Xiaozheng Li scite author profile

There is growing interest in developing non-photosynthetic routes for the conversion of CO2 to fuels and chemicals. One underexplored approach is the transfer of energy to the metabolism of genetically modified chemolithoautotrophic bacteria. Acidithiobacillus ferrooxidans is an obligate chemolithoautotroph that derives its metabolic energy from the oxidation of iron or sulfur at low pH. Two heterologous biosynthetic pathways have been expressed in A. ferrooxidans to produce either isobutyric acid or heptadecane from CO2 and the oxidation of Fe(2+). A sevenfold improvement in productivity of isobutyric acid was obtained through improved media formulations in batch cultures. Steady-state efficiencies were lower in continuous cultures, likely due to ferric inhibition. If coupled to solar panels, the photon-to-fuel efficiency of this proof-of-principle process approaches estimates for agriculture-derived biofuels. These efforts lay the foundation for the utilization of this organism in the exploitation of electrical energy for biochemical synthesis.

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Addition of citrate to Acidithiobacillus ferrooxidans cultures enables precipitate‐free growth at elevated pH and reduces ferric inhibition

Mercado

Kernan

et al. 2014

Biotech & Bioengineering

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Acidithiobacillus ferrooxidans is an acidophilic chemolithoautotroph that is important in biomining and other biotechnological operations. The cells are able to oxidize inorganic iron, but the insolubility and product inhibition by Fe(3+) complicates characterization of these cultures. Here we explore the growth kinetics of A. ferrooxidans in iron-based medium in a pH range from 1.6 to 2.2. It was found that as the pH was increased from 1.6 to 2.0, the maintenance coefficient decreased while both the growth kinetics and maximum cell yield increased in the precipitate-free, low Fe(2+) concentration medium. In higher iron media a similar trend was observed at low pH, but the formation of precipitates at higher pH (2.0) hampered cell growth and lowered the specific growth rate and maximum cell yield. In order to eliminate ferric precipitates, chelating agents were introduced into the medium. Citric acid was found to be relatively non-toxic and did not appear to interfere with iron oxidation at a maximum concentration of 70 mM. Inclusion of citric acid prevented precipitation and A. ferrooxidans growth parameters resumed their trends as a function of pH. The addition of citrate also decreased the apparent substrate saturation constant (KS ) indicating a reduction in the competitive inhibition of growth by ferric ions. These results indicate that continuous cultures of A. ferrooxidans in the presence of citrate at elevated pH will enable enhanced cell yields and productivities. This will be critical as these cells are used in the development of new biotechnological applications such as electrofuel production.

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A Lowpass Filter With Compact Size and Sharp Roll-Off

Xiao

Sun

2015

IEEE Microw. Wireless Compon. Lett.

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Joint decision model of supplier selection and order allocation for the mass customization of logistics services

Wang

et al. 2018

Transportation Research Part E: Logistics and Transportation Re

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Xiaozheng Li

Structural analysis reveals features of the spindle checkpoint kinase Bub1–kinetochore subunit Knl1 interaction

Engineering the iron‐oxidizing chemolithoautotroph Acidithiobacillus ferrooxidans for biochemical production

Addition of citrate to Acidithiobacillus ferrooxidans cultures enables precipitate‐free growth at elevated pH and reduces ferric inhibition

A Lowpass Filter With Compact Size and Sharp Roll-Off

Joint decision model of supplier selection and order allocation for the mass customization of logistics services

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