Methods and systems for producing products using engineered sulfur oxidizing bacteria

What is claimed is: 1. A system for producing isobutanol from genetically modified sulfur-oxidizing and iron-reducing bacteria (SOIRB) and iron oxidizing bacteria (IOB), said system comprising: a first bioreactor comprising sulfur-oxidizing and iron-reducing bacteria (SOIRB), wherein said SOIRB comprises a valine biosynthesis metabolic pathway that produces 2-keto acids and is genetically modified to include a 2-keto-acid decarboxylase gene and an alcohol dehydrogenase gene, said SOIRB being genetically modified so that said genes in said SOIRB convert said 2-keto acids to isobutanol; a first source of ferric iron in fluid communication with said first bioreactor; a source of water in fluid communication with said first bioreactor; a source of sulfur in fluid communication with said first bioreactor; a source of carbon dioxide in fluid communication with said first bioreactor; and an electrochemical reactor in fluid communication with said first bioreactor and a second bioreactor, wherein said electrochemical reactor is configured to directly reduce a second source of ferric iron provided by said first bioreactor to a second source of ferrous iron and to generate a stream comprising said second source of ferrous iron to be fed to said second bioreactor; said second bioreactor including iron oxidizing bacteria (IOB), wherein said IOB comprises a valine biosynthesis metabolic pathway that produces 2-keto acids and is genetically modified to include a 2-keto-acid decarboxylase gene and an alcohol dehydrogenase gene, said IOB being genetically modified so that said genes in said IOB convert said 2-keto acids to isobutanol; at least a first source of ferrous iron in fluid communication with said second bioreactor; a source of water in fluid communication with said second bioreactor; a source of oxygen in fluid communication with said second bioreactor; a source of carbon dioxide in fluid communication with said second bioreactor; a third source of ferric iron produced by said second bioreactor, wherein said second bioreactor is configured to feed said third source of ferric iron to said first bioreactor; and a third source of ferrous iron produced by said first bioreactor, wherein said first bioreactor is configured to feed said third source of ferrous iron to said second bioreactor. 2. The system of claim 1 , wherein said electrochemical reactor includes a cathode formed from at least one of nickel and glassy carbon. 3. The system of claim 1 , wherein said SOIRB are genetically modified with a hydrogenase enzyme to be able to utilize hydrogen as an electron donor. 4. The system of claim 1 , wherein said SOIRB is Acidithiobacillus ferrooxidans. 5. The system of claim 1 , wherein said IOB is Acidithiobacillus ferrooxidans. 6. A method for producing isobutanol from genetically modified bacteria, said method comprising: providing the system of claim 1 ; feeding said first source of ferric iron to said first bioreactor comprising said SOIRB; feeding said source of sulfur, water, and carbon dioxide to said first bioreactor comprising said SOIRB; growing said SOIRB under conditions to oxidize said sulfur and to reduce said first source of ferric iron to produce said isobutanol, said third source of ferrous iron, sulfate, excess ferric iron, and an SOIRB biomass; feeding said third source of ferrous iron produced by said SOIRB to said second bioreactor comprising said IOB; feeding said excess ferric iron to said electrochemical reactor; reducing said excess ferric iron in said electrochemical reactor to produce said second source of ferrous iron; feeding said second source of ferrous iron produced by said electrochemical reactor to said second bioreactor comprising said IOB; feeding said first source of ferrous iron to said second bioreactor comprising said IOB; feeding said source of water, carbon dioxide, and oxygen to said second bioreactor comprising said IOB; growing said IOB under conditions to produce said isobutanol, a third source of ferric iron, and an IOB biomass; feeding said third source of ferric iron produced by said IOB to said first bioreactor comprising said SOIRB. 7. The method of claim 6 , wherein said SOIRB are genetically modified with a hydrogenase enzyme to be able to utilize hydrogen as an electron donor. 8. The method of claim 6 , wherein said SOIRB is Acidithiobacillus ferrooxidans. 9. The method of claim 6 , wherein said IOB is Acidithiobacillus ferrooxidans.