1.8.99.2: adenylyl-sulfate reductase
This is an abbreviated version!
For detailed information about adenylyl-sulfate reductase, go to the full flat file.
Word Map on EC 1.8.99.2
-
1.8.99.2
-
resection
-
abdominoperineal
-
rectal
-
postoperative
-
women
-
anal
-
perineal
-
pelvic
-
preoperative
-
acute-phase
-
5-year
-
curative
-
laparoscopic
-
rust
-
demographic
-
radiotherapy
-
oncological
-
admission
-
c-reactive
-
population-based
-
neoadjuvant
-
anorectal
-
puccinia
-
sphincter
-
intraoperative
-
colostomy
-
tritici
-
verge
-
chemoradiation
-
chemoradiotherapy
-
ontario
-
circumferential
-
haptoglobin
-
flap
-
poisson
-
incontinence
-
abdominis
-
zoledronic
-
stoma
-
mesorectal
-
dehiscence
-
anastomosis
-
exenteration
-
synthesis
-
analysis
-
ileostomy
-
levator
-
agriculture
-
environmental protection
-
actuarial
-
log-binomial
-
orthoped
-
race-specific
-
psycinfo
- 1.8.99.2
-
resection
-
abdominoperineal
- rectal
-
postoperative
- women
-
anal
-
perineal
-
pelvic
-
preoperative
-
acute-phase
-
5-year
-
curative
-
laparoscopic
- rust
-
demographic
-
radiotherapy
-
oncological
-
admission
-
c-reactive
-
population-based
-
neoadjuvant
-
anorectal
- puccinia
-
sphincter
-
intraoperative
-
colostomy
- tritici
-
verge
-
chemoradiation
-
chemoradiotherapy
-
ontario
-
circumferential
- haptoglobin
- flap
-
poisson
- incontinence
-
abdominis
-
zoledronic
-
stoma
-
mesorectal
-
dehiscence
-
anastomosis
-
exenteration
- synthesis
- analysis
-
ileostomy
-
levator
- agriculture
- environmental protection
-
actuarial
-
log-binomial
-
orthoped
-
race-specific
-
psycinfo
Reaction
Synonyms
5'-adenylyl sulfate reductase, 5'-adenylylsulfate reductase, 5-adenylylsulfate reductase, AcAPR1, adenosine 5'-phosphosulfate reductase, adenosine phosphosulfate reductase, adenosine-5'-phosphosulfate reductase, adenylyl sulfate reductase, adenylylsulfate reductase, adenylylsulphate reductase, AdoPSO4 reductase, AMP,sulfite:flavin oxidoreductase, APR, APR1, APR2, APR3, AprA, AprB, AprBA, APS reductase, APS-reductase, APSR, AR, ATAPR2, Dde_1110, dissimilatory APS reductase, EAPR, EiAPR, FAD, FeS-enzyme adenosine-5'-phosphosulfate reductase, LMAPR, reductase, adenylylsulfate
ECTree
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Substrates Products
Substrates Products on EC 1.8.99.2 - adenylyl-sulfate reductase
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REACTION DIAGRAM
5'-adenylylsulfate + dithioerythritol
adenosine 5'-monophosphate + sulfite + oxidized dithioerythritol
-
-
-
-
?
5'-adenylylsulfate + dithiothreitol
adenosine 5'-monophosphate + sulfite + oxidized dithiothreitol
adenylyl sulfate + dithioerythritol
AMP + sulfite + oxidized dithioerythritol
-
-
-
-
?
adenylyl sulfate + reduced glutaredoxin 1
AMP + sulfite + oxidized glutaredoxin 1
-
can use 3'-phosphoadenylyl sulfate as sulfate donor
-
-
?
AMP + sulfite + [Fe(CN)6]3-
adenylyl sulfate + [Fe(CN)6]4-
F6KEW4; F6KEW3
-
-
-
?
CMP + sulfite + cytochrome c
cytidylyl sulfate + ?
-
7% of the activity with AMP
-
-
?
dAMP + sulfite + cytochrome c
deoxyadenylyl sulfate + ?
-
80% of the activity with AMP
-
-
?
guanylyl sulfate + reduced methyl viologen
GMP + methyl viologen + sulfite
-
-
-
-
?
