Leibniz Institute DSMZ
DSMZ Digital Diversity
Login
Classic view
All enzymes
Enzyme history
BRENDA support
Any feedback?
Please rate this page
(search_result.php)
😁
😐
😡
(
0
/150)
Send feedback
BRENDA support
Refine search
Search Natural Substrates/ Products (Substrates)
Natural Substrates/ Products (Substrates):
show
10
50
100
results
Don't show organism specific information (fast!)
Search organism in taxonomic tree (slow, choose "exact" as search mode, e.g. "mammalia" for rat,human,monkey,...)
(Not possible to combine with the first option)
Refine your search
Recommended Name:
EC Number:
contains
exact
begins with
ends with
use * as joker
Organism
:
contains
exact
begins with
ends with
use * as joker
Commentary (Nat. Sub.):
contains
exact
begins with
ends with
use * as joker
Natural Products:
contains
exact
begins with
ends with
use * as joker
Commentary (Nat. Pro.):
contains
exact
begins with
ends with
use * as joker
Reversibility:
contains
exact
begins with
ends with
use * as joker
Search for synonyms (with exact matching search term)
Search term:
Results
1
-
5
of
5
download as CSV
download all results as CSV
EC Number
Natural Substrates
Commentary (Nat. Sub.)
1.14.18.3
methane + duroquinol + O2
-
1.14.18.3
methane + quinol + O2
-
1.14.18.3
methane + quinol + O2
Methylococcus capsulatus (Bath) is a methanotroph that possesses both a membrane-embedded (pMMO) and a soluble methane monooxygenase (sMMO). Major changes takes place in the respiratory chain between pMMO- and sMMO-producing cells. Quinones are predominantly used as the electron donors for methane oxidation by pMMO. During production of particulate methane monooxygenase, the majority of quinones are directed to methane oxidation
1.14.18.3
methane + reduced acceptor + H* + O2
-
1.14.18.3
more
unlike the sMMO, the pMMO enzyme has relatively narrow substrate specificity, oxidising alkanes and alkenes of up to five carbons but not aromatic compounds
Results
1
-
5
of
5
download as CSV
download all results as CSV