active site / energy-conserving system / potential applications / conserve energy / gene products / defined and minimal media / centrifugation device / end product / energy sources / degradation product / principle energy carrier / archaeal translational machinery / energy / mL 2xYT media / /
Organization
University of Georgia / Athens / U.S. Department of Energy / Thermococcales / New York Academy of Sciences / Michael W. W. Adams Department of Biochemistry and Molecular Biology / Division of Chemical Sciences / Geosciences and Biosciences / National Academy of Sciences / office of Basic Energy Sciences / /
Person
Methylthiopropionate (Met) Isobutyrate / Richard Meagher / R. N. Schicho / A. K. Skaja / I. I. Blumentals / Glycolate (Ser) Lactate / Jared Lee / Acetate (Ala) Glycolate (Ser) / S. H. Brown / Michael W. W. Adams / R. M. Kelly / Lactate (Thr) Thioglycolate / Joseph W. Scott / H. R. Costantino / Substrates Formate / Isobutyrate (Val) Isovalerate / Eileen Roy / /
Position
Academic Editor / /
Product
acetic acid / /
ProvinceOrState
Georgia / Massachusetts / /
PublishedMedium
Proceedings of the National Academy of Sciences / Current Opinion / Biochemical Journal / Journal of Bacteriology / Applied and Environmental Microbiology / Molecular Biology / /
Technology
recombinant protein production / electrophoresis / DNA Chip / cloning / Cellular Proteomics / /