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S-Bioallethrin (D-Trans-Allethrin) is a pyrethroid insecticide. S-Bioallethrin disrupts nerve function by modifying the gating kinetics of transitions between the conducting and nonconducting states of voltage-gated sodium channels. S-Bioallethrin also causes inhibition of lymphocyte proliferation and induces histamine release from human basophils .
CGP 44 645 is the methanol metabolite of Letrozole (HY-14248) and is a molecular indicator for evaluating its metabolic kinetics in microsomes in vitro. Levels of CGP 44 645 in rat liver microsomes may be sex-specific .
cis-4-Hydroxy-D-proline is a precursor of conformationally restricted PNA adenine monomer. cis-4-Hydroxy-D-proline can be used to study the specificity and kinetics of D-alanine dehydrogenase .
β-Methylcrotonyl coenzyme A lithium is an intermediate in leucine metabolism and can be used as a substrate to study the specificity and kinetics of β-methylcrotonyl coenzyme A carboxylase (MCCase) .
5-Bromo-6-chloro-1H-indol-3-yl acetate, a member of the indole family, is a derivative of the aromatic heterocyclic compound indole. It has been used in a variety of research settings, including studies of enzyme kinetics and protein-ligand interactions. 5-Bromo-6-chloro-1H-indol-3-yl acetate is a biomaterial or organic compound that can be used as a biomaterial or organic compound related to life science research .
N20C hydrochloride is a selective and noncompetitive open NMDA receptor open channel blocker, with micromolar affinity, fast on-off blockade kinetics, and strong voltage dependence. Neuroprotective activity .
STING18 (Stimulator of interferon genes 18) is a compound that inhibits STING protein by utilizing a small molecule active site dimer, with good oral exposure, slow binding kinetics, and functional inhibitory activity on STING-mediated cytokine release.
Cy5.5(Me)-C3-DBCO is a click chemistry reagent containing an cycloalkynes group. DBCO group enables copper free biocompatible click chemistry with fast reaction kinetics and good stability .
α-NAD (α-Nicotinamide Adenine Dinucleotide) serves as a substrate for renalase and functions as an analog of β-NAD, influencing the kinetics of NAD-dependent enzymes, while also playing a crucial role as a cofactor in mitochondrial oxidation-reduction reactions.
4-Methylumbelliferyl β-D-cellobioside is a substrate of Cellulase (HY-B2220). 4-Methylumbelliferyl β-D-cellobioside can be hydrolyzed and produces fluorescent 4-methylumbelliferone, which can be used to study the kinetics of cellulases .
Maltogenic amylase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Acid Stable Protease is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Colipase, Porcine is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Peroxidase, Lignin is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Ketoamine oxidase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Homocysteine methyltransferase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Protease for flavors is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Acid Protease, Aspergillus niger is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Aspartate Aminotransferase, Human is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Lipase, Aspergillus niger is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Heparanase 1, Human is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Lipoamide dehydrogenase, porcine is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
S-Adenosylmethionine synthetase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Tn5 Transposase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Cy5.5 DBCO is a click chemistry reagent containing an cycloalkynes group. Cy5.5 DBCO is a linker of Cyanine5.5 fluorophore. DBCO group enables copper free biocompatible click chemistry with fast reaction kinetics and good stability .
Alkalophilic Proteinase, Streptomyces sp is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Neutral Proteinase, Bacillus sp. is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Glucose isomerase, streptomyces murinus is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Human leukocyte esterase (unsonicated) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Cystathionine γ-lyase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Betaine homocysteine S-methyltransferase is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Trypsin-Chymotrypsin 1:1 is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Trypsin-Chymotrypsin 1:250 is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Trypsin-Chymotrypsin 6:1 is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
o-Cresolphthalein (ortho-Cresolphthalein) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Larotaxel (dihydrate) (XRP9881 (dihydrate)), a new taxane compound prepared by partial synthesis from 10-deacetyl baccatin III, is active against tumors .
