Evidence_27954 |
TIGR02051 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Evidence_27952 |
PF03203 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Evidence_27956 |
TIGR02053 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Evidence_27953 |
PF02411 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15595 |
mercury transporter, MerC |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15598 |
mercury responsive transcriptional activator |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Evidence_27951 |
PF03243 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Evidence_27955 |
TIGR02052 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Evidence_27957 |
TIGR02054 HMM |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15597 |
periplasmic mercury binding protein, MerP |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15594 |
organomercurial lyase |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15596 |
mercury transporter, MerT |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15599 |
transcriptional co-regulator, MerD |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
Component_15593 |
mercuric reductase |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|
GenProp0151 |
resistance to mercury~Detoxification of inorganic and organic mercury compounds involves the enzymatic reduction of extracellular mercuric ions or organomercurials into less-toxic metallic mercury, where it is released into the cytoplasm and volatiles from the cell. Mercuric ions diffuse across the outer membrane by a mer transport system, which binds and transfers mercury ions via a pair of cysteine residues to the active site of a mercuric reductase. Alternatively, an organomercurial lyase is required for hydrolysis of the carbon-mercury bond of organomercurial compounds before reduction proceeds. Transcribed separately and divergently, a mercury-sensitive transcriptional activator both positively and negatively regulates mer expression, while a co-transcribed secondary regulatory protein down-regulates this mer operon. This resistance system, often encoded on plasmids and transferred via transposons, is found in both gram-positive and gram-negative bacteria [1]. |
None - {{∅}} |
False - {{f}} |
Unconfirmed absence |
|