Literature summary extracted from

Andrews, F.H.; McLeish, M.J.
Using site-saturation mutagenesis to explore mechanism and substrate specificity in thiamin diphosphate-dependent enzymes (2013), FEBS J., 280, 6395-6411.

Protein Variants

EC Number	Protein Variants	Comment	Organism
4.1.1.7	A460I	site-directed mutagenesis, the mutant enzymes is an excellent 2-ketohexanoate decarboxylase	Pseudomonas putida
4.1.1.7	A460Y	site-directed mutagenesis, the mutant shows altered substrate specificity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	H281A	site-directed mutagenesis, the mutant shows about 600fold reduced catalytic efficiency compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	H281F	site-saturation mutagenesis, the mutant shows reduced activity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	H281Y	site-saturation mutagenesis, the mutant shows reduced activity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	H70A	site-directed mutagenesis, the mutant shows about 4000fold reduced catalytic efficiency compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	H70F	site-saturation mutagenesis, the mutant shows reduced activity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	H70L	site-saturation mutagenesis, the mutant shows reduced activity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	L403E	kcat value of the L403E variant is only 18fold lower than that of wild-type BFDC	Pseudomonas putida
4.1.1.7	L403F	L403F variant shows about 10fold increased Km value for the substrate compared to the wild-type enzyme, the cofactor is displaced with the thiazolium ring away	Pseudomonas putida
4.1.1.7	L403X	half the L403X colonies screened have at least 10% of wild-type activity	Pseudomonas putida
4.1.1.7	L476P	the mutant variant shows improved carboligase activity in organic solvents compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	L476Q	the mutant variant shows improved carboligase activity in organic solvents compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	additional information	site-saturation mutagenesis is used to evolve stereoselective enzymes as catalysts for synthetic organic chemistry	Pseudomonas putida
4.1.1.7	S26A	site-directed mutagenesis, the mutant shows about 600fold reduced catalytic efficiency compared to the wild-type enzyme, the S26A variant showed a 30fold increase in Km for benzoylformate and a 100fold increase in Ki value for R-mandelate	Pseudomonas putida
4.1.1.7	S26L	site-saturation mutagenesis, the mutant shows reduced activity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	S26M	site-saturation mutagenesis, the mutant shows reduced activity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	T377L	site-directed mutagenesis, the mutant shows altered substrate specificity compared to the wild-type enzyme	Pseudomonas putida
4.1.1.7	T377L/A460Y	site-directed mutagenesis, the mutant shows altered substrate specificity and kinetics compared to the wild-type enzyme	Pseudomonas putida

Inhibitors

EC Number	Inhibitors	Comment	Organism	Structure
4.1.1.7	R-mandelate	a substrate-analogue inhibitor, the carboxylate of the inhibitor is in an apparent hydrogen bond with Ser26, whereas one of the histidine residues, His70, is positioned to act as a proton donor in the formation of the first tetrahedral intermediate, mandelyl-ThDP	Pseudomonas putida

KM Value [mM]

EC Number	KM Value [mM]	KM Value Maximum [mM]	Substrate	Comment	Organism	Structure
4.1.1.7	0.27	-	phenylglyoxylate	pH and temperature not specified in the publication, wild-type enzyme	Pseudomonas putida
4.1.1.7	0.38	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70L	Pseudomonas putida
4.1.1.7	0.49	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281Y	Pseudomonas putida
4.1.1.7	0.54	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281F	Pseudomonas putida
4.1.1.7	0.8	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26M	Pseudomonas putida
4.1.1.7	0.85	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70F	Pseudomonas putida
4.1.1.7	1.2	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281A	Pseudomonas putida
4.1.1.7	1.2	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26L	Pseudomonas putida
4.1.1.7	1.5	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70A	Pseudomonas putida
4.1.1.7	7.8	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26A	Pseudomonas putida

Natural Substrates/ Products (Substrates)

EC Number	Natural Substrates	Organism	Comment (Nat. Sub.)	Natural Products	Comment (Nat. Pro.)	Rev.	Reac.
4.1.1.7	phenylglyoxylate	Pseudomonas putida	-	benzaldehyde + CO2	-	ir