AMK618 (Immobilized cefadroxil acylase) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
AMK518 (Immobilized cefradine acylase) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
AMK328 (Immobilized cefaclor acylase) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
AMK318 (Immobilized cephalexin acylase) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
AMK218 (Immobilized amoxicillin acylase) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
P-Hydroxybenzoate hydroxylase, native microorganism is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Phenylethanolamine N-methyl transferase, bovine is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Histamine N-methyl transferase, rat is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Ribonuclease T2, Aspergillus oryzae is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Recombinant endoglycoceramidase II assisted by activator II is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Chimax-G (Fungal Endo- and Exo- chitosanases) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Carboxypeptidase Y, Baker's yeast (S. cerevisiae) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
CalB-10Xup (Candida antarctica lipase) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
Rapidase Revelation Aroma (AR2000), Aspergillus niger is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
L-Methionine γ-lyase, pseudomonas putida is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
2-Butenoyl coenzyme A (lithium), an active compound, can be used as a substrate for plasmodium falciparum enyl-ACP reductases and other enyl-CoA reductases. 2-Butenoyl coenzyme A lithium can be used as a substrate analogue to study the kinetics of β-hydroxyacyl-acyl-carrier protein (ACP) dehydratase (FabZ) .
MPO-IN-5 (compound 1) is a potent, irreversible MPO (myeloperoxidase) inhibitor. MPO-IN-5 inhibits MPO peroxidation and hERG binding, with IC50 values of 0.22 and 2.8 μM, respectively. MPO-IN-5 shows rapid kinetics of inhibition, with enzyme inactivation rate (kinact/Ki) of 23000 M −1s −1 .
4-Methylumbelliferyl-β-D-xylopyranoside (MuX) can be used as substrate for the research of β-Xylosidase activity. 4-Methylumbelliferyl-β-D-xylopyranoside shows burst, steady-state kinetics, which supports the conclusion that hydrolysis of the glycosidic bonds for the substrate 4-Methylumbelliferyl-β-D-xylopyranoside is rapid .
CGP 44 645 (Standard) is the analytical standard of CGP 44 645. This product is intended for research and analytical applications. CGP 44 645 is the methanol metabolite of Letrozole (HY-14248) and is a molecular indicator for evaluating its metabolic kinetics in microsomes in vitro. Levels of CGP 44 645 in rat liver microsomes may be sex-specific .
RG-14467 is an epidermal growth factor receptor tyrosine kinase inhibitor with activity that inhibits enzyme activity. RG-14467 has similar inhibition kinetics to Lavendustin-A, with a dissociation constant of 3.4μM for the initial rapidly formed complex and an overall dissociation constant estimated to be less than or equal to 30nM, and is a partially competitive inhibitor for ATP.
1-NBD-decanoyl-2-decanoyl-sn-glycerol is a diacylglycerol (DAG) derivative, which is labeled with a fluorescent group NBD. 1-NBD-decanoyl-2-decanoyl-sn-glycerol is the substrate for diacylglycerol kinase (DGK), and can be used for quantitative detection of the DGF enzyme kinetics in vitro, and the changes in DAG and PA during cell signaling .
Deacetyldiltiazem is a metabolite with coronary vasodilator activity. Deacetyldiltiazem is present in the plasma of individuals taking Diltiazem. The deacetylase activity of deacetyldiltiazem is mainly catalyzed by the rat Ces2a enzyme. In vitro experiments of deacetyldiltiazem showed that its Km value was similar to that of rat liver microsomes, showing efficient deacetylase activity. The study of deacetyldiltiazem helps to understand the differences in the metabolic kinetics of compounds between different species .
Linoleoyl-CoA is a substrate used to study the specificity and kinetics of acyl-CoA. Linoleoyl-CoA has the ability to replace substrates, and its specificity can be changed by amino acid substitution, thereby affecting the reaction with different desaturases. The study of linoleoyl-CoA helps to understand the substrate specificity of mammalian front-end fatty acid desaturases and provides support for the efficient production of value-added fatty acids .
