The current study aimed to improve riboflavin production by native bacterial isolates and medium components. Bacterial species
Bacillus subtilis
ASU8 (KU559874) and
Bacillus tequilensis
ASU9 (KU559876) showed high potentiality for riboflavin production. The
optimal growth and riboflavin production were achieved after 48 h. The impact of glycine addation to the basal medium was explored
by applying different concentrations (0.1-3 g/l). The addition of glycine was effective and the influencing concentration was 1 g/l
giving 144.7 and184.2 mg/l yields of riboflavin for
Bacillus subtilis
ASU8 and
Bacillus tequilensis
ASU9, respectively. Medium constitu-
ents were also optimized for high riboflavin yield using central composite design (CCD) of response surface methodology (RSM) to
optimize the significant values and to study the mutual interactions between these constituents. The analysis revealed that optimal
medium concentrations for maximum production of riboflavin by Bacillus subtilis (273.82 mg/l) and
Bacillus tequilensis
(288.33
mg/l) were (g/l): glucose 60, 40; NaNO
3
3, 5; KH
2
PO
4
2.5, 1.5; K
2
HPO
4
1, 0.5 and MgSO
4
.7H
2
0.1, 0.5 for Bacillus subtilis and
Bacillus
tequilensis
, respectively. Analysis of variance results showed that the model was significant and an R2 value of 98.06% (
Bacillus sub-
tilis
), 99.34% (
Bacillus tequilensis
) demonstrated that the experimental results were fitted well with predicted values. Optimization
of medium conditions using RSM experimental design is an efficient approach for the production of riboflavin through microbial
fermentation by Bacillus subtilis and Bacillus tequilensis could be utilized in industrial application
Research Abstract
Research Department
Research Journal
EC BACTERIOLOGY AND VIROLOGY RESEARCH
Research Member
Research Publisher
EC BACTERIOLOGY AND VIROLOGY RESEARCH
Research Rank
1
Research Vol
2.4
Research Website
https://scholar.google.com.eg/citations?view_op=view_citation&hl=en&user=_yQaOckAAAAJ&citation_for_view=_yQaOckAAAAJ:IjCSPb-OGe4C
Research Year
2016
Research Pages
131-150