. Author manuscript; available in PMC: 2013 Sep 18.

Published in final edited form as: Biochemistry. 2012 Aug 30;51(37):7321–7329. doi: 10.1021/bi3008438

Table 3.

Results of the analysis of using the 3LTP Catalytic Atom Map to search the PDB90 data set. Data is shown for matches to the CAM with a GeometryScore ≤ 0.7 Å and an ActiveSiteScore > 0, except where noted.

PDB	Protein	RMSD (Å)	Avg. WCN z-score^a	Metal within 2.5 Å?	Catalytic Element Identified
2FDS	Orotidine 5′-monophosphate decarboxylase	0.42	1.58	No	?
3HJZ^b	Transaldolase	0.48	0.53	No	One lysine functions as a nucleophile; reaction proceed through a Schiff base intermediate
2PS2	Mandelate racemase	0.48	1.09	Yes	Carboxylate residues bind Mg²⁺, lysines function as general acid/base
2CZD	Orotidine 5′-monophosphate decarboxylase	0.54	1.70	No	?
2HXT	L-fuconate dehydratase	0.61	1.39	Yes	Carboxylate residues bind Mg²⁺, lysines function as general acid/base
3H12	Mandelate racemase	0.64	0.94	Yes	Carboxylate residues bind Mg²⁺, lysines function as general acid/base
2A4A	Deoxyribose phosphate aldolase	0.65	1.42	No	One lysine functions as a nucleophile; reaction proceed through a Schiff base intermediate
2ZAD	Muconate cycloisomerase	0.65	1.63	Yes	Carboxylate residues bind Mg²⁺, lysines function as general acid/base
1N7K	Deoxyribose phosphate aldolase	0.69	1.13	No	One lysine functions as a nucleophile; reaction proceed through a Schiff base intermediate

WCN z-score is the average of the WCN z-scores for each of the residues identified by the Catalytic Atom Map.

3HJZ was the aldolase structure with the lowest RMSD identified, but its ActiveSiteScore was 0, as it had not been annotated in the Catalytic Site Atlas at the time of this analysis.