Literature summary for 3.1.1.74 extracted from

Danso, D.; Schmeisser, C.; Chow, J.; Zimmermann, W.; Wei, R.; Leggewie, C.; Li, X.; Hazen, T.; Streit, W.R.
New insights into the function and global distribution of polyethylene terephthalate (PET)-degrading bacteria and enzymes in marine and terrestrial metagenomes (2018), Appl. Environ. Microbiol., 84, e02773-17 .

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Organism

Organism	UniProt	Comment	Textmining
Saccharomonospora viridis	W0TJ64	-	-
Thermobifida alba	E9LVH7	-	-
Thermobifida cellulosilytica	E9LVH9	-	-
Thermobifida fusca	E5BBQ3	-	-
Thermobifida fusca	E9LVI0	-	-

Synonyms

Synonyms	Comment	Organism
cut-2.KW3	-	Thermobifida fusca
Cut1	-	Thermobifida alba
Cut1	-	Thermobifida fusca
Cut190	-	Saccharomonospora viridis
Cut2	-	Thermobifida cellulosilytica
cutinase 1	-	Thermobifida fusca
PET hydrolase	-	Saccharomonospora viridis

General Information

General Information	Comment	Organism
additional information	a search algorithm that allows the in silico identification of PET hydrolase gene candidates from genomes and metagenomes is developed. 504 novel possible enzyme candidates in the UniProtKB and nonredundant RefSeq databases and the metagenomic database available in the NCBI database are identified	Thermobifida alba
additional information	a search algorithm that allows the in silico identification of PET hydrolase gene candidates from genomes and metagenomes is developed. 504 novel possible enzyme candidates in the UniProtKB and nonredundant RefSeq databases and the metagenomic database available in the NCBI database are identified	Thermobifida cellulosilytica
additional information	a search algorithm that allows the in silico identification of PET hydrolase gene candidates from genomes and metagenomes is developed. 504 novel possible enzyme candidates in the UniProtKB and nonredundant RefSeq databases and the metagenomic database available in the NCBI database are identified	Thermobifida fusca
additional information	a search algorithm that allows the in silico identification of PET hydrolase gene candidates from genomes and metagenomes is developed. 504 novel possible enzyme candidates in the UniProtKB and nonredundant RefSeq databases and the metagenomic database available in the NCBI database are identified	Saccharomonospora viridis

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Release 2023.1 (January 2023)