Abstract:
The complete genome sequence of Bacillus amyloliquefaciens type strain DSM7T is presented. A comparative
analysis between the genome sequences of the plant associated strain FZB42 (Chen et al., 2007)
with the genome of B. amyloliquefaciens DSM7T revealed obvious differences in the variable part of the
genomes, whilst the core genomes were found to be very similar. The strains FZB42 and DSM7T have in
common 3345 genes (CDS) in their core genomes; whilst 547 and 344 CDS were found to be unique in
DSM7T and FZB42, respectively. The core genome shared by both strains exhibited 97.89% identity on
amino acid level. The number of genes representing the core genome of the strains FZB42, DSM7T, and
Bacillus subtilis DSM10T was calculated as being 3098 and their identity was 92.25%. The 3,980,199 bp
genome of DSM7T contains numerous genomic islands (GI) detected by different methods. Many of them
were located in vicinity of tRNA, glnA, and glmS gene copies. In contrast to FZB42, but similar to B. subtilis
DSM10T, the GI were enriched in prophage sequences and often harbored transposases, integrases
and recombinases. Compared to FZB42, B. amyloliquefaciens DSM7T possessed a reduced potential to
non-ribosomally synthesize secondary metabolites with antibacterial and/or antifungal action. B. amyloliquefaciens
DSM7T did not produce the polyketides difficidin and macrolactin and was impaired in its
ability to produce lipopeptides other than surfactin. Differences established within the variable part of
the genomes, justify our proposal to discriminate the plant-associated ecotype represented by FZB42
from the group of type strain related B. amyloliquefaciens soil bacteria.