility, high flexibility, stable performance, and ensures the accuracy of experimental results. Desheng has a place in the market for in vitro diagnostic kit raw materials with high-quality products, and is deeply trusted and supported by customers at home and abroad. If you have any relevant intentions, please click on the official website for consultation, or call directly to inquire and place an order!    
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Latest company news about What detection methods can TOOS, a chromogenic substrate, be used for
Factors affecting the storage of Pipes buffer at room temperature
2025-06-30
The stability of Pipes buffer at room temperature, like the operation of precision instruments, is influenced by the synergistic effects of many factors. Exploring these influencing factors in depth is not only the foundation for ensuring experimental accuracy, but also the key to optimizing experimental processes and improving research efficiency. 1, Container selection: the "safe house" of buffer solution The material and sealing performance of the container, like the "protective armor" of the buffer solution, play a decisive role in its stability at room temperature. Glass containers are known for their chemical stability, and when in contact with Pipes buffer, they can maintain the chemical composition of the buffer to the greatest extent possible. However, poorly sealed glass containers are like "armor" with loopholes, exposing the buffer solution to danger. Microorganisms, carbon dioxide, and other substances in the air will take advantage of the situation and multiply in large numbers in the buffer solution. Carbon dioxide reacts with water to produce carbonic acid, causing a change in the pH value of the buffer solution. Although plastic containers perform well in terms of sealing, there are compatibility issues between some plastic materials and buffer solutions. For example, plastic containers made of polyvinyl chloride (PVC) contain plasticizers that slowly dissolve into the buffer solution during long-term storage. These plasticizers not only alter the physicochemical properties of the buffer solution, but may also interfere with subsequent experiments. In a protein purification experiment, the use of Pipes buffer stored in PVC plastic containers resulted in a decrease in the recovery rate of the target protein from 85% when stored in glass containers to 80%, and the purity of the purified protein also decreased. 2, Lighting conditions: invisible 'disruptors' The impact of light on Pipes buffer is like the damage of sunlight exposure to delicate flowers, silently but with great destructive power. Among them, the harm of ultraviolet radiation is the most prominent, as its high-energy photons can directly act on Pipes molecules, breaking chemical bonds within the molecules and triggering photooxidation reactions. Storing Pipes buffer in dark containers such as brown glass bottles is an effective way to resist light damage. 3, Humidity impact: erosion in humid environments The impact of environmental humidity on Pipes buffer is similar to the erosion of precision electronic components in humid environments. In high humidity environments, Pipes buffer absorbs moisture from the air, causing its own concentration to dilute and breaking the originally stable buffer system. Meanwhile, the humid environment provides an ideal breeding ground for the growth and reproduction of microorganisms. In a simulation experiment in a laboratory, Pipes buffer was placed in an environment with a relative humidity of 85%. After being left at room temperature for 48 hours, precipitation appeared on the surface of the buffer. Therefore, in environments with high humidity, using desiccants or storing buffer solutions in a drying oven is a necessary measure to maintain their stability. These factors that affect the storage of Pipes buffer at room temperature do not exist in isolation, but are interrelated and interact with each other. In practical operation, researchers need to comprehensively consider these factors and take comprehensive measures from container selection, avoiding light and moisture, controlling environmental conditions, etc., in order to create a stable storage environment for Pipes buffer and ensure the accuracy and reliability of experimental results. As a professional supplier of buffer solutions, Desheng can provide high-purity PIPES to safeguard various experiments. In addition, as a manufacturer, we have obvious advantages in terms of supply quantity and price. If you have any relevant intentions, please feel free to contact us for purchase at any time!  
