Publications of Martina Preiner

Nan, J.; Peng, X.; Plümper, O.; ten Have, I. C.; Lu, J.-G.; Liu, Q.-B.; Li, S.-L.; Hu, Y.; Liu, Y.; Shen, Z. et al.; Yao, W.; Tao, R.; Preiner, M.; Luo, Y.: Unraveling abiotic organic synthesis pathways in the mafic crust of mid-ocean ridges. Proceedings of the National Academy of Sciences of the United States of America 121 (43), e2308684121 (2024)

Brabender, M.; Henriques Pereira, D. P.; Mrnjavac, N.; Schlikker, M. L.; Kimura, Z.-I.; Sucharitakul, J.; Kleinermanns, K.; Tüysüz, H.; Buckel, W.; Preiner, M. et al.; Martin, W. F.: Ferredoxin reduction by hydrogen with iron functions as an evolutionary precursor of flavin-based electron bifurcation. Proceedings of the National Academy of Sciences 121 (13), e2318969121 (2024)

Ungerhofer, K. A.; Plümper, O.; Preiner, M.; Reichart, G.-J.; Kraal, P.: Coupled carbon‑iron‑phosphorus cycling in the Rainbow hydrothermal vent field. Chemical Geology 650, 121994 (2024)

Beyazay, T.; Belthle, K. S.; Farès, C.; Preiner, M.; Moran, J.; Martin, W. F.; Tüysüz, H.: Ambient temperature CO₂ fixation to pyruvate and subsequently to citramalate over iron and nickel nanoparticles. Nature Communications 14, 570 (2023)

Pereira, D. P. H.; Leethaus, J.; Beyazay, T.; Vieira, A. d. N.; Kleinermanns, K.; Tuysuz, H.; Martin, W. F.; Preiner, M.: Role of geochemical protoenzymes (geozymes) in primordial metabolism: specific abiotic hydride transfer by metals to the biological redox cofactor NAD⁺. FEBS JOURNAL 289 (11), pp. 3148 - 3162 (2022)

Wimmer, J. L. E.; Vieira, A. d. N.; Xavier, J. C.; Kleinermanns, K.; Martin, W. F.; Preiner, M.: The Autotrophic Core: An Ancient Network of 404 Reactions Converts H₂, CO₂, and NH₃ into Amino Acids, Bases, and Cofactors. MICROORGANISMS 9 (2), 458 (2021)

Sousa, F. L.; Preiner, M.; Martin, W. F.: Native metals, electron bifurcation, and CO₂ reduction in early biochemical evolution. CURRENT OPINION IN MICROBIOLOGY 43, pp. 77 - 83 (2018)

Schwander, L.; Brabender, M.; Mrnjavac, N.; Wimmer, J. L.E.; Preiner, M.; Martin, W. F.: Serpentinization as the source of energy, electrons, organics, catalysts, nutrients and pH gradients for the origin of LUCA and life. Biochimica et Biophysica Acta: BBA 1865, 149224, (2024)

Bonfio, C.; Preiner, M.: From the chemistry of life’s emergence to the chemistry of life. Accounts of Chemical Research 57 (24), p. 3454 - 3454 (2024)

Schwander, L.; Brabender, M.; Mrnjavac, N.; Wimmer, J. L. E.; Preiner, M.; Martin, W. F.: Serpentinization as the source of energy, electrons, organics, catalysts, nutrients and pH gradients for the origin of LUCA and life. Frontiers in Microbiology 14, 1257597 (2023)

Henriques Pereira, D. P.; Xie, X.; Beyazay, T.; Paczia, N.; Subrati, Z.; Belz, J.; Volz, K.; Tüysüz, H.; Preiner, M.: The dinucleotide structure of NAD enables specific reduction on mineral surfaces. bioRxiv: the preprint server for biology, 2024.10.11.617347 (2024)