1.16.1.1: mercury(II) reductase
This is an abbreviated version!
For detailed information about mercury(II) reductase, go to the full flat file.
Word Map on EC 1.16.1.1
-
1.16.1.1
-
organomercurial
-
mercury-resistant
-
hgcl2
-
methylmercury
-
lipoamide
-
phytoremediation
-
mercury-contaminated
-
ferrooxidans
-
hg-resistant
-
geothermal
-
metal-resistant
-
phenylmercury
-
mercury-polluted
-
environmental protection
- 1.16.1.1
-
organomercurial
-
mercury-resistant
- hgcl2
- methylmercury
- lipoamide
-
phytoremediation
-
mercury-contaminated
- ferrooxidans
-
hg-resistant
-
geothermal
-
metal-resistant
- phenylmercury
-
mercury-polluted
- environmental protection
Reaction
Synonyms
bacterial mercuric reductase, Mer A, MerA, MerA protein, mercurate(II) reductase, mercuric (II) reductase, mercuric ion reductase, mercuric reductase, mercury reductase, Msed_1241, MseMerA, reduced NADP:mercuric ion oxidoreductase, reductase, mercurate(II), Rm CH34, Tn501 MerA, Tn501 mercuric ion reductase
ECTree
Advanced search results
Source Tissue
Source Tissue on EC 1.16.1.1 - mercury(II) reductase
Please wait a moment until all data is loaded. This message will disappear when all data is loaded.
additional information
strain R1-1 is resistant to concentration of over 0.01 mM Hg2+, transforms Hg(II) to Hg(0) during cellular growth, and possesses Hg-dependent NAD(P)H oxidation activities in crude cell extracts that are optimal at temperatures corresponding with the strains' optimal growth temperature of 70°C
additional information
strain AAS1 is resistant to concentration over 0.01 mM Hg2+, transforms Hg(II) to Hg(0) during cellular growth, and possesses Hg-dependent NAD(P)H oxidation activities in crude cell extracts that are optimal at temperatures corresponding with the strains' optimal growth temperature of 55°C
additional information
growth of strain G1 at sublethal concentrations of metal salts, Cd2+, Zn2+, Co2+, and K2Cr2O7-, in presence of absence of Hg2+, overview
additional information
-
growth of strain G1 at sublethal concentrations of metal salts, Cd2+, Zn2+, Co2+, and K2Cr2O7-, in presence of absence of Hg2+, overview
additional information
-
growth of strain G1 at sublethal concentrations of metal salts, Cd2+, Zn2+, Co2+, and K2Cr2O7-, in presence of absence of Hg2+, overview
-
additional information
Metallosphaera sedula is isolated from Pisciarelli Solfatara in Naples, Italy. Pisciarelli Solfatara contains a variety of thermal features that range in temperature from about 30°C to nearly 100°C, and a pH range of pH 1.5 to around pH 6.0 with elevated concentrations of heavy metals, including Hg2+ at concentrations up to 0.005g/kg
additional information
-
Metallosphaera sedula is isolated from Pisciarelli Solfatara in Naples, Italy. Pisciarelli Solfatara contains a variety of thermal features that range in temperature from about 30°C to nearly 100°C, and a pH range of pH 1.5 to around pH 6.0 with elevated concentrations of heavy metals, including Hg2+ at concentrations up to 0.005g/kg
additional information
Metallosphaera sedula ATCC 51363 / DSM 5348 / JCM 9185 / NBRC 15509 / TH2
-
Metallosphaera sedula is isolated from Pisciarelli Solfatara in Naples, Italy. Pisciarelli Solfatara contains a variety of thermal features that range in temperature from about 30°C to nearly 100°C, and a pH range of pH 1.5 to around pH 6.0 with elevated concentrations of heavy metals, including Hg2+ at concentrations up to 0.005g/kg
-
additional information
-
the low virulence strain is part of the biofilm. Optimal pH for the growth and enzyme activity of strain SP1 in presence of HgCl2 is pH 8.0-9.0, whereas optimal pH for expression of merA is pH 5.0
additional information
-
the low virulence strain is part of the biofilm. Optimal pH for the growth and enzyme activity of strain SP1 in presence of HgCl2 is pH 8.0-9.0, whereas optimal pH for expression of merA is pH 5.0
-
additional information
the organism is grown in the lower convective layer of the brine pool at Atlantis II Deep in the Red Sea, with a maximum depth of over 2000 m, the pool is characterized by acidic pH 5.3, high temperature 68°C, , salinity of 26%, low light levels, anoxia, and high concentrations of heavy metals