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The Effect of ALPS Reaction Time on the Results of Chromogenic Substrate
2025-06-27
In biochemical and molecular biology experiments, the chromogenic substrate ALPS reagent(N-ethyl-N - (3-sulfonylpropyl) aniline sodium salt) is often used to detect various biomolecules. In addition to temperature, reaction time is also a key factor affecting the color reaction results of ALPS. A deep understanding of the impact mechanism of reaction time on results is crucial for optimizing experimental conditions and obtaining accurate and reliable data. 1, The relationship between reaction time and reaction process The color reaction involving ALPS is a dynamic process, and as the reaction time progresses, the reaction process gradually advances. In the initial stage of the reaction, the substrate ALPS rapidly binds with enzymes involved in the reaction (such as horseradish peroxidase HRP) and other reactants, resulting in a fast reaction rate and significant color changes. As the reaction progresses, the substrate concentration gradually decreases, the products continue to accumulate, and the reaction rate gradually slows down. When the reaction equilibrium is reached, the concentration of each substance in the system no longer changes significantly, and the color tends to stabilize. 2, The impact of reaction time on the accuracy of results Appropriate reaction time is the foundation for ensuring the accuracy of results. When the reaction time is insufficient, the reaction has not reached an equilibrium state, and the differences in reaction processes between different samples can lead to a lack of comparability in color development, resulting in detection results deviating from the true values. And if the reaction time is too long, it may trigger a series of side reactions. On the one hand, prolonged reactions may cause changes in enzyme activity, for example, enzymes may gradually become inactive, leading to a decrease in catalytic efficiency and color changes that are no longer linearly related to the concentration of the target substance; On the other hand, the product may decompose or react with other substances in the system over a long period of time, causing abnormal color changes and interfering with the judgment of the results. For example, in some ALPS based activity detection experiments, prolonged reaction time may cause the activity of the originally detected active substance to decrease due to other factors, and the final color result may not accurately reflect its initial activity level. 3, The influence of reaction time on the stability of results A stable reaction time is the key to ensuring experimental reproducibility and result stability. In multiple experiments, if the reaction time fluctuates greatly, even if the sample conditions are the same, there will be significant differences in the color development results. For example, in different batches of testing, if the reaction time is controlled at different times, standard samples of the same concentration may exhibit different color depths, resulting in increased dispersion of the test results and inability to provide reliable evidence for the experiment. Therefore, in the experimental design and operation process, it is necessary to strictly control the reaction time, determine the optimal reaction time through pre experiments, and maintain consistency in subsequent experiments to ensure the stability and reliability of the results. 4, Method for determining the optimal reaction time In order to obtain accurate and reliable experimental results, it is necessary to determine the optimal time for ALPS color reaction. Usually, gradient experiment method can be used to set a series of different reaction times, such as 5 minutes, 10 minutes, 15 minutes, 20 minutes, etc., to detect the same sample, record the color development at different time points, and measure the absorbance value through a spectrophotometer. Draw the absorbance reaction time curve, and the optimal reaction time is the time when the curve tends to flatten or reaches the plateau period. In addition, the determination of the optimal reaction time can be further optimized by referring to similar experimental reaction time settings in relevant literature, taking into account specific experimental objectives and sample characteristics. The reaction time of the chromogenic substrate ALPS has multiple important effects on the experimental results. In the experimental process, fully understanding the relationship between reaction time and reaction process, accuracy and stability of results, and using scientific methods to determine the optimal reaction time, can ensure the effectiveness and reliability of experimental results, and provide accurate data support for biochemical and molecular biology research. Hubei Xindesheng Material Technology Co., Ltd. specializes in producing the new Trinder's reagents, including TOPS, ADOS, ADPS, etc. in addition to ALPS. After more than a decade of dedicated research and development, the technology for producing new Trinder's reagents has become very mature, and the products produced have also been exported abroad. At present, there are over 400 domestic and foreign large, medium, and small new enterprises cooperating with Desheng, and their products and services are widely recognized by users. If you are also interested in the new Trinder's reagent, please click on the official website for consultation. Looking forward to communicating with you!
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The influence of TOOS concentration as a chromogenic substrate on the results
2025-06-25
In the fields of biochemistry and clinical testing, the chromogenic substrate TOOS reagent (N-ethyl-N - (2-hydroxy-3-sulfopropyl) -3-methylaniline sodium salt) has become a commonly used reagent for enzymatic colorimetric reactions due to its excellent water solubility, stability, and low toxicity. However, the change in TOOS concentration has an undeniable impact on the experimental results, from reaction rate to accuracy of results, and every aspect is closely related to it. 1, The correlation between TOOS concentration and reaction rate The effect of TOOS concentration on reaction rate follows typical enzymatic reaction kinetics. In the early stage of the reaction, when the substrate concentration is low, as the TOOS concentration increases, the collision frequency between substrate molecules and enzyme active centers significantly increases, and the two combine to form more enzyme substrate complexes, thereby accelerating the reaction process. For example, in the enzymatic determination of glucose, using the glucose oxidase horseradish peroxidase system to catalyze TOOS color development and appropriately increasing the TOOS concentration can accelerate the reaction and produce significant color changes, shortening the detection time. But when the TOOS concentration exceeds a certain threshold, the enzyme active center is oversaturated by the substrate, and the reaction rate no longer significantly increases with increasing concentration, and may even decrease due to substrate inhibition, interfering with the normal detection process. 