Hyperaerated metalation calculator for E. coli strain JM109 (DE3) grown in LB media

We recently produced three web-based calculators that predict in vivo metal occupancies of proteins, based on the metal affinities of a protein of interest along with estimates of the availabilities of the labile buffered pools of metals inside a cell. Metal availabilities were calculated from the calibrated responses of DNA-binding, metal-sensing, transcriptional regulators. The availability of intracellular Fe(II) was estimated to be similar in E. coli grown under anaerobic conditions compared to cells grown aerobically in LB medium. The purpose of this article is to archive the background data that underpins the release of a new calculator for hyperaerated cells grown in flasks with baffles, with relatively low culture volumes plus high shaking speeds to give elevated oxygenation. The intracellular availability of Fe(II) calculated from the responses of the intracellular Fe(II) sensor Fur was estimated to be significantly lower in these hyperaerated cells than either of the previous values determined for anaerobic or aerobic cultures. The total number of atoms of Mn(II) per cell increased in hyperaerated cells albeit with only modest change in intracellular Mn(II) availability as estimated from the responses of the Mn(II) sensor MntR. Accurate determination of intracellular Ni(II) availability will require further calibration of the magnitude of the responses of the Ni(II) sensor NikR in hyperaerated cells to take account of the state of Fnr. The hyperaerated metalation calculator is made available online and as a spreadsheet, for use by others.