Oral Presentation Australian Society for Microbiology Annual Scientific Meeting 2025

A multi-omic approach to studying the evolutionary origins of microbial mercury methylation (121060)

Caitlin Gionfriddo 1
  1. La Trobe University, West Wodonga, VIC, Australia
Publish consent withheld
  1. Parks, J.M., Johs, A., Podar, M., Bridou, R., Hurt Jr, R.A., Smith, S.D., Tomanicek, S.J., Qian, Y., Brown, S.D., Brandt, C.C. and Palumbo, A.V., 2013. The genetic basis for bacterial mercury methylation. Science, 339(6125), pp.1332-1335.
  2. Gionfriddo, C.M., Soren, A.B., Wymore, A.M., Hartnett, D.S., Podar, M., Parks, J.M., Elias, D.A. and Gilmour, C.C., 2023. Transcriptional control of hgcAB by an ArsR-like regulator in Pseudodesulfovibrio mercurii ND132. Applied and Environmental Microbiology, 89(4), pp.e01768-22.
  3. Lin, H., Moody, E.R., Williams, T.A. and Moreau, J.W., 2023. On the origin and evolution of microbial mercury methylation. Genome Biology and Evolution, 15(4), p.evad051.