3 research outputs found
Abnormal long wave dispersion phenomena in a slightly compressible elastic plate with non-classical boundary conditions
A two parameter asymptotic analysis is employed to investigate some unusual long wave dispersion phenomena in respect of symmetric motion in a nearly incompressible elastic plate. The plate is not subject to the usual classical traction free boundary conditions, but rather has its faces fixed, precluding any displacement on the boundary. The abnormal long wave behaviour results in the derivation of non-local approximations for symmetric motion, giving frequency as a function of wave number. Motivated by these approximations, the asymptotic forms of displacement components established and long wave asymptotic integration is carried out
The Disulphide Mapping, Folding and Characterisation of Recombinant Ber e 1, an Allergenic Protein, and SFA8, Two Sulphur-rich 2 S Plant Albumins
We have cloned and expressed genes encoding the allergenic brazil nut
2 S albumin (Ber e 1) and the sunflower albumin 8 (SFA8) in the methylotrophic
yeast Pichia pastoris. We show that both proteins were secreted
at high levels and that the purified proteins were properly folded. We
also showed that Ber e 1 is glycosylated during secretion and that the
glycan does not interfere with the folding or immunoreactivity. The
disulphide map of the Ber e 1 protein was experimentally established and
is in agreement with the conserved disulphide structure of other members
of the 2 S albumin family. A model three-dimensional structure of the
allergen was generated. During the expression studies and through
mutation we have also shown that alteration of the sequences around the
Kex2 endoproteolytic processing site in the expressed fusion protein can
compromise the secretion by targeting part of the protein for possible
degradation. The secreted production of these properly folded sulphurrich
plant albumins presents an opportunity to delineate the attributes
that make an allergen and to facilitate the diagnosis and therapy of type
I allergy