α-Glucosidase-IN-9 (compound 7) is a potent α-glucosidase inhibitor, with an IC50 of 55.6 μM. α-Glucosidase-IN-9 can be used for type II diabetes research .
α-Glucosidase-IN-10 (compound 13) is a potent α-glucosidase inhibitor, with an IC50 of 92.7 μM. α-Glucosidase-IN-10 can be used for type II diabetes research .
Darusentan (Lu-135252) is a selective endothelin receptor A (ET-A) receptor antagonist, which binds with a Ki of 1.4 nM to the ET-A receptor and a Ki of 184 nM to ET-B receptor, respectively with a 100-fold selectivity for ETA rather than ETB receptors . Darusentan competes for radiolabeled endothelin binding in rat aortic vascular smooth muscle cells (RAVSMs) membranes with single-site kinetics, exhibiting a Ki of 13 nM .
BRD0209 is a potent, selective and dual inhibitor of GSK3α/β inhibitor (GSK3α IC50 = 19 nM; GSK3β IC50 = 5 nM). BRD0209 is also a reversible ATP-competitive inhibitor with fast-off kinetics (Ki = 4.2 nM, respectively). BRD0209 is a tricyclic pyrazolotetrahydroquinolinone compound. BRD0209 has the potential for the research of mood disorder diseases .
KAT8-IN-1 is a lysine (K) acetyltransferase 8 (KAT8) inhibitor, with IC50s of 141 μM (KAT8), 221 μM (KAT2B), 106 μM (KAT3B), respectively. KAT8 inhibits histone acetyltransferases (HATs), and could result in disease states, such as cancer or inflammatory diseases .
KB130015 (KB015) is an orally active and potent ThRα and ThRβ (Thyroid Hormone Receptor) inhibitor, with IC50 values of 4.5 and 5.1 μM, respectively. KB130015 has antiarrhythmic properties. KB130015 markedly slows the kinetics of inactivation of Na + channels. KB130015 opens large-conductance Ca 2+-activated K + channels and relaxes vascular smooth muscle .
Phrixotoxin 3 TFA is a potent blocker of voltage-gated sodium channels, with IC50s of 0.6, 42, 72, 288, 610 nM for NaV1.2, NaV1.3, NaV1.4, NaV1.1 and NaV1.5, respectively. Phrixotoxin 3 TFA modulates voltage-gated sodium channels with properties similar to those of typical gating-modifier toxins, both by causing a depolarizing shift in gating kinetics and by blocking the inward component of the sodium current .
Phrixotoxin 3 is a potent blocker of voltage-gated sodium channels, with IC50s of 0.6, 42, 72, 288, 610 nM for NaV1.2, NaV1.3, NaV1.4, NaV1.1 and NaV1.5, respectively. Phrixotoxin 3 modulates voltage-gated sodium channels with properties similar to those of typical gating-modifier toxins, both by causing a depolarizing shift in gating kinetics and by blocking the inward component of the sodium current .
FAPI-4 is a potent fibroblast activation protein (FAP) inhibitor for the targeting FAP. FAPI-4 can be used in cancer research. 68Ga-FAPI-4 PET/CT is a promising new diagnostic method for imaging various kinds of cancer, with good tumor-to-background contrast ratios .
NSC 663284 (DA-3003-1) is a potent, cell-permeable, and irreversible Cdc25 dual specificity phosphatase inhibitor, has an IC50 for Cdc25B2 of 0.21 μM. NSC 663284 exhibits mixed competitive kinetics against Cdc25A, Cdc25B(2), and Cdc25C with Ki values of 29, 95, and 89 nM, respectively . NSC 663284 inhibits NSD2 (IC50 of 170 nM) through a direct interaction with the catalytic SET domain (Kd of 370 nM) .
