3.5.2.15: cyanuric acid amidohydrolase
This is an abbreviated version!
For detailed information about cyanuric acid amidohydrolase, go to the full flat file.
Word Map on EC 3.5.2.15
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3.5.2.15
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biuret
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agriculture
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barbituric
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thermoacetica
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moorella
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ring-opening
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swimming
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hydrolases
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disinfect
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adp
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herbicide
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melamine
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environmental protection
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ammeline
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atrazine
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rhodococcus
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ser-lys
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dyad
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chlorine
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acidovorax
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citrulli
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aminohydrolase
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acid-degrading
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allophanate
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tight-binding
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enterobacter
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caulinodans
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hypochlorite
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prebiotic
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azorhizobium
- 3.5.2.15
- biuret
- agriculture
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barbituric
- thermoacetica
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moorella
-
ring-opening
-
swimming
- hydrolases
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disinfect
- adp
-
herbicide
- melamine
- environmental protection
- ammeline
- atrazine
-
rhodococcus
- ser-lys
-
dyad
-
chlorine
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acidovorax
- citrulli
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aminohydrolase
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acid-degrading
- allophanate
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tight-binding
- enterobacter
- caulinodans
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hypochlorite
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prebiotic
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azorhizobium
Reaction
Synonyms
amidase, cyanurate, AtzD, CAH, cyanurate amidase, cyanuric acid hydrolase, s-triazine ring-cleavage enzyme, TrzD, trzD gene product
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Application
Application on EC 3.5.2.15 - cyanuric acid amidohydrolase
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agriculture
environmental protection
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one step in complete mineralization of s-triazines in herbicide-contaminated soils and wastewater
agriculture
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cleavage of the s-triazine ring is an important step in the mineralization of s-triazine compounds, extensive used as herbicides or pesticides in agriculture worldwide, and hence in their complete removal from environment
agriculture
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cleavage of the s-triazine ring is an important step in the mineralization of s-triazine compounds, extensive used as herbicides or pesticides in agriculture worldwide, and hence in their complete removal from environment
agriculture
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cleavage of the s-triazine ring is an important step in the mineralization of s-triazine compounds, extensive used as herbicides or pesticides in agriculture worldwide, and hence in their complete removal from environment
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agriculture
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cleavage of the s-triazine ring is an important step in the mineralization of s-triazine compounds, extensive used as herbicides or pesticides in agriculture worldwide, and hence in their complete removal from environment
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agriculture
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cleavage of the s-triazine ring is an important step in the mineralization of s-triazine compounds, extensive used as herbicides or pesticides in agriculture worldwide, and hence in their complete removal from environment
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cyanuric acid hydrolases are of industrial importance because of their use in aquatic recreational facilities to remove cyanuric acid, a stabilizer for the chlorine. Degradation of excess cyanuric acid is necessary to maintain chlorine disinfection in the waters
environmental protection
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di- and trichloroisocyanuric acids are widely used as water disinfection agents, but cyanuric acid accumulates with repeated additions and must be removed to maintain free hypochlorite for disinfection. The study describes the development of methods for using a cyanuric acid-degrading enzyme contained within nonliving cells that are encapsulated within a porous silica matrix
environmental protection
di- and trichloroisocyanuric acids are widely used as water disinfection agents, but cyanuric acid accumulates with repeated additions and must be removed to maintain free hypochlorite for disinfection. The study describes the development of methods for using a cyanuric acid-degrading enzyme contained within nonliving cells that are encapsulated within a porous silica matrix
environmental protection
di- and trichloroisocyanuric acids are widely used as water disinfection agents, but cyanuric acid accumulates with repeated additions and must be removed to maintain free hypochlorite for disinfection. The study describes the development of methods for using a cyanuric acid-degrading enzyme contained within nonliving cells that are encapsulated within a porous silica matrix. The optimum enzyme for these purposes was found to be the cyanuric acid hydrolase from Moorella thermoacetica. A water-recycling, flowthrough system is constructed and shown to be effective in removing 10 mM M cyanuric acid, a concentration well above that encountered in real-world disinfection processes
environmental protection
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di- and trichloroisocyanuric acids are widely used as water disinfection agents, but cyanuric acid accumulates with repeated additions and must be removed to maintain free hypochlorite for disinfection. The study describes the development of methods for using a cyanuric acid-degrading enzyme contained within nonliving cells that are encapsulated within a porous silica matrix
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