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. 2018 Feb;25(2):339-348.
doi: 10.1016/j.sjbs.2017.03.020. Epub 2017 May 5.

Impact of pH and butyric acid on butanol production during batch fermentation using a new local isolate of Clostridium acetobutylicum YM1

Najeeb Kaid Nasser Al-Shorgani  1   2 Mohd Sahaid Kalil  1 Wan Mohtar Wan Yusoff  3 Aidil Abdul Hamid  3
Affiliations

Impact of pH and butyric acid on butanol production during batch fermentation using a new local isolate of Clostridium acetobutylicum YM1

Najeeb Kaid Nasser Al-Shorgani et al. Saudi J Biol Sci. 2018 Feb.

Abstract

The effect of pH and butyric acid supplementation on the production of butanol by a new local isolate of Clostridium acetobutylicum YM1 during batch culture fermentation was investigated. The results showed that pH had a significant effect on bacterial growth and butanol yield and productivity. The optimal initial pH that maximized butanol production was pH 6.0 ± 0.2. Controlled pH was found to be unsuitable for butanol production in strain YM1, while the uncontrolled pH condition with an initial pH of 6.0 ± 0.2 was suitable for bacterial growth, butanol yield and productivity. The maximum butanol concentration of 13.5 ± 1.42 g/L was obtained from cultures grown under the uncontrolled pH condition, resulting in a butanol yield (YP/S ) and productivity of 0.27 g/g and 0.188 g/L h, respectively. Supplementation of the pH-controlled cultures with 4.0 g/L butyric acid did not improve butanol production; however, supplementation of the uncontrolled pH cultures resulted in high butanol concentrations, yield and productivity (16.50 ± 0.8 g/L, 0.345 g/g and 0.163 g/L h, respectively). pH influenced the activity of NADH-dependent butanol dehydrogenase, with the highest activity obtained under the uncontrolled pH condition. This study revealed that pH is a very important factor in butanol fermentation by C. acetobutylicum YM1.

Keywords: ABE, acetone-butanol-ethanol; Butanol; Butyric acid; Clostridium acetobutylicum YM1; NADH-BDH, NADH-dependent butanol dehydrogenase; NADH-dependent butanol dehydrogenase; pH.

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Figures

Fig. 1
Fig. 1
Effect of initial pH on butanol production by C. acetobutylicum YM1.
Fig. 2
Fig. 2
Effect of uncontrolled pH (initial pH 6.0) on cell growth, pH, glucose utilization and the production of butanol and butyric acid.
Fig. 3
Fig. 3
Effect of controlled pH 6.0 on cell growth, pH, glucose utilization and the production of butanol and butyric acid.
Fig. 4
Fig. 4
Effect of controlled pH at 5.5 on cell growth, pH, glucose utilization and the production of butanol and butyric acid.
Fig. 5
Fig. 5
Effect of controlled pH at 4.8 on cell growth, pH, glucose utilization and the production of butanol and butyric acid.
Fig. 6
Fig. 6
Profile of cell growth, pH, butyric acid, glucose consumption and butanol production under two-stage pH control: the pH was controlled at 6.0 for 12 h, and then the fermentation was run without control.
Fig. 7
Fig. 7
Profile of cell growth, pH, butyric acid, glucose consumption and butanol production under two-stage pH control: the culture was started with an initial pH of 6.0 and run without control the pH. After 12 h it was controlled at 6.0 for the remainder of the fermentation time.
Fig. 8
Fig. 8
Profile of cell growth, butyric acid, glucose consumption and butanol production in batch culture of YM1 under uncontrolled pH condition and a 4 g/L butyric acid supplementation.
Fig. 9
Fig. 9
Profile of cell growth, butyric acid, glucose consumption and butanol production in a batch culture of YM1 under controlled pH at 6.0 with initial supplementation with 4 g/L butyric acid.
Fig. 10
Fig. 10
Profile of cell growth, butyric acid, glucose consumption and butanol production in a batch culture of YM1 under controlled pH conditions (pH 6.0) with supplementation of 4 g/L butyric acid after 14 h of fermentation.
Fig. 11
Fig. 11
Profile of growth, butanol production and NADH-dependent butanol dehydrogenase activity in butanol fermentation by C. acetobutylicum YM1 (a) in non-controlled pH culture, (b) controlled pH fermentation at 6.0, (c) fermentation controlled at pH 6.0 for 12 h and then allowed to proceed without control and (d) comparison of the specific activity of NADH-BDH under three different pH strategies.
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References

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