1 proteogenesis) within the overall process of abiogenesis.

2 havior of biomolecules in cell compartments, abiogenesis, and the design of artificial cell-inspired

3  results are also explored in the context of abiogenesis, biodiversity, and searches for future exopl

4 drothermal setting provided a suitable site, abiogenesis could have happened as early as 4,000 to 4,2

5 Myr ago, whereas at the surface of the Earth abiogenesis could have occurred between 3,700 and 4,000

6  an arbitrarily low intrinsic probability of abiogenesis for plausible uninformative priors.

7 onsequence, we argue that the probability of abiogenesis is enhanced on the TRAPPIST-1 planets compar

8 en taken as evidence that the probability of abiogenesis is high, if starting from young Earth-like c

9 t) would provide much stronger evidence that abiogenesis is not extremely rare in the universe.

10 lity and its evolution along the timeline of abiogenesis is not yet understood.

11 ificant, and both bias our conclusions about abiogenesis probabilities based on the Earth and provide

12 s and their role in determining "macroscale" abiogenesis probabilities on suitable planets.

13  the development of molecular complexity and abiogenesis probabilities.

14 mation, the choice of bayesian prior for the abiogenesis probability parameter has a dominant influen

15 ses on the various environments proposed for abiogenesis (the development of life through chemical ev

16 ge of plausible values for the timescale for abiogenesis, the interval in time when life might first

17 ructing a simple model of the probability of abiogenesis, we calculate a bayesian estimate of its pos