Nuclear p26, a small heat shock/alpha-crystallin protein, and its
relationship to stress resistance in Artemia franciscana embryos
J.K.
Willsie, J.S. Clegg-2001
Journal
of Experimental Biology, 204(13): 2339-2350
(from Current Contents)
Abstract :
The
role of the small heat shock/alpha -crystallin protein, p26, in
transcription in Artemia franciscana embryos was examined using isolated
nuclei, containing either control or elevated levels of p26, in
transcription run-on assays. Heat shock or anoxia in vivo and acid pH in
vitro were used to transfer p26 into nuclei. The results suggest that
parameters other than, or in addition to, p26 are responsible for the
reduced transcription rates observed and that decreases in pHi are involved.
In vivo experiments indicate that RNA synthesis and, to a lesser extent,
protein synthesis are downregulated in intact embryos recovering from heat
shock and that the precursor pool is not limiting. Confocal microscopy
confirmed that p26 moves into nuclei in response to heat shock and anoxia in
vivo, and to low pH in vitro, and indicated that the nuclear distribution of
p26 is similar under all three conditions. We present evidence that
unstressed (control) embryos containing p26 in all their nuclei will not
hatch, even under permissive conditions, and propose that they are unable to
terminate diapause. Potential nuclear targets of p26 chaperone activity are
discussed.
(Univ
Calif Davis, Bodega Marine Lab, Bodega Bay, CA 94923, USA, e-mail of J.S.
Clegg: jsclegg@ucdavis.edu)