Enzymes dans les Protéines Recombinantes
Les enzymes accélèrent les réactions chimiques, agissant comme des catalyseurs biologiques, agissant sur des substrats et les transformant en différentes molécules appelées produits. Ces protéines sont indispensables dans les processus biochimiques et les applications industrielles, facilitant les réactions dans des conditions douces avec une grande spécificité et efficacité. Chez CymitQuimica, nous proposons une large sélection d'enzymes de haute qualité pour soutenir vos applications de recherche, industrielles et cliniques.
3315 produits trouvés pour "Enzymes dans les Protéines Recombinantes"
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Enolase, neuron specific
CAS :<p>Enolase (phosphopyruvate hydratase, EC 4.2.1.11) is an enzyme that catalyses the following reaction: 2-phospho-D-glycerate ⇌ phosphoenolpyruvate + H2O One unit of enolase will convert 1.0 μmole of 2-phosphoglycerate to phosphoenolpyruvate per minute.</p>Degré de pureté :Min. 95%rec HIV-1 Protease (expressed in E. coli)
<p>A proteolytic enzyme synthesized by the HIV cell as part of the GagPol polyprotein</p>NMCA (β-Lactamase)
CAS :<p>NMCA (β-Lactamase) is an enzyme that hydrolyzes β-lactam antibiotics, a type of product crucial for studies in antibiotic resistance mechanisms. This enzyme is derived from bacterial sources, specifically those strains known for their role in beta-lactam drug resistance. The mode of action of β-Lactamase involves the enzymatic breakdown of the β-lactam ring found in penicillins and cephalosporins, thereby neutralizing the antibiotic's efficacy. This catalytic process is an essential focus for researchers studying bacterial defense mechanisms and the development of resistant strains.</p>Penase (Penicillinase)
CAS :<p>Penase is an enzyme, specifically a type of beta-lactamase, which is derived from bacterial sources. Its mode of action involves the hydrolysis of the beta-lactam ring present in penicillin molecules. This enzymatic activity renders penicillin inactive by breaking its critical structural component that is essential for its antibacterial activity.</p>EUCODIS® Peroxidase 13, from bacterial, fungal and plant origin, recombinant - EP013
<p>Peroxidase 013 belongs to the class of the heme-family peroxidases and can be utilized for catalyzing oxidation/epoxidation of unsaturated C-C bonds, N- or S-oxidation, ether cleavage and alcohol/aldehyde oxidation reactions. The Peroxidase 12 has a temperature optimum in the 20 - 40 °C range and pH optimum between pH 5 and 8.</p>SPM-1 (β-Lactamase)
CAS :<p>SPM-1 (β-Lactamase) is an enzyme, which is a type of metallo-beta-lactamase enzyme, derived from bacterial origins, specifically from pathogens associated with nosocomial infections. This enzyme acts by hydrolyzing the amide bond in the beta-lactam ring of antibiotics, rendering β-lactam antibiotics ineffective. SPM-1 participates in antibiotic resistance by facilitating the degradation of a wide range of β-lactam antibiotics, including penicillins and cephalosporins, thereby nullifying their therapeutic effects.</p>LacBuster™-L bulk (β-lactamase)
CAS :<p>Ready to use beta-lactamase solution targeting beta-lactam antibiotics such as penicillins, carbapenems and cephalosporins. According to US Pharmacopeia (USP <71>) and EP, LacBusterTM-L is suitable for sterility testing methods such as membrane filtration and direct inoculation.</p>OXA-11 (β-Lactamase)
CAS :<p>OXA-11 is a β-lactamase enzyme, which is a type of protein produced by certain bacteria. These enzymes are derived from the bacterial source and are responsible for antibiotic resistance. The primary mode of action of OXA-11 is the hydrolysis of the β-lactam ring found in various antibiotics, such as penicillins and cephalosporins, rendering them ineffective. This enzymatic activity allows bacteria to survive exposure to these antimicrobial agents, posing a significant challenge in clinical settings.</p>KPC-1 (β-Lactamase)
CAS :<p>KPC-1 (β-Lactamase) is an enzyme that breaks down β-lactam antibiotics, rendering them ineffective. It originates from strains of bacteria, particularly Klebsiella pneumoniae, which are significant sources of hospital-acquired infections. The mode of action involves hydrolyzing the β-lactam ring found in antibiotics such as penicillins and cephalosporins, neutralizing their antibacterial effects.</p>VIM-15 (β-Lactamase)
CAS :<p>VIM-15 (β-Lactamase) is a metallo-β-lactamase enzyme, which is derived from bacterial sources, particularly Gram-negative bacteria. Its mode of action involves the hydrolysis of β-lactam antibiotics, facilitating bacterial resistance. This enzyme employs zinc ions as cofactors to break the β-lactam ring, rendering these antibiotics ineffective against the bacteria that produce the enzyme. The hydrolysis process disrupts the antibiotic's structural integrity, crucial for its antibacterial activity, thereby nullifying its therapeutic effects.</p>Carboxypeptidase G from pseudomonas sp.
