Functional
analysis of a small heat shock/alpha-crystallin protein from Artemia
franciscana - Oligomerization and thermotolerance
J.A. Crack, M. Mansour, Y. Sun, T.H. MacRae-2002
European Journal of Biochemistry, 269(3): 933-942
(from Current Contents)
Abstract :
Oviparously developing embryos of the brine shrimp.
Artemia franciscana, synthesize abundant quantities of a small heat
shock/alpha-crystallin protein, termed p26. Wild-type p26 functions as a
molecular chaperone in vitro and is thought to help encysted Artemia embryos
survive severe physiological stress encountered during diapause and anoxia.
Full-length and truncated p26 cDNA derivatives were generated by PCR
amplification of p26-3-6-3, then cloned in either pET21(+) or pRSETC and
expressed in Escherichia coli BL21(DE3). All constructs gave a polypeptide
detectable on Western blots with either p26 specific antibody, or with
antibody to the His(6) epitope tag encoded by pRSETC. Full-length p26 in
cell-free extracts of E. coli was about equal in mass to that found in
Artemia embryos, but p26 lacking N- and C-terminal residues remained either
as monomers or small multimers. All p26 constructs conferred thermotolerance
on transformed E. coli, although not all formed oligomers, and cells
expressing N-terminal truncated derivatives of p26 were more heat resistant
than bacteria expressing p26 with C-terminal deletions. The C-terminal
extension of p26 is seemingly more important for thermotolerance than is the
N-terminus, and p26 protects E. coli against heat shock when oligomer size
and protein concentration are low. The findings have important implications
for understanding the functional mechanisms of small heat
shock/alpha-crystallin proteins.
(Dalhousie Univ, Dept Biol, Halifax, NS B3H 4J1,
Canada, e-mail of T.H. MacRae: tmacrae@is.dal.ca)