추천 제품
양식
lyophilized powder
Quality Level
특이 활성도
≥10 units/mg solid
분자량
~95 kDa
기술
cell based assay: suitable
적합성
suitable for assay of choline
suitable for molecular biology
저장 온도
−20°C
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관련 카테고리
애플리케이션
Choline oxidase from Alcaligenes sp. has been used:
- in a study to investigate a choline biosensor constructed with a chitinous membrane and its application in measuring cholinesterase inhibitory activities
- has also been used in spectroscopic studies on the photoreaction of choline oxidase with covalently bound flavin.
- as a component of phosphate buffer saline (PBS) buffer for measurement of choline acetyltransferase (ChAT) activity in brain tissue homogenates
- to measure the choline generated by autotaxin (ATX) by ATX activity assay and phospholipase-D (PLD) by PLD activity assay
생화학적/생리학적 작용
Choline oxidase catalyzes the four-electron oxidation of choline to glycine-betaine, with betaine-aldehyde as the intermediate and molecular oxygen as th eprimary electron acceptor. The enzyme can also accept betaine-aldehyde as a substrate. This allows the study of the reaction mechanism for the conversion of choline to the aldehyde intermediate, & of betaine-aldehyde to glycine-betaine. The enzyme is a flavoprotein with a molecular weight of approx. 72,000 Da (gel filtration) or 66,000 Da (SDS gel electrophoresis).
물리적 특성
Isoelectric point:4.1 ± 0.1
Michaelis constants:2.84 x 10¯3M (Choline), 5.33 x 10¯3M (Betaine aldehyde)
Structure:One mol of FAD is covalently bound to mol of the enzyme
Inhibitors:p-Chloromercuribenzoate, Cu++, Co++, Hg++, Ag+
Optimum pH:8.0 – 8.5
Optimum temp:40 – 45°C
pH Stability:pH 7.0 – 9.0 (30°C, 2hr)
Thermal stability:Below 37°C (pH 7.5, 10min)
Michaelis constants:2.84 x 10¯3M (Choline), 5.33 x 10¯3M (Betaine aldehyde)
Structure:One mol of FAD is covalently bound to mol of the enzyme
Inhibitors:p-Chloromercuribenzoate, Cu++, Co++, Hg++, Ag+
Optimum pH:8.0 – 8.5
Optimum temp:40 – 45°C
pH Stability:pH 7.0 – 9.0 (30°C, 2hr)
Thermal stability:Below 37°C (pH 7.5, 10min)
단위 정의
One unit will form 1 μmole of H2O2 with oxidation of 1 μmole of choline to betaine aldehyde per min at pH 8.0 at 37 °C. Note: During the conversion of choline to betaine by choline oxidase, 2 μmoles of H2O2 are produced for every μmole of choline.
신호어
Danger
유해 및 위험 성명서
예방조치 성명서
Hazard Classifications
Resp. Sens. 1
Storage Class Code
11 - Combustible Solids
WGK
WGK 3
Flash Point (°F)
Not applicable
Flash Point (°C)
Not applicable
개인 보호 장비
Eyeshields, Gloves, type N95 (US)
이미 열람한 고객
Bo-Chuan Hsieh et al.
Journal of pharmaceutical and biomedical analysis, 45(4), 673-678 (2007-03-03)
An amperometric flow-injection choline biosensor was assembled utilizing natural chitinous membrane as the supporting material for biocatalyst immobilization, and the membrane was purified from Taiwanese soldier crab, Mictyris brevidactylus. The chitinous membrane (<50.0 microm in thickness) was covalently immobilized with
M Ohta-Fukuyama et al.
Journal of biochemistry, 88(1), 197-203 (1980-07-01)
Choline oxidase from Alcaligenes sp. catalyzed the oxidation of choline and betaine aldehyde to betaine with concomitant consumption of oxygen and production of hydrogen peroxide. The values of Km for choline and betaine aldehyde were 0.87 and 6.2 mM, respectively.
Shihua Hou et al.
Biosensors & bioelectronics, 33(1), 44-49 (2012-01-11)
A novel acetylcholinesterase (AChE)/choline oxidase (ChOx) bienzyme amperometric acetylcholine biosensor based on gold nanoparticles (AuNPs) and multi-walled carbon nanotubes (MWCNTs) has been successfully developed by self-assembly process in combination of sol-gel technique. A thiolated aqueous silica sol containing MWCNTs and
Giovanni Gadda
Biochimica et biophysica acta, 1646(1-2), 112-118 (2003-03-15)
Choline oxidase catalyzes the four-electron oxidation of choline to glycine-betaine, with betaine-aldehyde as intermediate and molecular oxygen as primary electron acceptor. The enzyme is capable of accepting betaine-aldehyde as a substrate, allowing the investigation of the reaction mechanism for both
Shengyuan Deng et al.
Biosensors & bioelectronics, 26(11), 4552-4558 (2011-06-10)
A signal amplification system for electrochemiluminescence (ECL) of quantum dots (QDs) was developed by using electrochemically reduced graphene oxide (ERGO) to construct a nanobiosensing platform. Due to the structural defects of GO, the ECL emission of QDs coated on GO
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