DBCO-Cy3 (DBCO-Sulfo-Cy3) is the derivative of Cyanine3 fluorophore, a pH insensitive from pH (4-10) orange fluorescent dyewith excitation maximum 555 nm and emission maximum of 580nm. DBCO-Cy3 has fast reaction kinetics and good stability, and is productive to use in many standard fluorescent instrumentations. DBCO-Cy3 is a click chemistry reagent, it contains a DBCO group that can undergo strain-promoted alkyne-azide cycloaddition (SPAAC) with molecules containing Azide groups.
Lithium stearate (Stearic acid (lithium)) is a compound that forms vesicles in reaction with silver nitrate, thereby changing the reaction kinetics of the nucleation and self-assembly process of silver stearate. It has the activity that even in the presence of excess silver nitrate, only about 80% can be converted into silver stearate and the residual lithium stearate will inhibit the growth process of silver stearate crystals, thereby producing silver stearate crystals that are much smaller than those obtained from sodium stearate, providing an opportunity to further control the self-assembly and crystal growth of silver stearate.
AFD-21 maleate is a drug with antiarrhythmic activity. AFD-21 maleate inhibits sodium channels by binding to sodium channels in an inactive state, with both use-dependent and voltage-dependent effects. The unbinding rate of AFD-21 maleate is similar to that of Class I antiarrhythmic drugs with moderate kinetics. AFD-21 maleate can cause a slight prolongation of the action potential duration and significantly reduce the maximum rise rate of the action potential at certain concentrations. AFD-21 maleate also showed use-dependent blocking effects as stimulation frequency increased .
WM382 is an orally active and potent dual plasmepsinIX/X (PMIX/X) inhibitor with IC50 values of 1.4 nM and 0.03 nM, respectively. WM382 has robust in vivo efficacy at multiple stages of the malaria parasite life cycle and an excellent resistance profile .
(+)-1-(1-Naphthyl)ethylamine ((+)-1-(1-NEA)) is a chiral modifier used to introduce enantioselectivity in catalytic hydrogenation reactions. 1-NEA can undergo H-D exchange with D2 in solution to form N?D bonds. That is, 1-NEA can complete Pt surface adsorption and protonation through amine N atoms, indicating that NEA molecules have the potential to impart enantioselectivity to Pt hydrogenation catalysts .
BCN-OH (endo-9-Hydroxymethylbicyclo[6.1.0]non-4-yne) is a mitochondrial probe based on the lyophilic bidentate bicyclic ligand BCN and is a control reagent for BCN-TPP. The TPP group is a reactive sulfenic acid probe that targets mitochondria. BCN-TPP is known to affect mitochondrial energy, causing a sharp decrease in basal respiration, causing it to exhibit faster reaction kinetics with sulfonated proteins. BCN-OH does not contain hydrophobic triphenylphosphonium (TPP) ions. Using BCN-OH as a control allows the TPP group to be safely introduced when designing sulfenic acid traps .
Phrixotoxin 3-NH2 TFA is a derivative of Phrixotoxin 3 TFA (HY-P1218A). Phrixotoxin 3 TFA is a potent blocker of voltage-gated sodium channels, with IC50s of 0.6, 42, 72, 288, 610 nM for NaV1.2, NaV1.3, NaV1.4, NaV1.1 and NaV1.5, respectively. Phrixotoxin 3 TFA modulates voltage-gated sodium channels with properties similar to those of typical gating-modifier toxins, both by causing a depolarizing shift in gating kinetics and by blocking the inward component of the sodium current .
Darexaban maleate (YM150 maleate) is a direct factor Xa inhibitor with activity in preventing venous thromboembolism. The major metabolite of Darexaban maleate in humans is Darexaban glucitol, which acts pharmacologically. The glucitolation reaction of Darexaban maleate is mainly catalyzed by UGT1A9 and UGT1A10 in the human liver and intestine. The K(m) value of Darexaban maleate glucitolation in the liver is greater than 250 μM, while in the intestine it exhibits substrate inhibition kinetics with a K(m) value of 27.3 μM. The unbound K(m) value of Darexaban maleate is significantly reduced by the influence of fatty acid-free bovine serum albumin in both HLM and UGT1A9 .
