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Enzymes for Research & Diagnostic Use

Creative Enzymes is a globally recognized provider of superior enzyme products, particularly renowned for its offerings in the medical and pharmaceutical industries. Unlike industrial enzymes, which are typically required in large quantities with a broad scope of applications, enzymes intended for therapeutic and diagnostic purposes must meet stringent criteria for purity and specificity. At Creative Enzymes, we leverage sophisticated equipment and advanced techniques to ensure that our enzyme products meet the highest quality standards. Over the years, our reliability has been affirmed by thousands of satisfied customers and scientists worldwide. Specializing in the medical industry, Creative Enzymes offers a diverse array of enzyme products that support research in various areas, from medical synthesis and new drug development to therapeutic uses and diagnostic applications.

Enzymes for Medical Synthesis and New Drug Development

  • Enzymes in Medicinal Synthesis

The role of enzymes in the medical industry is largely anchored in their ability to efficiently and specifically catalyze reactions. This trait is critical in medicinal synthesis where enzymes are employed to catalyze the conversion of pro-drugs into functional pharmaceuticals.

  • Trend Toward Enzymatic Catalysis in Drug Development

In the arena of new drug development, the utilization of enzymes is becoming increasingly prevalent, particularly for achieving chiral resolutions—a process of isolating a single enantiomer from a racemic mixture. This enzymatic approach often holds advantages over traditional chemical catalysis methods in terms of both efficiency and selectivity. Today, numerous pharmaceuticals are synthesized using enzymatic processes, underscoring the importance of high-purity, high-activity enzymes. At Creative Enzymes, we offer enzyme products that meet these stringent requirements, ensuring they are highly pure and exhibit stable activity to fulfill diverse medical application needs.

Enzymes for Therapeutic Uses

  • Enzymes in Treatment and Therapy

Given their precise and specific regulatory functions, enzymes have found extensive applications as therapeutic agents for a variety of diseases. Enzyme drugs are particularly prevalent in treating conditions affecting the digestive tract and in combating infections, wherein enzymes such as proteases and lysozymes play crucial roles. For example, proteases help break down proteins in the digestive tract, facilitating better absorption, while lysozymes possess antibacterial properties useful for treating infections.

  • Advances in Bioengineering and Future Prospects

With the surge in bioengineering advancements, new techniques for discovering and developing enzyme drugs continue to emerge. As a result, it is anticipated that enzyme-based therapeutics will witness substantial growth in the coming decade. Creative Enzymes offers a broad spectrum of enzymes for therapeutic purposes, including but not limited to amylases, proteases, lipases, cellulases, and lysozymes. Each enzyme product is manufactured following rigorous standards to ensure high activity and stability. Consequently, researchers can rely on Creative Enzymes' products to achieve consistent and reliable results in their therapeutic studies and applications.

Enzymes for Diagnosis and Analysis

  • Enzymes in Diagnostic Applications

The foundation of using enzymes for diagnostic and analytical purposes lies in the sensitivity of endogenous enzyme activities to an individual’s health condition. Variations in enzyme activity levels can signal different physiological or pathological states, making enzymes valuable tools for diagnostics. Moreover, enzymes can also detect changes in substrate concentrations, thereby providing insights into potential health disturbances. For example, cholesterol oxidase is used in various diagnostic assays to quantify cholesterol levels, which can indicate risks for conditions such as cardiovascular diseases and hypertension.

  • Enzymes in Advanced Analytical Techniques

Apart from traditional diagnostic applications, enzymes are integral to numerous biotechnological methods involved in analysis and detection. For instance, coupled multi-enzyme reaction assays and enzyme-linked immunosorbent assays (ELISA) utilize the specific catalytic properties of enzymes to achieve high sensitivity and specificity in detecting biomolecules. Creative Enzymes provides an extensive array of enzyme types, including oxidoreductases, transferases, hydrolases, lyases, isomerases, and ligases, all available in high purity and designed to meet the demands of advanced diagnostic and analytical applications.

  • Role of Enzymes in Biotechnological Advances

The growing field of biotechnology continually benefits from enzymatic innovations. Enzymes enable more precise and less invasive diagnostic tools, such as biosensors that can quickly and accurately monitor glucose levels in diabetic patients. Additionally, the development of personalized medicine relies heavily on enzyme technology to tailor treatments based on individual enzymatic profiles, thereby improving therapeutic outcomes and minimizing adverse effects.

Commitment to Quality and Customization

At Creative Enzymes, we are dedicated to offering enzyme products characterized by unmatched purity and catalytic specificity. Our state-of-the-art facilities and adherence to high-quality standards ensure that our products fulfill most research and clinical requirements. We understand that certain applications may demand bespoke solutions; hence, we provide customized enzyme products tailored to meet specific needs.

Customer Satisfaction and Future Directions

Creative Enzymes prides itself on a track record of delivering products that have gained the trust of a global customer base. Our commitment to excellence is reflected in the high level of satisfaction reported by thousands of customers and scientists who have successfully integrated our enzyme products into their research and development projects.

Looking ahead, Creative Enzymes aims to further expand its product offerings and enhance its technological capabilities to support the evolving needs of the medical and pharmaceutical industries. We are continuously exploring new frontiers in enzyme research to provide our clients with innovative solutions that drive scientific progress.

