posted on 2003-06-12, 00:00authored byKenneth S. Rotondi, Lila M. Gierasch
The experiments described here explore the role of local sequence in the folding of cellular
retinoic acid binding protein I (CRABP I). This is a 136-residue, 10-stranded, antiparallel β-barrel protein
with seven β-hairpins and is a member of the intracellular lipid binding protein (iLBP) family. The relative
roles of local and global sequence information in governing the folding of this class of proteins are not
well-understood. In question is whether the β-turns are locally defined by short-range interactions within
their sequences, and are thus able to play an active role in reducing the conformational space available to
the folding chain, or whether the turns are passive, relying upon global forces to form. Short (six- and
seven-residue) peptides corresponding to the seven CRABP I turns were analyzed by circular dichroism
and NMR for their tendencies to take up the conformations they adopt in the context of the native protein.
The results indicate that two of the peptides, encompassing turns III and IV in CRABP I, have a strong
intrinsic bias to form native turns. Intriguingly, these turns are on linked hairpins in CRABP I and represent
the best-conserved turns in the iLBP family. These results suggest that local sequence may play an important
role in narrowing the conformational ensemble of CRABP I during folding.