2, The effect of TOOS concentration on detection sensitivity There is a complex nonlinear relationship between TOOS concentration and detection sensitivity. Moderately increasing the concentration of TOOS can significantly improve the sensitivity of detection. In experiments such as immune testing, higher concentrations of TOOS can provide sufficient substrates for enzymatic reactions, generate more colored products, enhance absorbance signals, and help detect extremely low concentrations of target substances. But when the concentration of TOOS is too high, it can cause the problem of background signal enhancement. Too many substrate molecules may react at non-specific sites, producing excess color interference, making it difficult to distinguish the target signal from the background signal, and instead reducing the sensitivity and specificity of the detection, affecting the accuracy of the detection results. 3, The influence of TOOS concentration on the accuracy of results The precise control of TOOS concentration is the key to ensuring the accuracy of the results. When the concentration is too low, the substrate supply is insufficient, the reaction cannot proceed fully, and the amount of colored products generated is not proportional to the actual content of the target substance, resulting in low detection results. For example, in the experiment of measuring the uric acid content in serum, if the concentration of TOOS is insufficient, the hydrogen peroxide catalyzed by uric acid oxidase cannot fully react with TOOS, and the final color result cannot accurately reflect the true concentration of uric acid. Excessive TOOS concentration may disrupt the chemical equilibrium of the reaction system, causing side reactions and resulting in biased results. In addition, excessively high concentrations of TOOS may also affect enzyme activity and stability, further reducing the accuracy of detection results. 4, The shaping effect of TOOS concentration on the standard curve The choice of TOOS concentration directly affects the shape and performance of the standard curve when constructing it. The appropriate TOOS concentration can enable the standard curve to exhibit a good linear relationship, ensuring a stable correspondence between the concentration of the target substance and the absorbance value, facilitating accurate calculation of the concentration of unknown samples through the standard curve. If the concentration of TOOS is too high or too low, it will cause the standard curve to deviate from the ideal state, resulting in problems such as curve bending and narrowing of the linear range, which seriously affects the accuracy and reliability of quantitative analysis. Therefore, optimizing the TOOS concentration before the experiment is a necessary step in establishing a reliable standard curve. 5, Experimental strategy for optimizing TOOS concentration To achieve ideal experimental results, it is necessary to optimize the TOOS concentration through systematic experiments. The gradient experiment method is usually used to set up a series of TOOS with different concentrations for pre experiments, measure the absorbance values at different concentrations, and combine the detection range of the target substance and the characteristics of the reaction system to comprehensively analyze the reaction rate, sensitivity, accuracy and other indicators to screen for the optimal TOOS concentration. In addition, it is necessary to consider the influence of factors such as the concentration of other components in the reaction system, reaction temperature, and time on the optimization of TOOS concentration to ensure the consistency of experimental conditions and the reliability of results. The concentration of chromogenic substrate TOOS has a multidimensional impact on experimental results, from regulating reaction rate to maintaining detection sensitivity and accuracy, to constructing standard curves, each step requires precise control of TOOS concentration. Only by deeply understanding its impact mechanism and optimizing its concentration through scientific experimental methods can TOOS fully play its role in biochemical detection, providing reliable data support for scientific research and clinical diagnosis. Desheng specializes in producing more than the new Trinder's reagents, including TOOS. After more than ten years of research and development, it can ensure that TOOS appears as a powder, with a purity of up to 99%, strong water solubility, and stable performance to ensure the accuracy of experimental results. Desheng has a place in the market for in vitro diagnostic kit raw materials with high-quality products, and is deeply trusted and supported by customers at home and abroad. If you have any relevant intentions, please click on the official website for consultation!  
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What Did They Say
Tony
Tony
As a distributor of hospital agent , your Blood Collection Tube Additives is very suit for my needs , i think we have establish a good business with each other , thank you !
As a distributor of hospital agent , your Blood Collection Tube Additives is very suit for my needs , i think we have establish a good business with each other , thank you !
William
William
Received the sample order and passed the test. Thank you for all your efforts. You are a reliable partner! We will continue to cooperate with you in the future.
Received the sample order and passed the test. Thank you for all your efforts. You are a reliable partner! We will continue to cooperate with you in the future.
Marinel
Marinel
The biological buffer produced by Desheng Company has high purity, good water solubility, and a white powder appearance. The price is affordable, and the after-sales service is very enthusiastic, helping us to use the biological buffer correctly and efficiently. It was a very good experience, looking forward to the next collaboration!
The biological buffer produced by Desheng Company has high purity, good water solubility, and a white powder appearance. The price is affordable, and the after-sales service is very enthusiastic, helping us to use the biological buffer correctly and efficiently. It was a very good experience, looking forward to the next collaboration!
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