Proteomics

Dataset Information

0

Induced homogenous sporulation by kinA-overexpression leads to altered Bacillus subtilis spore proteomes and spore properties


ABSTRACT: Summary To facilitate more accurate spore proteomic analysis, the current study focuses on inducing homogeneous sporulation by overexpressing kinA and assesses the effect of sporulation synchronization on spore resistance, structures, the germination behavior at single-spore level and the proteome. The results indicate that, in our set up, the synchronized sporulation by overexpressing kinA can generate a spore yield of 70% within 8 hours. The procedure increases spore wet heat resistance and thickness of the spore coat and cortex layers, whilst delaying the time to spore phase-darkening and burst after addition of germinant. The proteome analysis reveals that the upregulated proteins in the kinA induced spores, compared to spores without kinA induction as well as the wildtype spores, are mostly involved in spore formation. The downregulated proteins mostly belong to the categories of coping with stress, carbon and nitrogen metabolism, as well as regulation of sporulation. Thus, while kinA overexpression enhances sporulation synchronicity it also has profound effects on the central equilibrium of spore formation and spore germination through modulation of the spore molecular composition and stress resistance physiology.

INSTRUMENT(S): apex Q

ORGANISM(S): Bacillus Subtilis (ncbitaxon:1423)

SUBMITTER: Prof. Dr. Stanley Brul  

PROVIDER: MSV000085346 | MassIVE | Tue Apr 28 00:15:00 BST 2020

SECONDARY ACCESSION(S): PXD018842

REPOSITORIES: MassIVE

Dataset's files

Source:
Action DRS
Other
Items per page:
1 - 1 of 1
altmetric image

Publications

Molecular Physiological Characterization of a High Heat Resistant Spore Forming <i>Bacillus subtilis</i> Food Isolate.

Tu Zhiwei Z   Setlow Peter P   Brul Stanley S   Kramer Gertjan G  

Microorganisms 20210323 3


Bacterial endospores (spores) are among the most resistant living forms on earth. Spores of <i>Bacillus subtilis</i> A163 show extremely high resistance to wet heat compared to spores of laboratory strains. In this study, we found that spores of <i>B. subtilis</i> A163 were indeed very wet heat resistant and released dipicolinic acid (DPA) very slowly during heat treatment. We also determined the proteome of vegetative cells and spores of <i>B. subtilis</i> A163 and the differences in these prot  ...[more]

Publication: 1/2

Similar Datasets

2012-12-18 | E-GEOD-29960 | biostudies-arrayexpress
2020-03-04 | GSE146277 | GEO
2007-03-27 | GSE6865 | GEO
2007-12-23 | GSE7362 | GEO
2016-12-23 | PXD002218 | Pride
2007-12-23 | GSE7358 | GEO
2018-05-01 | PXD009235 | Pride
2020-04-02 | MSV000085217 | MassIVE
2012-12-18 | GSE29960 | GEO
2016-02-02 | GSE73043 | GEO