Organism

EC Number	Organism	UniProt	Comment	Textmining
4.1.1.7	Pseudomonas putida	-	-	-

Substrates and Products (Substrate)

EC Number	Substrates	Comment Substrates	Organism	Products	Comment (Products)	Rev.	Reac.
4.1.1.7	additional information	the enzyme has the ability to carry out stereospecific carbon-carbon bond formation, with products including various 2-hydroxy ketones and benzoin derivatives, the enzyme also catalyzes the conversion of benzaldehyde and acetaldehyde into R-benzoin and, predominantly, S-2-hydroxypropiophenone, via stereospecific carboligation	Pseudomonas putida	?	-	?
4.1.1.7	phenylglyoxylate	-	Pseudomonas putida	benzaldehyde + CO2	-	ir

Subunits

EC Number	Subunits	Comment	Organism
4.1.1.7	dimer	-	Pseudomonas putida

Synonyms

EC Number	Synonyms	Comment	Organism
4.1.1.7	BFDC	-	Pseudomonas putida

Turnover Number [1/s]

EC Number	Turnover Number Minimum [1/s]	Turnover Number Maximum [1/s]	Substrate	Comment	Organism	Structure
4.1.1.7	0.46	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70A	Pseudomonas putida
4.1.1.7	2.1	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281A	Pseudomonas putida
4.1.1.7	4.5	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70F	Pseudomonas putida
4.1.1.7	6.9	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281Y	Pseudomonas putida
4.1.1.7	14	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70L	Pseudomonas putida
4.1.1.7	15	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26A	Pseudomonas putida
4.1.1.7	26	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26M	Pseudomonas putida
4.1.1.7	65	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281F	Pseudomonas putida
4.1.1.7	132	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26L	Pseudomonas putida
4.1.1.7	320	-	phenylglyoxylate	pH and temperature not specified in the publication, wild-type enzyme	Pseudomonas putida

Cofactor

EC Number	Cofactor	Comment	Organism	Structure
4.1.1.7	thiamine diphosphate	dependent on, structural binding environment, overview. The V-conformation is assisted by the presence of a fulcrum residue, Leu403, located directly below the cofactor, the V-conformation results in a N4'-C2 distance of 3.1 A	Pseudomonas putida

General Information

EC Number	General Information	Comment	Organism
4.1.1.7	metabolism	penultimate enzyme in the mandelate pathway, that catalyzes the non-oxidative decarboxylation of benzoylformate to yield carbon dioxide and benzaldehyde	Pseudomonas putida
4.1.1.7	additional information	the first step in catalysis by all ThDP-dependent enzymes is the deprotonation of the C2 carbon by the 4'-imino group to form the ylide. Both active sites contain two histidine residues in the catalytic dimer, three ionizable residues in the active site of the enzyme are Ser26, His70 and His281. His281 is the donor for the protonation of the enamine intermediate, Ser26 forms a hydrogen bond with the carboxylate of the substrate	Pseudomonas putida
4.1.1.7	physiological function	the enzyme enables the organism to utilize R-mandelate as their sole carbon source	Pseudomonas putida

kcat/KM [mM/s]

EC Number	kcat/KM Value [1/mMs^-1]	kcat/KM Value Maximum [1/mMs^-1]	Substrate	Comment	Organism	Structure
4.1.1.7	0.3	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70A	Pseudomonas putida
4.1.1.7	1.7	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281A	Pseudomonas putida
4.1.1.7	1.9	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26A	Pseudomonas putida
4.1.1.7	5.3	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70F	Pseudomonas putida
4.1.1.7	14	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281Y	Pseudomonas putida
4.1.1.7	32	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26M	Pseudomonas putida
4.1.1.7	36	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H70L	Pseudomonas putida
4.1.1.7	110	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant S26L	Pseudomonas putida
4.1.1.7	120	-	phenylglyoxylate	pH and temperature not specified in the publication, mutant H281F	Pseudomonas putida
4.1.1.7	1180	-	phenylglyoxylate	pH and temperature not specified in the publication, wild-type enzyme	Pseudomonas putida

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Release 2023.1 (January 2023)