EC 1.2.1.5
ALDEHYDE DEHYDROGENASE
CAS: 9028-86-8
Molecular Formula:
EC 1.2.1.5 - Names and Identifiers
| Name | ALDEHYDE DEHYDROGENASE |
| Synonyms | ALDH EC 1.2.1.5 ALDEHYDE DEHYDROGENASE Dehydrogenase, aldehyde ALDEHYDE NAD(P)+ OXIDOREDUCTASE ALDEHYDE DEHYDROGENASE, FROM YEAST Aldehyde dehydrogenase from Baker's yeast |
| CAS | 9028-86-8 |
| EINECS | 232-845-8 |
EC 1.2.1.5 - Physico-chemical Properties
| Appearance | lyophilized powder |
| Color | white |
| Storage Condition | 2-8°C |
EC 1.2.1.5 - Risk and Safety
| Safety Description | S22 - Do not breathe dust. S24/25 - Avoid contact with skin and eyes. |
| WGK Germany | 3 |
| FLUKA BRAND F CODES | 3-10 |
EC 1.2.1.5 - Introduction
ALDEHYDE DEHYDROGENASE(aldehyde dehydrogenase) is a kind of enzyme that widely exists in organisms. It can catalyze the oxidation of aldehydes to acids. ALDEHYDE DEHYDROGENASE plays an important role in cellular metabolism and physiological processes.
aldehydrogenase has some of the following properties:
1. A wide range of substrates: aldehydrogenase can catalyze a variety of aldehydes with different structures, including aldose sugar, ALDEHYDE acid, ALDEHYDE Amine, etc.
2. Reaction selectivity: aldehydrogenase can selectively oxidize aldehydes to corresponding acids without affecting other compounds.
3. Efficient catalysis: The catalysis speed of aldehydrogenase is fast, and the reaction can be completed in a short time.
4. Specificity: aldehydrogenase has high affinity and catalytic efficiency for specific substrates.
aldehydrogenase has a wide range of applications in many fields:
1. Medical field: aldehydrogenase is a key enzyme in acetaldehyde metabolism, which is related to alcohol abuse and acetaldehyde metabolism defect diseases. In addition, aldehydrogenase is also associated with the occurrence and progression of some cancers, so the study of aldehydrogenase is of great significance for the development of anti-cancer drugs.
2. Biochemical synthesis: aldehydrogenase can be used for the production of industrial compounds such as ALDEHYDE and aldose, for the synthesis of polymers, pharmaceuticals and fine chemical products.
3. Biosensing: By using the catalytic activity of aldehydrogenase, biosensors for the detection of aldehydes can be developed for environmental monitoring, food safety, biomedicine and other fields.
The preparation of aldehydrogenase generally includes the following steps:
1. Isolation of aldehydrogenase from a suitable organism.
2. Purify the isolated aldehydrogenase to remove impurities.
3. The activity of purified aldehydrogenase was detected to ensure its catalytic ability.
Note the following safety information when using ALDEHYDE DEHYDROGENASE:
1. When using aldehydrogenase in the laboratory, the corresponding laboratory safety operation procedures should be observed.
2. ALDEHYDE DEHYDROGENASE has a certain sensitivity and should avoid exposure to extreme temperature and acid-base conditions.
3. Aldehydrogenase is relatively stable, but it should be avoided by oxidation and pollution during preservation.
4. When in contact with aldehydrogenase, avoid inhalation, swallowing or contact with skin and eyes to prevent discomfort or even danger. Wear appropriate personal protective equipment, such as lab gloves and protective glasses.
aldehydrogenase has some of the following properties:
1. A wide range of substrates: aldehydrogenase can catalyze a variety of aldehydes with different structures, including aldose sugar, ALDEHYDE acid, ALDEHYDE Amine, etc.
2. Reaction selectivity: aldehydrogenase can selectively oxidize aldehydes to corresponding acids without affecting other compounds.
3. Efficient catalysis: The catalysis speed of aldehydrogenase is fast, and the reaction can be completed in a short time.
4. Specificity: aldehydrogenase has high affinity and catalytic efficiency for specific substrates.
aldehydrogenase has a wide range of applications in many fields:
1. Medical field: aldehydrogenase is a key enzyme in acetaldehyde metabolism, which is related to alcohol abuse and acetaldehyde metabolism defect diseases. In addition, aldehydrogenase is also associated with the occurrence and progression of some cancers, so the study of aldehydrogenase is of great significance for the development of anti-cancer drugs.
2. Biochemical synthesis: aldehydrogenase can be used for the production of industrial compounds such as ALDEHYDE and aldose, for the synthesis of polymers, pharmaceuticals and fine chemical products.
3. Biosensing: By using the catalytic activity of aldehydrogenase, biosensors for the detection of aldehydes can be developed for environmental monitoring, food safety, biomedicine and other fields.
The preparation of aldehydrogenase generally includes the following steps:
1. Isolation of aldehydrogenase from a suitable organism.
2. Purify the isolated aldehydrogenase to remove impurities.
3. The activity of purified aldehydrogenase was detected to ensure its catalytic ability.
Note the following safety information when using ALDEHYDE DEHYDROGENASE:
1. When using aldehydrogenase in the laboratory, the corresponding laboratory safety operation procedures should be observed.
2. ALDEHYDE DEHYDROGENASE has a certain sensitivity and should avoid exposure to extreme temperature and acid-base conditions.
3. Aldehydrogenase is relatively stable, but it should be avoided by oxidation and pollution during preservation.
4. When in contact with aldehydrogenase, avoid inhalation, swallowing or contact with skin and eyes to prevent discomfort or even danger. Wear appropriate personal protective equipment, such as lab gloves and protective glasses.
Last Update:2024-04-09 19:04:58
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Spot supply
Product Name: Aldehyde dehydrogenase Visit Supplier Webpage Request for quotationCAS: 9028-86-8
Tel: 0714-3999186
Email: 2853786052@qq.com
Mobile: 86+15671228036
QQ: 2853786052
Wechat: 15671228036
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