UMP + sulfite + cytochrome c
uridylyl sulfate + ?
-
9% of the activity with AMP
-
-
?
adenosine 5'-monophosphate + sulfite + oxidized dithiothreitol
-
-
-
-
?
5'-adenylylsulfate + dithiothreitol
adenosine 5'-monophosphate + sulfite + oxidized dithiothreitol
-
-
-
ir
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
the enzyme catalyzes the first committed step in bacterial sulfate reduction
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
conserved and semiconserved residues participate in four main-chain hydrogen bonds with adenine and the ribose O2'-hydroxyl, interaction between the phosphosulfate and APSR occurs via strictly conserved residues K144, R242, and R245, the phosphosulfate is also positioned opposite an [4Fe-4S] cofactor and Cys140. However, the substrate is not in direct contact with the [4Fe-4S] cluster, overview
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
-
-
-
?
adenylyl sulfate + cofactor sulfide
AMP + sulfite + cofactor disulfide
APS reductase is a key enzyme of the dissimilatory sulfate-reduction pathway
-
-
?
AMP + sulfite + ferricytochrome
-
-
-
-
?
adenylyl sulfate + ferrocytochrome c3
AMP + sulfite + ferricytochrome
-
-
-
-
?
AMP + sulfite + acceptor
-
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
constitutive enzyme participates in oxidation of sulfite via the adenylyl sulfate pathway, that yields ATP through substrate-level phosphorylation
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
the enzyme is preferably required during the most rapid phase of growth
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
the enzyme is preferably required during the most rapid phase of growth
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
-
-
r
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key step in sulfur cycle
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key enzyme of the dissimilatory sulfate respiration
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
Burkholderia cepacia DBO1 / ATCC 29424
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
Chromatium sp.
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
Desulforamulus ruminis
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key step in sulfur cycle
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
B8PS61; B8DS74
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key step in sulfur cycle
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in vectorial electron transport of cells grown on hydrogen plus sulfate as the sole energy source
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
the enzyme catalyzes the first reductive step in the microbial sulfate reduction pathway
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key step in sulfur cycle
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
Desulfovibrio vulgaris Marburg / DSM 2119
-
enzyme is involved in vectorial electron transport of cells grown on hydrogen plus sulfate as the sole energy source
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
the enzyme catalyzes the first reductive step in the microbial sulfate reduction pathway
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
B8PS61; B8DS74
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key enzyme of assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
Megalodesulfovibrio gigas
-
-
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
Megalodesulfovibrio gigas
-
enzyme is involved in dissimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
assimilatory sulfate reduction
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
key step in sulfur cycle
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
adenylyl sulfate + reduced acceptor
AMP + sulfite + acceptor
-
enzyme reduces adenylyl sulfate that is formed during dissimilatory reduction of sulfate
-
-
?
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
Chromatium sp.
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
Megalodesulfovibrio gigas
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
adenylyl sulfate + reduced methyl viologen
AMP + sulfite + methyl viologen
-
-
-
-
?
AMP + sulfite + oxidized riboflavin
-
-
-
-
r
adenylyl sulfate + reduced riboflavin
AMP + sulfite + oxidized riboflavin
-
-
-
-
r
AMP + sulfite + oxidized thioredoxin
-
-
-
-
?
adenylyl sulfate + reduced thioredoxin
AMP + sulfite + oxidized thioredoxin
-
-
-
-
?
AMP + sulfite + oxidized thioredoxin 1
-
can use 3'-phosphoadenylyl sulfate as sulfate donor
-
-
?
adenylyl sulfate + reduced thioredoxin 1
AMP + sulfite + oxidized thioredoxin 1
-
-
-
-
?
? + ferrocyanide
-
50% of the activity with AMP
-
-
?
adenylyl sulfate + reduced acceptor
-
-
-
r
AMP + sulfite + acceptor
adenylyl sulfate + reduced acceptor
-
-
-
?
adenylyl sulfate + ?
-
no activity with cytochrome c
-
-
?
AMP + sulfite + cytochrome c
adenylyl sulfate + ?
-
reaction with horse heart cytochrome c, no activity with cytochrome c from Candida krusei
-
-
?
AMP + sulfite + cytochrome c
adenylyl sulfate + ?
-
-
-
-
?
