posted on 2013-12-06, 00:00authored byJieping Wang, Han Mei, Hongliang Qian, Qing Tang, Xiaocui Liu, Ziniu Yu, Jin He
Bacillus thuringiensis, a Gram-positive endospore-forming
bacterium, is characterized by the formation of parasporal crystals
consisting of insecticidal crystal proteins (ICPs) during sporulation.
We reveal gene expression profiles and regulatory mechanisms associated
with spore and parasporal crystal formation based on transcriptomics
and proteomics data of B. thuringiensis strain CT-43. During sporulation, five ICP genes encoded by CT-43
were specifically transcribed; moreover, most of the spore structure-,
assembly-, and maturation-associated genes were specifically expressed
or significantly up-regulated, with significant characteristics of
temporal regulation. These findings suggest that it is essential for
the cell to maintain efficient operation of transcriptional and translational
machinery during sporulation. Our results indicate that the RNA polymerase
complex δ and ω subunits, cold shock proteins, sigma factors,
and transcriptional factors as well as the E2 subunit of the pyruvate
dehydrogenase complex could cooperatively participate in transcriptional
regulation via different mechanisms. In particular, differences in
processing and modification of ribosomal proteins, rRNA, and tRNA
combined with derepression of translational inhibition could boost
the rate of ribosome recycling and assembly as well as translation
initiation, elongation, and termination efficiency, thereby compensating
for the reduction in ribosomal levels. The efficient operation of
translational machineries and powerful protein-quality controlling
systems would thus ensure biosyntheses of a large quantity of proteins
with normal biological functions during sporulation.