ABSTRACT
The disulfide-bridged chains in the kringle (K) and fibronectin type II (FN2) domains are characterized using a taxonomy that considers the regularities in both beta-secondary structure and cystine cluster. The structural core of the kringle fold comprises an assembly of two beta-hairpins (a "beta-meander") accommodating two overlapping disulfides; one cystine is incorporated in adjacent beta-strands, whereas the other is located just beyond the ends of non-adjacent beta-strands. The dispositions of the (N, C) termini of the two overlapping disulfides in the kringle fold are given as (m, j+1) and (i-1, k+1), in which m, i, j, and k (m
Subject(s)
Disulfides/chemistry
, Kringles
, Amino Acid Sequence
, Crystallography, X-Ray
, Humans
, Molecular Sequence Data
, Protein Structure, Secondary
, Sequence Homology, Amino Acid
ABSTRACT
Neurotrypsin is a multidomain protein that serves as a brain-specific serine protease. Here we report the NMR structure of its kringle domain, NT/K. The data analysis was performed with the BACUS (Bayesian analysis of coupled unassigned spins) algorithm. This study presents the first application of BACUS to the structure determination of a 13C unenriched protein for which no prior experimental 3D structure was available. NT/K adopts the kringle fold, consisting of an antiparallel beta-sheet bridged by an overlapping pair of disulfides. The structure reveals the presence of a surface-exposed left-handed polyproline II helix that is closely packed to the core beta-structure. This feature distinguishes NT/K from other members of the kringle fold and points toward a novel functional role for a kringle domain. Functional divergence among kringle domains is discussed on the basis of their surface and electrostatic characteristics.