PDBsum entry 1d5b

Immune system

PDB id: 1d5b

Contents

Protein chains

211 a.a. *

221 a.a. *

Metals

_CD

Waters ×74

* Residue conservation analysis

PDB id:

1d5b

Name:

Immune system

Title:

Unliganded mature oxy-cope catalytic antibody

Structure:

Chimeric oxy-cope catalytic antibody az-28 (light chain). Chain: a, l. Fragment: chimeric fab fragment (unp q7ts98 reisues 23-129, p01834 residues 1-104). Engineered: yes. Other_details: the protein was produced as a chimeric fab fragment. The variable domains (chains a,l 1-107, chains b,h 1-113) are murine. The constant domains (chains a,l 108-211 and chains b,h 113-214) are human..

Source:

Mus musculus, homo sapiens. Mouse, human. Organism_taxid: 10090, 9606. Gene: igkc. Expressed in: escherichia coli. Expression_system_taxid: 562.

Biol. unit:

Dimer (from PQS)

Resolution:

2.80Å R-factor: 0.232 R-free: 0.285

Authors:

E.C.Mundorff,M.A.Hanson,P.G.Schultz,R.C.Stevens

Key ref:

E.C.Mundorff et al. (2000). Conformational effects in biological catalysis: an antibody-catalyzed oxy-cope rearrangement. Biochemistry, 39, 627-632. PubMed id: 10651626 DOI: 10.1021/bi9924314

Date:

06-Oct-99 Release date: 09-Feb-00

Protein chains

P01834  (IGKC_HUMAN) -  Immunoglobulin kappa constant from Homo sapiens

Seq: 107 a.a.

Struc: 211 a.a.

Protein chains

P01857  (IGHG1_HUMAN) -  Immunoglobulin heavy constant gamma 1 from Homo sapiens

Seq: 399 a.a.

Struc: 221 a.a.

DOI no: 10.1021/bi9924314

Biochemistry 39:627-632 (2000)

PubMed id: 10651626

Conformational effects in biological catalysis: an antibody-catalyzed oxy-cope rearrangement.

E.C.Mundorff, M.A.Hanson, A.Varvak, H.Ulrich, P.G.Schultz, R.C.Stevens.

ABSTRACT

Antibody AZ-28 was generated against the chairlike transition-state analogue (TSA) 1 and catalyzes the oxy-Cope rearrangement of substrate 2 to product 3. The germline precursor to AZ-28 catalyzes the reaction with a 35-fold higher rate (k(cat)/k(uncat) = 163 000), despite a 40-fold lower binding affinity for TSA.1 (K(D) = 670 nM). To determine the structural basis for the differences in the binding and catalytic properties of the germline and affinity-matured antibodies, the X-ray crystal structures of the unliganded and TSA.1 complex of antibody AZ-28 have been determined at 2.8 and 2.6 A resolution, respectively; the structures of the unliganded and TSA.1 complex of the germline precursor to AZ-28 were both determined at 2. 0 A resolution. In the affinity-matured antibody.hapten complex the TSA is fixed in a catalytically unfavorable conformation by a combination of van der Waals and hydrogen-bonding interactions. The 2- and 5-phenyl substituents of TSA.1 are almost perpendicular to the cyclohexyl ring, leading to decreased orbital overlap and decreased stabilization of the putative transition state. The active site of the germline antibody appears to have an increased degree of flexibility-CDRH3 moves 4.9 A outward from the active site upon binding of TSA.1. We suggest that this conformational flexibility in the germline antibody, which results in a lower binding affinity for TSA.1, allows dynamic changes in the dihedral angle of the 2-phenyl substituent along the reaction coordinate. These conformational changes in turn lead to enhanced orbital overlap and increased catalytic rate. These studies suggest that protein and substrate dynamics play a key role in this antibody-catalyzed reaction.