Aβ42 agonist-1 (compound 7a) is a small molecule compound that can promote Aβ42 aggregation. Aβ42 agonist-1 can interact with Aβ42 oligomers and pentamers to promote nontoxic aggregate self-assembly and rapid fibril formation. Aβ42 agonist-1 prevents Aβ42-induced cytotoxicity in HT22 hippocampal neuronal cells .
Aβ42 agonist-2 (compound 7b) is a small molecule compound that can promote Aβ42 aggregation. Aβ42 agonist-2 can interact with Aβ42 oligomers and pentamers to promote nontoxic aggregate self-assembly and rapid fibril formation. Aβ42 agonist-2 prevents Aβ42-induced cytotoxicity in HT22 hippocampal neuronal cells .
Guanosine 5'-diphosphate (GDP) disodium salt, a purine nucleoside diphosphate, is interconverted to guanosine by the action of exonucleotidase and phosphorylation of nucleoside to guanine. Guanosine 5'-diphosphate disodium salt activates adenosine 5'-triphosphate-sensitive K + channel and is used to study the kinetics and characteristics of GTPases such as those associated with G-protein coupled receptors (GPCR). Guanosine 5'-diphosphate disodium salt is a potential iron mobilizer, which prevents the Hepcidin (HY-P70400)-ferroportin interaction and modulates the interleukin-6 (IL-6)/stat-3 pathway. Elevated levels of guanosine 5’-diphosphate are associated with the pathogenesis of neurological diseases. Guanosine 5'-diphosphate disodium salt is promising for the research of inflammation, such as anemia of inflammation (AI) .
DBCO-Cy3 (DBCO-Sulfo-Cy3) is the derivative of Cyanine3 fluorophore, a pH insensitive from pH (4-10) orange fluorescent dyewith excitation maximum 555 nm and emission maximum of 580nm. DBCO-Cy3 has fast reaction kinetics and good stability, and is productive to use in many standard fluorescent instrumentations. DBCO-Cy3 is a click chemistry reagent, it contains a DBCO group that can undergo strain-promoted alkyne-azide cycloaddition (SPAAC) with molecules containing Azide groups.
Cy5.5(Me)-C3-DBCO is a click chemistry reagent containing an cycloalkynes group. DBCO group enables copper free biocompatible click chemistry with fast reaction kinetics and good stability .
(+)-1-(1-Naphthyl)ethylamine ((+)-1-(1-NEA)) is a chiral modifier used to introduce enantioselectivity in catalytic hydrogenation reactions. 1-NEA can undergo H-D exchange with D2 in solution to form N?D bonds. That is, 1-NEA can complete Pt surface adsorption and protonation through amine N atoms, indicating that NEA molecules have the potential to impart enantioselectivity to Pt hydrogenation catalysts .
BCN-OH (endo-9-Hydroxymethylbicyclo[6.1.0]non-4-yne) is a mitochondrial probe based on the lyophilic bidentate bicyclic ligand BCN and is a control reagent for BCN-TPP. The TPP group is a reactive sulfenic acid probe that targets mitochondria. BCN-TPP is known to affect mitochondrial energy, causing a sharp decrease in basal respiration, causing it to exhibit faster reaction kinetics with sulfonated proteins. BCN-OH does not contain hydrophobic triphenylphosphonium (TPP) ions. Using BCN-OH as a control allows the TPP group to be safely introduced when designing sulfenic acid traps .
β-Methylcrotonyl coenzyme A lithium is an intermediate in leucine metabolism and can be used as a substrate to study the specificity and kinetics of β-methylcrotonyl coenzyme A carboxylase (MCCase) .