In conclusion, Creative Enzymes stands out as a premier provider of enzyme products, distinguished by our commitment to quality, specificity, and customer satisfaction. Whether you are involved in medical synthesis, therapeutic applications, or diagnostic analyses, our comprehensive enzyme portfolio is designed to support your research objectives. We invite you to experience the superior quality and reliability of Creative Enzymes, where excellence is not just a standard, but a promise.

Catalog Product Name EC No. CAS No. Source Price
NATE-1402 α-Galactosidase 97A from Bacteroides thetaiotaomicron, Recombinant EC 3.2.1.22 9025-35-8 E. coli Inquiry
NATE-1401 α-Galactosidase 97B from Bacteroides thetaiotaomicron, Recombinant EC 3.2.1.22 9025-35-8 E. coli Inquiry
NATE-1400 α-Galactosidase 27A from Clostridium cellulolyticum, Recombinant EC 3.2.1.22 9025-35-8 E. coli Inquiry
NATE-1399 Antarctic Phosphatase from E. coli, Recombinant E. coli Inquiry
NATE-1398 Protein Phosphatase 2Ac from Human, Recombinant Insect cells Inquiry
NATE-1397 β-Galactosidase 2B from Bacteroides thetaiotaomicron, Recombinant EC 3.2.1.23 9031-11-2 E. coli Inquiry
NATE-1396 β-Galactosidase 2A from Bacteroides thetaiotaomicron, Recombinant EC 3.2.1.23 9031-11-2 E. coli Inquiry
NATE-1395 β-Galactosidase 42A from Thermotoga maritima, Recombinant EC 3.2.1.23 9031-11-2 E. coli Inquiry
NATE-1394 β-Galactosidase 42A from Caldicellulosiruptor saccharolyticus, Recombinant EC 3.2.1.23 9031-11-2 E. coli Inquiry
NATE-1393 β-Galactosidase 42A from Bifidobacterium longum, Recombinant EC 3.2.1.23 9031-11-2 E. coli Inquiry
NATE-1392 β-Galactosidase 1A from Sulfolobus solfataricus, Recombinant EC 3.2.1.23 9031-11-2 E. coli Inquiry
NATE-1391 Galactanase 53A from Bacillus licheniformis, Recombinant EC 3.2.1.89 58182-40-4 E. coli Inquiry
NATE-1390 Galactanase 53A from Clostridium thermocellum, Recombinant EC 3.2.1.89 58182-40-4 E. coli Inquiry
NATE-1389 Galactanase 53A from Cellvibrio japonicus, Recombinant EC 3.2.1.89 58182-40-4 E. coli Inquiry
NATE-1388 Galactanase 53A from Bacillus subtilis, Recombinant EC 3.2.1.89 58182-40-4 E. coli Inquiry
NATE-1387 Galactanase 53A from Bacteroides thetaiotaomicron, Recombinant EC 3.2.1.89 58182-40-4 E. coli Inquiry
NATE-1386 Levanase 32A from Bacillus subtilis, Recombinant EC 3.2.1.65 2608508 E. coli Inquiry
NATE-1385 Levanase 32A from Bacteroides thetaiotaomicron, Recombinant EC 3.2.1.65 2608508 E. coli Inquiry
NATE-1384 Fructosyltransferase 68A from Bacillus subtilis, Recombinant EC 2.4.1.10 9030-17-5 E. coli Inquiry
NATE-1383 Glucansucrase 70B from Streptococcus mutans, Recombinant EC 2.4.1.5 9032-14-8 E. coli Inquiry
NATE-1382 Glucansucrase 70C from Streptococcus mutans, Recombinant EC 2.4.1.5 9032-14-8 E. coli Inquiry
NATE-1381 Glucansucrase 70D from Streptococcus mutans, Recombinant EC 2.4.1.5 9032-14-8 E. coli Inquiry
NATE-1380 Fructan β-2,1-fructosidase 32A from Paenibacillus polymyxa, Recombinant EC 3.2.1.153 1000593-08-7 E. coli Inquiry
NATE-1376 Chitosanase 46A from Bacillus subtilis, Recombinant EC 3.2.1.132 51570-20-8 E. coli Inquiry
NATE-1375 Chitosanase 8B from Bacillus cereus, Recombinant EC 3.2.1.132 51570-20-8 E. coli Inquiry
NATE-1374 Cellulase 5C & Acetyl xylan esterase 2A from Clostridium thermocellum, Recombinant EC 3.2.1.4 & EC 3.2.1.72 9012-54-8 E. coli Inquiry
NATE-1373 Cellulase 5E from Clostridium thermocellum, Recombinant EC 3.2.1.4 9012-54-8 E. coli Inquiry
NATE-1372 Cellulase 44A from Clostridium thermocellum, Recombinant EC 3.2.1.4 9012-54-8 E. coli Inquiry
NATE-1371 Cellulase 8A from Clostridium thermocellum, Recombinant EC 3.2.1.4 9012-54-8 E. coli Inquiry
NATE-1369 Cellulase 124A from Clostridium thermocellum, Recombinant EC 3.2.1.4 9012-54-8 E. coli Inquiry