Table 2 Culture conditions of D. hafniense DCB-2 Experiments Basal medium AC220 supplier Carbon/e- donor e- acceptor/substrate added Headspace gas Comments Pyruvate fermentation DCB1*, vitamins Pyruvate, 20 mM   N2, 95% CO2, 5% Reference culture for microarray Fe(III) reduction CBF**, vitamins Lactate, 20 mM Ferric citrate,

50 mM or Ferric oxide, 50 mM N2, 95% CO2, 5% Ferric citrate for microarray Ferric oxide for growth study only Se(VI) reduction DCB1, vitamins Pyruvate, 20 mM Sodium selenate, 1 mM N2, 95% CO2, 5% For microarray U(VI) reduction DCB1, vitamins Pyruvate, 20 mM Uranyl acetate, 0.5 mM N2, 95% CO2, 5% For microarray As(V) reduction DCB1, vitamins Pyruvate, 20 mM Sodium arsenate, 1 mM N2, 95% CO2, 5% For growth study only Nitrate reduction CBF, vitamins Lactate, 20 mM Potassium nitrate, 10 mM N2, 95% CO2, 5% For microarray DMSO/TMAO reduction DCB1, vitamins Lactate, 20 mM DMSO, 5 mM or TMAO, 5 mM N2, 95% CO2, 5% For growth study only 3-Cl-4-OH-BA dechlorination DCB1, vitamins Pyruvate, 20 mM or Lactate, 20 mM 3-chloro-4-hydroxybenzoate 1 mM or 50 μM for growth N2, 95% CO2, 5% Pyruvate for

microarray & northern blot Lactate for growth study 3,5-DCP Tubastatin A concentration dechlorination DCB1, vitamins Pyruvate, 20 mM or Lactate, 20 mM 3,5-dichlorophenol 1 mM or 50 μM for growth N2, 95% CO2, 5% Pyruvate for microarray & northern blot Lactate for growth study o-BP H 89 nmr debromination DCB1, vitamins Pyruvate, 20 mM or Lactate, 20 mM ortho-bromophenol 1 mM or 50 μM for growth N2, 95% CO2, 5% Pyruvate for microarray & northern blot Lactate for growth study Oxygen effect DCB1, vitamins Pyruvate, 20 mM   N2, 95% CO2, 5% Exposure to air for Ponatinib cost 3 hours after fermentative cell growth N2 fixation DCB1, vitamins Pyruvate, 20 mM   N2, 95% CO2, 5% NH4 + omitted

from DCB1 Gas replenished every 12 h CO2 fixation DCB1, vitamins     CO, CO2 N2, H2 Details in Figure 3 DCB1*, modified DCB1 medium [61] CBF**, modified CBF medium [32] Figure 6 Physical map of the putative nitrogen fixation ( nif ) operons in D. hafniense DCB-2. The nifH homologs are colored black and the homologs for nifD or nifK are colored orange. Genes involved in MoFe cofactor biosynthesis are colored green; note that nifK, nifE and nifN are also involved in the synthesis of MoFe cofactor. ABC-type transporter genes in the operons are colored blue. The nif operon II and IV that were induced in transcription by NO3 – and O2, respectively, are indicated with arrows. PII; nitrogen regulatory protein-encoding gene, araC-like; AraC-type transcriptional regulator-encoding gene. Figure 7 Phylogenetic tree based on NifH protein sequences. The tree was derived from 28 NifH protein sequences from six bacterial species and one archaeal species (boxed list), and was constructed using MEGA 4.