5-Bromo-6-chloro-1H-indol-3-yl acetate, a member of the indole family, is a derivative of the aromatic heterocyclic compound indole. It has been used in a variety of research settings, including studies of enzyme kinetics and protein-ligand interactions. 5-Bromo-6-chloro-1H-indol-3-yl acetate is a biomaterial or organic compound that can be used as a biomaterial or organic compound related to life science research .
o-Cresolphthalein (ortho-Cresolphthalein) is a biocatalyst and a key enzyme in new biocatalyst technology. Enzyme engineering focuses on enhancing enzyme reaction kinetics, substrate selectivity, and activity under harsh conditions such as low or high pH. By introducing stimulus responsiveness to these enzyme modifications, dynamic control of activity is also possible .
2-Butenoyl coenzyme A (lithium), an active compound, can be used as a substrate for plasmodium falciparum enyl-ACP reductases and other enyl-CoA reductases. 2-Butenoyl coenzyme A lithium can be used as a substrate analogue to study the kinetics of β-hydroxyacyl-acyl-carrier protein (ACP) dehydratase (FabZ) .
Phrixotoxin 3-NH2 TFA is a derivative of Phrixotoxin 3 TFA (HY-P1218A). Phrixotoxin 3 TFA is a potent blocker of voltage-gated sodium channels, with IC50s of 0.6, 42, 72, 288, 610 nM for NaV1.2, NaV1.3, NaV1.4, NaV1.1 and NaV1.5, respectively. Phrixotoxin 3 TFA modulates voltage-gated sodium channels with properties similar to those of typical gating-modifier toxins, both by causing a depolarizing shift in gating kinetics and by blocking the inward component of the sodium current .
[Arg6]-β-Amyloid (1-40), england mutation is a biological active peptide. (Several mutations in the beta amyloid precursor gene cause autosomal dominant Alzheimer's Disease in a number of kindreds. Among them, the English mutation, with His at position 6 replaced with Arg, was reported to accelerate the kinetics of oligomers formation which act as fibril seeds and are more toxic to cultured neuronal cells.)
Phrixotoxin 3 TFA is a potent blocker of voltage-gated sodium channels, with IC50s of 0.6, 42, 72, 288, 610 nM for NaV1.2, NaV1.3, NaV1.4, NaV1.1 and NaV1.5, respectively. Phrixotoxin 3 TFA modulates voltage-gated sodium channels with properties similar to those of typical gating-modifier toxins, both by causing a depolarizing shift in gating kinetics and by blocking the inward component of the sodium current .
Phrixotoxin 3 is a potent blocker of voltage-gated sodium channels, with IC50s of 0.6, 42, 72, 288, 610 nM for NaV1.2, NaV1.3, NaV1.4, NaV1.1 and NaV1.5, respectively. Phrixotoxin 3 modulates voltage-gated sodium channels with properties similar to those of typical gating-modifier toxins, both by causing a depolarizing shift in gating kinetics and by blocking the inward component of the sodium current .
cis-4-Hydroxy-D-proline is a precursor of conformationally restricted PNA adenine monomer. cis-4-Hydroxy-D-proline can be used to study the specificity and kinetics of D-alanine dehydrogenase .
4-Methylumbelliferyl-β-D-xylopyranoside (MuX) can be used as substrate for the research of β-Xylosidase activity. 4-Methylumbelliferyl-β-D-xylopyranoside shows burst, steady-state kinetics, which supports the conclusion that hydrolysis of the glycosidic bonds for the substrate 4-Methylumbelliferyl-β-D-xylopyranoside is rapid .
Guanosine 5'-diphosphate (GDP) disodium salt, a purine nucleoside diphosphate, is interconverted to guanosine by the action of exonucleotidase and phosphorylation of nucleoside to guanine. Guanosine 5'-diphosphate disodium salt activates adenosine 5'-triphosphate-sensitive K + channel and is used to study the kinetics and characteristics of GTPases such as those associated with G-protein coupled receptors (GPCR). Guanosine 5'-diphosphate disodium salt is a potential iron mobilizer, which prevents the Hepcidin (HY-P70400)-ferroportin interaction and modulates the interleukin-6 (IL-6)/stat-3 pathway. Elevated levels of guanosine 5’-diphosphate are associated with the pathogenesis of neurological diseases. Guanosine 5'-diphosphate disodium salt is promising for the research of inflammation, such as anemia of inflammation (AI) .
