Literature summary for 3.5.4.38 extracted from

Adolph, M.B.; Love, R.P.; Chelico, L.
Biochemical basis of APOBEC3 deoxycytidine deaminase activity on diverse DNA substrates (2018), ACS Infect. Dis., 4, 224-238 .

Search for more literature for 3.5.4.38

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
cytosine in single-stranded DNA + H2O	Homo sapiens	the APOBEC3 enzymes are a double-edged sword that can catalyze deamination of cytosine in genomic DNA, which results in potential genomic instability due to the many mutagenic fates of uracil. The enzymes must be able to efficiently deaminate transiently available single-stranded DNA during reverse transcription, replication, or transcription. Specific biochemical characteristics promote deamination in each situation to increase enzyme efficiency through processivity, rapid enzyme cycling between substrates, or oligomerization state	uracil in single-stranded DNA + NH3	-	?
cytosine in single-stranded DNA + H2O	Homo sapiens	the APOBEC3 enzymes are a double-edged sword that can catalyze deamination of cytosine in genomic DNA, which results in potential genomic instability due to the many mutagenic fates of uracil. The enzymes must be able to efficiently deaminate transiently available single-stranded DNA during reverse transcription, replication, or transcription. Specific biochemical characteristics promote deamination in each situation to increase enzyme efficiency through processivity, rapid enzyme cycling between substrates, or oligomerization state in DNA	uracil in single-stranded DNA + NH3	-	?

Organism

Organism	UniProt	Comment	Textmining
Homo sapiens	P31941	-	-
Homo sapiens	Q6NTF7	-	-
Homo sapiens	Q8IUX4	-	-
Homo sapiens	Q96AK3	-	-
Homo sapiens	Q9HC16	-	-
Homo sapiens	Q9NRW3	-	-
Homo sapiens	Q9UH17	-	-

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
cytosine in single-stranded DNA + H2O	-	Homo sapiens	uracil in single-stranded DNA + NH3	-	?
cytosine in single-stranded DNA + H2O	the APOBEC3 enzymes are a double-edged sword that can catalyze deamination of cytosine in genomic DNA, which results in potential genomic instability due to the many mutagenic fates of uracil. The enzymes must be able to efficiently deaminate transiently available single-stranded DNA during reverse transcription, replication, or transcription. Specific biochemical characteristics promote deamination in each situation to increase enzyme efficiency through processivity, rapid enzyme cycling between substrates, or oligomerization state	Homo sapiens	uracil in single-stranded DNA + NH3	-	?
cytosine in single-stranded DNA + H2O	the APOBEC3 enzymes are a double-edged sword that can catalyze deamination of cytosine in genomic DNA, which results in potential genomic instability due to the many mutagenic fates of uracil. The enzymes must be able to efficiently deaminate transiently available single-stranded DNA during reverse transcription, replication, or transcription. Specific biochemical characteristics promote deamination in each situation to increase enzyme efficiency through processivity, rapid enzyme cycling between substrates, or oligomerization state in DNA	Homo sapiens	uracil in single-stranded DNA + NH3	-	?

Synonyms

Synonyms	Comment	Organism
APOBEC3A	-	Homo sapiens
APOBEC3B	-	Homo sapiens
APOBEC3C	-	Homo sapiens
APOBEC3D	-	Homo sapiens
APOBEC3F	-	Homo sapiens
APOBEC3G	-	Homo sapiens
APOBEC3H	-	Homo sapiens

General Information

General Information	Comment	Organism
metabolism	the APOBEC3 family has many roles, such as restricting endogenous and exogenous retrovirus replication and retrotransposon insertion events and reducing DNA-induced inflammation	Homo sapiens

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Release 2023.1 (January 2023)