BandyopadhyayU, DasS, MulewarS, et al.Amino acids as molecular linchpins in the fundamental prebiotic processes of RNA copying and vesicle formation. Astrobiology2026;26(3–4):272–284; doi: 10.1177/15311074261434675
2.
BargeLM, RodriguezLE. Life on Enceladus? It depends on its origin. Nat Astron2021;5(8):740–741.
3.
BlackRA. The role of fatty acid vesicles in the origin of polymer function. Astrobiology2026;26(3–4):260–271; doi: 10.1177/15311074261427262
4.
Campillo-BalderasJA, Hernández-MoralesR, LazcanoA. Precellular system models and the struggle against reductionism: Revisiting a scientific and philosophical debate. Astrobiology2026;26(3–4):302–312; doi: 10.1177/15311074261442311
5.
CorlissJB, BarossJA, HoffmanSE. An hypothesis concerning the relationship between submarine hot springs and the origin of life on Earth. Oceanologica Acta1981;4:59–69.
6.
DamerB, DeamerD. A multilamellar lipid–polymer progenitor can promote the assembly of improbable functional polymer complexes at life’s origins. Astrobiology2026;26(3–4):247–259; doi: 10.1177/15311074261428661
7.
DarwinC. (1871). Letter no. 7471, Darwin Correspondence Project, Cambridge University Library, Cambridge, UK. Available from: http://www.darwinproject.ac.uk/DCP-LETT-7471 [Last accessed: June8, 2025].
8.
DeamerD. Nanopore sequencing: A way to explore life’s origins. Astrobiology2026;26(3–4):294–301; doi: 10.1177/15311074261428674
9.
DeamerDW. Where did life begin? Testing ideas in prebiotic analogue conditions. Life (Basel)2021;11(2):134.
10.
DeamerD, CaryF, DamerB. Urability: A property of planetary bodies that can support an origin of life. Astrobiology2022;22(7):889–900.
11.
Gözenİ. From space dust to protocells: Micrometeorites in early cellular evolution. Astrobiology2026;26(3–4):219–226; doi: 10.1177/15311074261434670
12.
KarabasogluC, SaytasA, AkgolB, et al.Assembly of replicating protocells with primitive metabolism. Astrobiology2026;26(3–4):227–246; doi:10.1177/15311074261435277
13.
PandeyS, ClarkeJ, NemaP, et al.Ladakh: Diverse, high-altitude extreme environments for off-earth analogue and astrobiology research. Int J Astrobiol2020;19(1):78–98.
14.
SiddiqueA, ChauhanD, DuttonA, et al.A modular 3D-printed design to investigate prebiotic chemical systems in hot spring pools. Astrobiology2026;26(3–4):285–393; doi: 10.1177/15311074261434674
15.
ŠimonisP, MalikėnasM, DeamerD, et al.Icelandic hot springs as a prebiotic analog: Wet–dry cycling effects on the stability of nucleotides and nucleic acids. Astrobiology2026;26(3–4):196–204; doi: 10.1177/15311074261427257
16.
Van KranendonkMJ, PenroseLK, HavigJ, et al.Geochemical complexity in terrestrial hot spring fields: Implications for the origin of life. Astrobiology2026;26(3–4):170–195; doi: 10.1177/15311074261433305
17.
WaltonCR, WhiteSB, RimmerPB. The only constant of life’s origin is change: The importance of chemical fluxes in prebiotic environments. Astrobiology2026;0(0); doi:10.1177/15311074261435780