β-Methylcrotonyl coenzyme A lithium is an intermediate in leucine metabolism and can be used as a substrate to study the specificity and kinetics of β-methylcrotonyl coenzyme A carboxylase (MCCase) .
2-Butenoyl coenzyme A (lithium), an active compound, can be used as a substrate for plasmodium falciparum enyl-ACP reductases and other enyl-CoA reductases. 2-Butenoyl coenzyme A lithium can be used as a substrate analogue to study the kinetics of β-hydroxyacyl-acyl-carrier protein (ACP) dehydratase (FabZ) .
The HEPACAM2 gene encodes a protein associated with an immunoglobulin superfamily that plays a role in mitosis. Knocking down this gene can lead to prophase cell arrest, abnormal nuclear morphology and apoptosis. HEPACAM2 can be used as a biomarker for the prognosis of colorectal adenocarcinoma. HEPACAM2 Protein, Rat (HEK293, His) is the recombinant rat-derived HEPACAM2 protein, expressed by HEK293 , with C-His labeled tag. The total length of HEPACAM2 Protein, Rat (HEK293, His) is 318 a.a., with molecular weight of approximately 55-75 kDa.
The HEPACAM2 gene encodes a protein associated with an immunoglobulin superfamily that plays a role in mitosis. Knocking down this gene can lead to prophase cell arrest, abnormal nuclear morphology and apoptosis. HEPACAM2 can be used as a biomarker for the prognosis of colorectal adenocarcinoma. HEPACAM2 Protein, Rat (HEK293, Fc) is the recombinant rat-derived HEPACAM2 protein, expressed by HEK293 , with C-hFc labeled tag. The total length of HEPACAM2 Protein, Rat (HEK293, Fc) is 318 a.a., with molecular weight of 66-73 kDa.
Cy5.5 DBCO is a click chemistry reagent containing an cycloalkynes group. Cy5.5 DBCO is a linker of Cyanine5.5 fluorophore. DBCO group enables copper free biocompatible click chemistry with fast reaction kinetics and good stability .
DBCO-Cy3 (DBCO-Sulfo-Cy3) is the derivative of Cyanine3 fluorophore, a pH insensitive from pH (4-10) orange fluorescent dyewith excitation maximum 555 nm and emission maximum of 580nm. DBCO-Cy3 has fast reaction kinetics and good stability, and is productive to use in many standard fluorescent instrumentations. DBCO-Cy3 is a click chemistry reagent, it contains a DBCO group that can undergo strain-promoted alkyne-azide cycloaddition (SPAAC) with molecules containing Azide groups.
Cy5.5(Me)-C3-DBCO is a click chemistry reagent containing an cycloalkynes group. DBCO group enables copper free biocompatible click chemistry with fast reaction kinetics and good stability .
Guanosine 5'-diphosphate (GDP) disodium salt, a purine nucleoside diphosphate, is interconverted to guanosine by the action of exonucleotidase and phosphorylation of nucleoside to guanine. Guanosine 5'-diphosphate disodium salt activates adenosine 5'-triphosphate-sensitive K + channel and is used to study the kinetics and characteristics of GTPases such as those associated with G-protein coupled receptors (GPCR). Guanosine 5'-diphosphate disodium salt is a potential iron mobilizer, which prevents the Hepcidin (HY-P70400)-ferroportin interaction and modulates the interleukin-6 (IL-6)/stat-3 pathway. Elevated levels of guanosine 5’-diphosphate are associated with the pathogenesis of neurological diseases. Guanosine 5'-diphosphate disodium salt is promising for the research of inflammation, such as anemia of inflammation (AI) .
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