Literature summary for 1.1.1.133 extracted from

Law, A.; Stergioulis, A.; Halavaty, A.S.; Minasov, G.; Anderson, W.F.; Kuhn, M.L.
Structure of the Bacillus anthracis dTDP-L-rhamnose-biosynthetic enzyme dTDP-4-dehydrorhamnose reductase (RfbD) (2017), Acta Crystallogr. Sect. F, 73, 644-650 .

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Cloned(Commentary)

Cloned (Comment)	Organism
expression in Escherichia coli BL21(DE3)	Bacillus anthracis

Crystallization (Commentary)

Crystallization (Comment)	Organism
vapor diffusion sitting drop method, the 2.65 A resolution crystal structure of the enzyme in complex with NADP+	Bacillus anthracis

Metals/Ions

Metals/Ions	Comment	Organism	Structure
additional information	does not require Mg2+ for activity	Bacillus anthracis

Natural Substrates/ Products (Substrates)

Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+	Bacillus anthracis	enzyme in the dTDP-beta-L-rhamnose-biosynthetic pathway	dTDP-beta-L-rhamnose + NADP+	-	?

Organism

Organism	UniProt	Comment	Textmining
Bacillus anthracis	A0A6L7H7R4	-	-

Purification (Commentary)

Purification (Comment)	Organism
-	Bacillus anthracis

Substrates and Products (Substrate)

Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+	-	Bacillus anthracis	dTDP-beta-L-rhamnose + NADP+	-	?
dTDP-4-dehydro-beta-L-rhamnose + NADPH + H+	enzyme in the dTDP-beta-L-rhamnose-biosynthetic pathway	Bacillus anthracis	dTDP-beta-L-rhamnose + NADP+	-	?

Subunits

Subunits	Comment	Organism
monomer	-	Bacillus anthracis

Synonyms

Synonyms	Comment	Organism
dTDP-4-dehydrorhamnose reductase	-	Bacillus anthracis
RfbD	-	Bacillus anthracis

Cofactor

Cofactor	Comment	Organism	Structure
NADPH	based on our structural comparison of the enzyme (RfbD) with its homologs, it is found that RfbD is likely to utilize either NAD(H) or NADP(H) as a coenzyme	Bacillus anthracis

General Information

General Information	Comment	Organism
drug target	the dTDP-beta-L-rhamnose-biosynthetic pathway is absent in humans, which make them ideal targets for therapeutic development to combat pathogens (e.g. Bacillus anthracis, the causative agent of the deadly disease Anthrax)	Bacillus anthracis
metabolism	enzyme in the dTDP-beta-L-rhamnose-biosynthetic pathway	Bacillus anthracis

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Release 2023.1 (January 2023)