Eglin c, turkey ovomucoid third domain, and bovine pancreatic trypsin inhibitor (Kunitz) areall standard mechanism, canonical protein inhibitors of serine proteinases. Each of the three belongs to adifferent inhibitor family. Therefore, all three have the same canonical conformation in their combiningloops but differ in their scaffoldings. Eglin c (Leu
45 at P
1) binds to chymotrypsin much better than itsAla
45 variant (the difference in standard free energy changes on binding is -5.00 kcal/mol). Similarly,turkey ovomucoid third domain (Leu
18 at P
1) binds to chymotrypsin much better than its Ala
18 variant(the difference in standard free energy changes on binding is -4.70 kcal/mol). As these t
wo differencesare
within the ±400 cal/mol band
width (expected from the experimental error), one can conclude that thesystem is additive. On the basis that isoenergetic is isostructural,
we expect that
within both the P
1 Alapair and the P
1 Leu pair, the conformation of the inhibitor's P
1 side chain and of the enzyme's specificitypocket
will be identical. This is confirmed,
within the experimental error, by the available X-ray structuresof complexes of bovine chymotrypsin A
with eglin c (lacb) and
with turkey ovomucoid third domain(1cho). A comparison can also be made bet
ween the structures of P
1 (Lys
+)
15 of bovine pancreatic trypsininhibitor (Kunitz) (1mtn and 1cb
w) and of the P
1 (Lys
+)
18 variant of turkey ovomucoid third domain(1hja), both interacting
with chymotrypsin. In this case, the conformation of the side chains is strikinglydifferent. Bovine pancreatic trypsin inhibitor
with (Lys
+)
15 at P
1 binds to chymotrypsin more stronglythan its Ala
15 variant (the difference in standard free energy changes on binding is -1.90 kcal/mol). Incontrast, turkey ovomucoid third domain variant
with (Lys
+)
18 at P
1 binds to chymotrypsin less stronglythan its Ala
18 variant (the difference in standard free energies of association is 0.95 kcal/mol). In thiscase, P
1 Lys
+ is neither isostructural nor isoenergetic. Thus, a thermodynamic criterion for
whether theconformation of a P
1 side chain in the complex matches that of an already determined one is at hand.Such a criterion may be useful in reducing the number of required X-ray crystallographic structuredeterminations. More importantly, the criterion can be applied to situations
where direct determination ofthe structure is extremely difficult. Here,
we apply it to determine the conformation of the Lys
+ sidechain in the transition state complex of a substrate
with chymotrypsin. On the basis of
kcat/
KM measurements,the difference in free energies of activation for Suc-AAPX-pna
when X is Lys
+ and X is Ala is 1.29kcal/mol. This is in good agreement
with the corresponding difference for turkey ovomucoid third domainvariants but in sharp contrast to the bovine pancreatic trypsin inhibitor (Kunitz) data. Therefore,
we expectthat in the transition state complex of this substrate
with chymotrypsin, the P
1 Lys
+ side chain is deeplyinserted into the enzyme's specificity pocket as it is in the (Lys
+)
18 turkey ovomucoid third domain complex
with chymotrypsin.