3.4.21.B30: UmuD protein
This is an abbreviated version!
For detailed information about UmuD protein, go to the full flat file.
Word Map on EC 3.4.21.B30
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3.4.21.B30
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reca
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translesion
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mucab
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polymerases
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damage-induced
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uv-induced
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reca-mediated
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mutable
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mutability
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umud\'c
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transversions
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error-free
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sos-induced
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abasic
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sos-regulated
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self-cleavage
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replication-blocking
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n-2-acetylaminofluorene
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reca430
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sos-independent
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y-family
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at->ta
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lexadef
- 3.4.21.B30
- reca
-
translesion
-
mucab
- polymerases
-
damage-induced
-
uv-induced
-
reca-mediated
-
mutable
-
mutability
-
umud\'c
-
transversions
-
error-free
-
sos-induced
-
abasic
-
sos-regulated
-
self-cleavage
-
replication-blocking
-
n-2-acetylaminofluorene
-
reca430
-
sos-independent
-
y-family
-
at->ta
-
lexadef
Reaction
involved in UV protection and mutation. Essential for induced (or SOS) mutagenesis. May modify the DNA replication machinery to allow bypass synthesis across a damaged template =
Synonyms
DNA damage response protein, error-prone polymerase accessory, ImpA, MucA, polymerase manager protein UmuD, RulA, S24.003, SamA, UmuD, UmuD', UmuD2, UmuDAb, UmuDC, umuDpR, UmuDpR protein, UmuD’2
ECTree
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Activating Compound
Activating Compound on EC 3.4.21.B30 - UmuD protein
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DNA polymerase III
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UmuD interacts with the beta subunit of DNA polymerase III
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RecA
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MucA undergoes RecA-mediated cleavage and autocatalysis at alkaline pH
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RecA
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UmuD undergoes RecA-mediated cleavage and autocatalysis at alkaline pH, the larger product UmuD' is active and required for damge-induced mutagenesis
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RecA
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required for activity, RecA facilitates the intermolecular selfcleavage of UmuD2 homodimer
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