4.2.1.104: cyanase
This is an abbreviated version!
For detailed information about cyanase, go to the full flat file.
Word Map on EC 4.2.1.104
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4.2.1.104
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bicarbonate
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bicarbonate-dependent
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anderson
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fuchs
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pseudoalcaligenes
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molecular biology
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nitrospira
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decameric
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environmental protection
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biotechnology
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drug development
- 4.2.1.104
- bicarbonate
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bicarbonate-dependent
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anderson
-
fuchs
- pseudoalcaligenes
- molecular biology
- nitrospira
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decameric
- environmental protection
- biotechnology
- drug development
Reaction
Synonyms
107368746, AtCYN, cyanase, cyanate aminohydrolase, cyanate C-N-lyase, cyanate hydratase, cyanate hydrolase, cyanate lyase, CYN, CynS, EC 3.5.5.3, EC 4.3.99.1, Hydrolase, cyanate, Ngar_c31480, NITMOv2_1274, OsCYN, slr0899, SpCynS, Spro_1533, tetur28g02430
ECTree
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Application
Application on EC 4.2.1.104 - cyanase
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biotechnology
drug development
cyanase is potentially an attractive protein target for the development of acaricides
environmental protection
molecular biology
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analysis of strain characteristics for biotechnological application, detoxification of cyanide- or thiocyanate-containing soils and industrial effluents
biotechnology
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analysis of strain characteristics for biotechnological application, detoxification of cyanide- or thiocyanate-containing soils and industrial effluents
biotechnology
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analysis of strain characteristics for biotechnological application, detoxification of cyanide- or thiocyanate-containing soils and industrial effluents
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biotechnology
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analysis of strain characteristics for biotechnological application, detoxification of cyanide- or thiocyanate-containing soils and industrial effluents
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potential biotechnological application in environmental detoxification
environmental protection
cyanate and its derivatives are considered as environmental hazardous materials. Cyanate is released to the environment through many chemical industries and mining wastewater. Cyanase enzyme converts cyanate into CO2 and NH3 in a bicarbonate-dependent reaction. At low cyanate concentrations, the endogenous plant cyanases play a vital role in cyanate detoxification. But such cyanate biodegradation system is probably insufficient due to the excess cyanate concentrations at contaminated sites. Evaluation of transgenic plant resistance to cyanate stress. The enzyme is a candidate for developing novel ecofriendly phytoremediation systems for cyanate detoxification
environmental protection
Synechocystis sp. PCC 6803 Kazusa
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cyanate and its derivatives are considered as environmental hazardous materials. Cyanate is released to the environment through many chemical industries and mining wastewater. Cyanase enzyme converts cyanate into CO2 and NH3 in a bicarbonate-dependent reaction. At low cyanate concentrations, the endogenous plant cyanases play a vital role in cyanate detoxification. But such cyanate biodegradation system is probably insufficient due to the excess cyanate concentrations at contaminated sites. Evaluation of transgenic plant resistance to cyanate stress. The enzyme is a candidate for developing novel ecofriendly phytoremediation systems for cyanate detoxification
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analyses of conditions to metabolize exogenously supplied cyanate
molecular biology
analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the Cyn-ABDS operon, light, and on activity of the CO2-concentrating mechanism (CCM), low internal pools of HCO3- and CO2 result in an insufficient supply of bicarbonate
molecular biology
analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the CynABDS operon, light, and on activity of the CO2-concentrating mechanism (CCM), inactivation of the cynS gene leads to inability of decomposition of external cyanate
molecular biology
analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the CynABDS operon, light, and on activity of the CO2-concentrating mechanism (CCM), mutagensis of a periplasmatic binding protein of a multicomponent ABC-transporter (CynA), leads to inability of decomposition of external cyanate due to impaired cyanate uptake, cyanase function is not affected
molecular biology
analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the operon CynABDS, light and internal pools of HCO3- and CO2
molecular biology
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analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the Cyn-ABDS operon, light, and on activity of the CO2-concentrating mechanism (CCM), low internal pools of HCO3- and CO2 result in an insufficient supply of bicarbonate
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molecular biology
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analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the CynABDS operon, light, and on activity of the CO2-concentrating mechanism (CCM), inactivation of the cynS gene leads to inability of decomposition of external cyanate
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molecular biology
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analyses of conditions to metabolize exogenously supplied cyanate, depending on proteins of the CynABDS operon, light, and on activity of the CO2-concentrating mechanism (CCM), mutagensis of a periplasmatic binding protein of a multicomponent ABC-transporter (CynA), leads to inability of decomposition of external cyanate due to impaired cyanate uptake, cyanase function is not affected
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