Background: Unlike petroleum-based synthetic plastics, biodegradable
biopolymer generation from industrial residue is a key strategy to
reduce costs in the production process, as well as in the waste
management, since efficient industrial wastewater treatment could be
costly. In this context, the present work describes the prospection and
use of bacterial strains capable to bioconvert cassava starch
by-product into biodegradable polyhydroxyalkanoates (PHAs). Results:
The first step of this study was the bacterial competence screening
which was conducted with 72 strains covering 21 Bacillus and related
species. The microorganism growth in a medium with a starch substrate
was measured by an innovative MTT assay, while the ability of the
bacteria to secrete amylase and produce PHA was evaluated by the Nile
Red Dye method. Based on growth and potential for PHA production, four
isolates were selected and identified as Bacillus megaterium by 16S
rRNA sequencing. When cultivated in hydrolyzed cassava starch
by-product, maximum production reached 4.97 g dry biomass/L with 29.7%
of Poly-(3-hydroxybutyrate) (characterized by FTIR). Conclusions: MTT
assay proved to be a reliable methodology for monitoring bacterial
growth in insoluble media. Selected amylolytic strains could be used as
an alternative industrial process for biodegradable plastics production
from starchy residues, reducing costs for biodegradable biopolymer
production and wastewater treatment operations