3.6.4.B6: archaeal flagellar ATPase
This is an abbreviated version!
For detailed information about archaeal flagellar ATPase, go to the full flat file.
Word Map on EC 3.6.4.B6
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3.6.4.B6
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hexameric
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pilus
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kinesins
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secyeg
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acidocaldarius
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archaellum
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procapsids
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microtubule-binding
- 3.6.4.B6
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hexameric
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pilus
- kinesins
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secyeg
- acidocaldarius
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archaellum
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procapsids
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microtubule-binding
Reaction
Synonyms
ATPase FlaI, FkaI, flagellar accessory protein, FlaH, FlaI, motor ATPase, Saci_1173, SSO2316
ECTree
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Substrates Products
Substrates Products on EC 3.6.4.B6 - archaeal flagellar ATPase
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REACTION DIAGRAM
ATP + H2O
ADP + phosphate
essential role in archaellum assembly
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-
?
ATP + H2O
ADP + phosphate
it is proposed that the enzyme is bi-functional in driving flagella assembly and movement
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-
?
ATP + H2O
ADP + phosphate
hydrolyses ATP in a co-operative manner. Hydrolyses ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP. No conversion of ADP into AMP is detected
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-
?
ATP + H2O
ADP + phosphate
it is proposed that the enzyme is bi-functional in driving flagella assembly and movement
-
-
?
ATP + H2O
ADP + phosphate
hydrolyses ATP in a co-operative manner. Hydrolyses ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP. No conversion of ADP into AMP is detected
-
-
?
ATP + H2O
ADP + phosphate
essential role in archaellum assembly
-
-
?
CDP + phosphate
about 30% of the activity with ATP
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-
?
CTP + H2O
CDP + phosphate
about 30% of the activity with ATP
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-
?
CTP + H2O
CDP + phosphate
hydrolysed ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP
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-
?
CTP + H2O
CDP + phosphate
hydrolysed ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP
-
-
?
GDP + phosphate
about 20% of the activity with ATP
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-
?
GTP + H2O
GDP + phosphate
about 20% of the activity with ATP
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-
?
GTP + H2O
GDP + phosphate
hydrolysed ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP
-
-
?
GTP + H2O
GDP + phosphate
hydrolysed ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP
-
-
?
UDP + phosphate
about 50% of the activity with ATP
-
-
?
UTP + H2O
UDP + phosphate
about 50% of the activity with ATP
-
-
?
UTP + H2O
UDP + phosphate
hydrolysed ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP
-
-
?
UTP + H2O
UDP + phosphate
hydrolysed ATP with the highest rate, but it is also able to hydrolyse GTP, CTP and UTP
-
-
?
?
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enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
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additional information
?
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enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
-
-
-
additional information
?
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FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
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-
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additional information
?
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FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
-
-
-
additional information
?
-
enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
-
-
-
additional information
?
-
FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
-
-
-
additional information
?
-
enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
-
-
-
additional information
?
-
FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
-
-
-
additional information
?
-
enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
-
-
-
additional information
?
-
FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
-
-
-
additional information
?
-
enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
-
-
-
additional information
?
-
FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
-
-
-
additional information
?
-
enzyme FlaH interacts with the ATPase FlaI, another archaeal motility system protein. FlaI is an ATP-binding protein. In the presence of ATP, the interaction between FlaH and FlaI becomes weaker
-
-
-
additional information
?
-
FlaH binds to immobilized ATP but lacks ATPase activity. FlaH may need additional factor(s) to enable ATPase activity, or that perhaps it lacks ATPase activity but ATP acts as a cofactor, affecting FlaH function
-
-
-
additional information
?
-
FlaI is the bifunctional ATPase that is involved in assembly and rotation of the archaellum
-
-
?
additional information
?
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FlaI is the bifunctional ATPase that is involved in assembly and rotation of the archaellum
-
-
?