1.2.1.8: betaine-aldehyde dehydrogenase
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For detailed information about betaine-aldehyde dehydrogenase, go to the full flat file.
Word Map on EC 1.2.1.8
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1.2.1.8
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badhs
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aroma
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fragrant
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2-acetyl-1-pyrroline
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osmoprotectant
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molecular biology
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basmati
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non-fragrant
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scent
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4-aminobutyraldehyde
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medicine
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3-aminopropionaldehyde
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non-aromatic
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aminoaldehyde
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jasmine
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agriculture
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biotechnology
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energy production
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food industry
- 1.2.1.8
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badhs
- aroma
-
fragrant
-
2-acetyl-1-pyrroline
-
osmoprotectant
- molecular biology
-
basmati
-
non-fragrant
-
scent
- 4-aminobutyraldehyde
- medicine
- 3-aminopropionaldehyde
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non-aromatic
- aminoaldehyde
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jasmine
- agriculture
- biotechnology
- energy production
- food industry
Reaction
Synonyms
AcBADH, ALD10, aldehyde dehydrogenase, ALDH10, ALDH10A8, ALDH10A9, AMADH, AMADH1, aminoaldehyde dehydrogenase, BADH, BADH1, BADH2, badh2-E2, badh2-E7, betaine aldehyde dehydrogenase, betaine aldehyde dehydrogenase 1, betaine aldehyde dehydrogenase 1, chloroplastic, betaine aldehyde dehydrogenase 2, betaine aldehyde dehydrogenase, chloroplastic, betaine aldehyde oxidase, betaine aldehyde: NAD(P)+ oxidoreductase, betaine aldehyde: NAD+ oxidoreductase, betaine aldehyde:NAD(P)+ oxidoreductase, betaine aldehyde:NAD+ oxidoreductase, betaine-aldehyde dehydrogenase, BetB, dehydrogenase, betaine aldehyde, JcBD1, LcBADH, More, OsALDH10-1, OsALDH10-2, OsBADH1, OsBADH2, PaBADH, PaBADH2, pkBADH, PND BADH2, SACOL2628, YdcW, ZBD1, Zoysia betaine aldehyde dehydrogenase 1
ECTree
1.2.1.8 betaine-aldehyde dehydrogenaseAdvanced search results
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Application on EC 1.2.1.8 - betaine-aldehyde dehydrogenase
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APPLICATION 
ORGANISM
UNIPROT
COMMENTARY 
LITERATURE
agriculture
biotechnology
energy production
the seed of the plant is the raw material for biodiesels
food industry
the BADH2 could play a role in the improvement of rice fragrance, which could lead to an enhancement in rice quality and market price
medicine
molecular biology
additional information
agriculture
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gene expression under the control of inducible promoters is preferred in any strategy to produce transgenic plants with transgene-mediated improvements in resistance to salt.
agriculture
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potential application, genetic engineering results in enhanced tolerance of growth of young seedlings to salt stress. Results of investigation shows that transformation with the BADH gene may benefit efforts to improve crop yields in saline, arid and semi-arid regions where plants suffer salt stress
agriculture
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potential: the BADH gene can be cloned from Leymus chinensis under stress treatment, which indicates that its expression and regulation may play an important role in stress tolerance. Therefore, it can be transformed into other plants to obtain transgenic species with a high saline-alkali tolerance by biotechnology; as a result, it can speed up the recovering and rebuilding of saline-alkaline grassland
biotechnology
BADH overexpression in maize is beneficial for drought tolerance and the three transgenic maize lines can be used for further breeding experiments. The agronomic traits of transgenic maize are not affected by the overexpression of BADH
biotechnology
overexpression of AMADHs with high BADH activities is an important strategy to genetically engineer Solanaceae crop plants, such as tomato and tobacco, to produe glycine betaine
medicine
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betaine aldehyde dehydrogenase is a potential target for antimicrobial agents against Pseudomonas aeruginosa
medicine
Pseudomonas aeruginosa is an important pathogen, glycine betaine could play an important physiological role under the conditions present in the infection sites
molecular biology
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BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
Q53CF4
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
-
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
-
BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
molecular biology
Vallaris sp.
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BADH application as a marker for chloroplast engineering without using antibiotic can avoid transferring antibiotic genes from the plant and thus assists to allay public concern regarding genetic modifications
additional information
BADH isolated from spinach is successfully utilised for selection of chloroplast transformation of tobacco in order to prevent the risk of transferring antibiotic resistance genes to gut microbes or the environment
additional information
nitric oxide and light co-regulate glycine betaine homeostasis in sunflower seedling cotyledons by modulating betaine aldehyde dehydrogenase transcript levels and activity