AMP + sulfite + cytochrome c
adenylyl sulfate + ?
-
-
-
-
?
AMP + sulfite + ferricyanide
5'-adenylyl sulfate + ?
-
-
-
-
?
AMP + sulfite + ferricyanide
5'-adenylyl sulfate + ?
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
Megalodesulfovibrio gigas
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
AMP + sulfite + ferricyanide
adenylyl sulfate + ferrocyanide
-
-
-
-
?
? + ferrocyanide
archaebacterium
-
24% of the activity with AMP
-
-
?
ATP + sulfite + ferricyanide
? + ferrocyanide
archaebacterium VC-16
-
24% of the activity with AMP
-
-
?
ATP + sulfite + ferricyanide
? + ferrocyanide
-
24% of the activity with AMP
-
-
?
ATP + sulfite + ferricyanide
? + ferrocyanide
-
12.8% of the activity with AMP
-
-
?
cytidylyl sulfate + ferrocyanide
archaebacterium
-
24% of the activity with AMP
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
archaebacterium VC-16
-
24% of the activity with AMP
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
-
7.6% of the activity with AMP
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
-
-
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
Megalodesulfovibrio gigas
-
41% of the activity with AMP
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
-
no activity with CMP
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
-
-
-
-
?
CMP + sulfite + ferricyanide
cytidylyl sulfate + ferrocyanide
-
8% of the activity with AMP
-
-
?
deoxyadenylyl sulfate + ferrocyanide
archaebacterium
-
74% of the activity with AMP
-
-
?
deoxyAMP + sulfite + ferricyanide
deoxyadenylyl sulfate + ferrocyanide
archaebacterium VC-16
-
74% of the activity with AMP
-
-
?
deoxyAMP + sulfite + ferricyanide
deoxyadenylyl sulfate + ferrocyanide
-
74% of the activity with AMP
-
-
?
deoxyAMP + sulfite + ferricyanide
deoxyadenylyl sulfate + ferrocyanide
-
82.7% of the activity with AMP
-
-
?
deoxyAMP + sulfite + ferricyanide
deoxyadenylyl sulfate + ferrocyanide
-
-
-
-
?
deoxyAMP + sulfite + ferricyanide
deoxyadenylyl sulfate + ferrocyanide
-
128% of maximal activity
-
-
?
GMP + sulfite + cytochrome c
guanylyl sulfate + ?
-
9% of the activity with AMP
-
-
?
guanylyl sulfate + ferrocyanide
-
94% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
94% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
archaebacterium
-
68% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
archaebacterium VC-16
-
68% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
68% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
29.4% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
-
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
Megalodesulfovibrio gigas
-
GMP is as active as AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
54% of the activity with AMP
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
-
-
-
?
GMP + sulfite + ferricyanide
guanylyl sulfate + ferrocyanide
-
51% of the activity with AMP
-
-
?
? + ferrocyanide
archaebacterium
-
41% of the activity with AMP
-
-
?
IMP + sulfite + ferricyanide
? + ferrocyanide
-
74% of the activity with AMP
-
-
?
IMP + sulfite + ferricyanide
? + ferrocyanide
-
90% of the activity with AMP
-
-
?
uridylyl sulfate + ferrocyanide
-
33% of the activity with AMP
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
-
33% of the activity with AMP
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
-
7.6% of the activity with AMP
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
-
-
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
Megalodesulfovibrio gigas
-
36% of the activity with AMP
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
-
no activity with UMP
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
-
-
-
-
?
UMP + sulfite + ferricyanide
uridylyl sulfate + ferrocyanide
-
8% of the activity with AMP
-
-
?
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
Desulforamulus reducens
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
Desulforamulus reducens MI-1
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
adenosine 5'-phosphosulfate sulfotransferase and adenosine 5'-phosphosulfate reductase are identical enzymes
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?
additional information
?
-
full-length AprBA sequences from 20 phylogenetically distinct sulfate-reducing prokaryotes and sulfuroxidizing bacteria species are used for homology modeling. Based on the comparative models, there are no significant structural differences between dissimilatory APS reductases from sulfate-reducing prokaryotes and sulfur-oxidizing bacteria. This might be indicative for a similar catalytic process of APS reduction/sulfite oxidation
-
-
?