CAS :<p>Carboxypeptidase G (EC 3.4.17.11, alternative name γ-Glutamyl hydrolase) is a protease that cuts γ-glutamyl bonds with high specificity. One unit of Carboxypeptidase G will hydrolyze (+)amethopterin to generate 1.0 μmole of L-glutamic acid.</p>Degré de pureté :Min. 95%LacBuster™-L 100 (β-lactamase)
CAS :<p>Ready to use beta-lactamase solution targeting beta-lactam antibiotics such as penicillins, carbapenems and cephalosporins. According to US Pharmacopeia (USP <71>) and EP, LacBusterTM-L is suitable for sterility testing methods such as membrane filtration and direct inoculation.beta lactamase I activity - min. 25.0 IU/mLbeta lactamase II activity - min. 10.0 IU/mL</p>VIM-15 (β-Lactamase)
CAS :<p>VIM-15 (β-Lactamase) is an enzyme product, specifically a metallo-beta-lactamase, which is sourced from certain resistant bacterial strains. This enzyme functions by hydrolyzing the beta-lactam ring of antibiotics, rendering them ineffective. The primary mode of action involves the coordination of zinc ions at its active site, enabling the breakdown of a broad spectrum of beta-lactam antibiotics including penicillins, cephalosporins, and carbapenems. This enzymatic activity significantly contributes to antibiotic resistance, posing a challenge in the treatment of bacterial infections. Its prevalence is noted in healthcare settings, where multidrug-resistant organisms are a concern. VIM-15 is of particular interest in clinical microbiology research and antimicrobial resistance studies, where understanding its structure and function can aid in the development of new inhibitors, potentially restoring the efficacy of beta-lactam antibiotics against resistant strains. Its characterization and study are critical for developing strategies to combat antibiotic-resistant infections effectively.</p>NMCA (β-Lactamase)
CAS :<p>NMCA (β-Lactamase) is an enzyme, specifically acclaimed for its role in conferring antibiotic resistance. It is derived from bacterial sources, where it naturally occurs as part of the bacterial defense mechanism against β-lactam antibiotics. NMCA (β-Lactamase) functions by hydrolyzing the β-lactam ring present in these antibiotics, effectively rendering them inactive. This mode of action disrupts the antibiotic's ability to inhibit cell wall synthesis within bacteria, thereby permitting bacterial survival and proliferation.</p>Couleur et forme :PowderLacBuster™-S bulk for plates (β-lactamase)
CAS :<p>This product shows beta-lactamase activity against clinically relevant beta-lactam antibiotics such as penicillins, carbapenems and cephalosporins. This product may be of particular interest for laboratory teams who require the sterility testing of biological specimens or for environmental monitoring applications.</p>CalB 02
CAS :<p>CalB 02 is a lipase enzyme, which is a biocatalyst derived from the yeast Candida antarctica. It functions primarily by catalyzing the hydrolysis of ester bonds. This enzymatic action is due to the unique structure of the active site, which allows for precise substrate specificity and stereoselectivity.</p>KPC-1 (β-Lactamase)
CAS :<p>KPC-1 (β-Lactamase) is a specialized enzyme, which is produced by certain Gram-negative bacteria, notably Klebsiella pneumoniae. It functions by hydrolyzing the β-lactam ring found in a wide range of β-lactam antibiotics, such as penicillins and cephalosporins. This enzymatic action effectively neutralizes the antibiotic's antimicrobial properties, rendering the drugs ineffective against bacteria that produce KPC-1.</p>SPM-1 (β-Lactamase)
CAS :<p>SPM-1 (β-Lactamase) is a metallo-β-lactamase enzyme, which is derived from certain Gram-negative bacteria, such as Pseudomonas aeruginosa. This enzyme is characterized by its ability to hydrolyze a broad spectrum of β-lactam antibiotics, including penicillins, cephalosporins, and carbapenems, due to the presence of a zinc ion in its active site. The zinc ion plays a crucial role in the catalytic mechanism by facilitating the cleavage of the β-lactam ring, rendering the antibiotic ineffective against bacterial cell wall synthesis.</p>OXA-11 (β-Lactamase)
CAS :<p>OXA-11 (β-Lactamase) is an enzyme of the β-lactamase class, which is primarily derived from Gram-negative bacteria. This enzyme is characterized by its ability to hydrolyze β-lactam antibiotics, rendering them ineffective by breaking the β-lactam ring, a crucial component of these antibiotics. OXA-11 is a notable member of the oxacillinase group within class D β-lactamases, known for its resistance to penicillins and cephalosporins.</p>
