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Showing 1–2 of 2 results
Advanced filters: Author: Alexandra Kühnlein Clear advanced filters

  • Complex coacervate microdroplets have been proposed as primordial cells, but their ability to evolve by fusion, growth and fission has not yet been demonstrated. Now, it has been shown that gas bubbles inside heated rock pores can drive the growth, fusion, division and selection of coacervate microdroplets.

    • Alan Ianeselli
    • Damla Tetiker
    • T.-Y. Dora Tang
    ResearchOpen Access
    Nature Chemistry
    Volume: 14, P: 32-39

  • High concentrations of prebiotic molecules and dry–wet cycles are difficult to achieve in a submerged system. Now, it has been shown that temperature gradients across gas bubbles in submerged rock pores can provide these conditions. Molecules are continuously accumulated at the warm side of bubbles at the gas–water interface, which enables or enhances many prebiotically relevant processes.

    • Matthias Morasch
    • Jonathan Liu
    • Dieter Braun
    Research
    Nature Chemistry
    Volume: 11, P: 779-788