Lipid vesicles as possible intermediates in the origin of life, Curr. Opin. Colloid Interf. Sci, vol.4, pp.33-39, 1999. ,
Synthesizing Life, Nature, vol.409, pp.387-390, 2001. ,
, Prebiotic Chemistry: From Simple Amphiphiles to Protocell Models, pp.1-27, 2005.
Surfactant assemblies and their various possible roles for the origin(s) of life, Orig. Life Evol. Biosph, vol.36, pp.109-150, 2006. ,
Liposomes from ionic, single-chain amphiphiles, Biochemistry, vol.17, pp.3759-3768, 1978. ,
Autopoietic self-reproduction of fatty acid vesicles, J. Am. Chem. Soc, vol.116, pp.11649-11654, 1994. ,
RNA catalysis in model protocell vesicles, J. Am. Chem. Soc, vol.127, pp.13213-13219, 2005. ,
Membrane self-assembly processes: Steps toward the first cellular life, Anatomical Record, vol.268, pp.196-207, 2002. ,
Physical effects underlying the transition from primitive to modern cell membranes, Proc. Natl. Acad. Sci. USA, vol.108, pp.5249-5254, 2011. ,
Cyanamide mediated syntheses under plausible primitive earth conditions IV, J. Mol. Evol, vol.10, pp.221-230, 1977. ,
Abiotic condensation synthesis of glyceride lipids and wax esters under simulated hydrothermal conditions, Orig. Life Evol. Biosph, vol.36, pp.93-108, 2006. ,
Abiotic formation of acylglycerols under simulated hydrothermal conditions and self-assembly properties of such lipid products, Adv. Space Res, vol.7, pp.1649-1656, 2007. ,
Cyanamide: A possible key compound in chemical evolution, Proc. Natl. Acad. Sci. USA, vol.52, pp.27-30, 1964. ,
Synthesis of phospholipids and membranes in prebiotic conditions, Nature, vol.266, pp.78-80, 1977. ,
Prebiotic lipidic amphiphiles and condensing agents on the early Earth, Life, vol.6, p.17, 2016. ,
Template-directed synthesis of a genetic polymer in a model protocell, Nature, vol.454, pp.122-125, 2008. ,
Prebiotically relevant mixed fatty acid vesicles support anionic solute encapsulation and photochemically catalyzed trans-membrane charge transport, Chem. Sci, vol.2, pp.661-671, 2011. ,
Model systems of precursor cellular membranes: Long-chain alcohols stabilize spontaneously formed oleic acid vesicles, Biophys. J, vol.102, pp.278-286, 2012. ,
Self-assembled vesicles of monocarboxylic acids and alcohols: conditions for stability and for the encapsulation of biopolymers, Biochim. Biophys. Acta. Biomembr, vol.1559, pp.1-9, 2002. ,
Stability of model membranes in external enviroments, Orig. Life. Evol. Biosph, vol.38, pp.329-341, 2008. ,
Chemical evolution of amphiphiles: glycerol monoacyl derivatives stabilize plausible prebiotic membranes, Astrobiology, vol.9, pp.979-987, 2009. ,
Synthesis of prebiotic glycerol in interstellar ices, Ang. Chem. Int. Ed, vol.54, pp.195-200, 2015. ,
Lipid synthesis under hydrothermal conditions by Fischer-Tropsch-type reactions, Orig. Life Evol. Biosph, vol.29, pp.153-166, 1998. ,
Selective acylation of nucleosides, nucleotides, and glycerol-3-phosphocholine in water, Synlett, vol.28, pp.78-83, 2016. ,
Cyanamide mediated synthesis under plausible primitive Earth conditions, V. The synthesis of phosphatidic acid, J. Mol. Evol, vol.11, pp.279-292, 1978. ,
Cyanamide mediated synthesis under plausible primitive Earth conditions VI. The synthesis of glycerol and glycerol phosphate, J. Mol. Evol, vol.12, pp.235-241, 1979. ,
Copying of RNA sequences without pre-activation, Angew. Chem. Int. Ed, vol.54, pp.14559-14563, 2015. ,
Spontaneous Formation of RNA Strands, Peptidyl RNA, and Cofactors, Angew. Chem. Int. Ed, vol.54, pp.14564-14569, 2015. ,
Prebiotic condensation reactions in an aqueous medium: A review on condensing agents, Orig. Life, vol.7, pp.197-224, 1976. ,
Synthesis of phosphatidylcholine under possible primitive Earth conditions, J. Mol. Evol, vol.18, pp.196-202, 1982. ,
Synthesis of phosphatidylethanolamine under possible primitive Earth conditions, J. Mol. Evol, vol.25, pp.1-6, 1987. ,
A new approach to the stereospecific synthesis of phospholipids. The use of l-Glyceric acid for the preparation of diacylglycerols, phosphatidylcholines, and related derivatives, J. Org. Chem, vol.64, pp.7727-7737, 1999. ,
Giant vesicles from rehydrated crude mixtures containing unexpected mixtures of amphiphiles formed under plausibly prebiotic conditions, Org. Biomol. Chem, vol.15, pp.4231-4240, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-02122504
An improved method for the synthesis of 1-monoolein, J. Mol. Catal. B: Enzym, vol.97, pp.130-136, 2013. ,
Preparation of giant liposomes in physiological conditions and their characterization under an optical microscope, Biophys J, vol.71, pp.3242-3250, 1996. ,
Giant vesicles: preparations and applications, Chem Bio Chem, vol.11, pp.848-865, 2010. ,
Influence of ionic inorganic solutes on self-assembly and polymerization processes related to early forms of life: implications for a prebiotic aqueous medium, Astrobiology, vol.2, pp.139-152, 2002. ,
Theory of self-assembly of hydrocarbon amphiphiles into micelles and bilayers, J. Chem. Soc. Faraday Trans. II, vol.72, pp.1525-1568, 1976. ,
The Hydrophobic Effect, 1980. ,
, The Colloidal Domain, 1999.
The polymorphic phase behaviour of phosphatidylethanolamines of natural and synthetic origin. A 31 P NMR study, Biochim. Biophys. Acta, vol.513, pp.31-42, 1978. ,
Ufasomes are stable particles surrounded by unsaturated fatty-acid membranes, Nature, vol.243, pp.232-234, 1973. ,
Liposomes from ionic, single-chain amphiphiles, Biochemistry, vol.17, pp.3759-3768, 1978. ,
Anionic lipid headgroups as a proton-conducting pathway along the surface of membranes -an hypothesis, Proc. Natl. Acad. Sci. USA, vol.80, pp.160-164, 1983. ,
Self-assembly, foaming, and emulsifying properties of sodium alkyl carboxylate/guanidine hydrochloride aqueous mixtures, Langmuir, vol.27, pp.4505-4513, 2011. ,
URL : https://hal.archives-ouvertes.fr/hal-00594273
Vesicle formation and other structures in aqueous dispersions of monoolein and sodium oleate, J. Colloid Interface Sci, vol.257, pp.310-320, 2003. ,
Measured effects of diacylglycerol on structural and elastic properties of phospholipid membranes, Biophys. J, vol.71, pp.2623-2632, 1996. ,
The effects of acyl chain length and saturation of diacylglycerols and phosphatidylcholines on membrane monolayer curvature, Biophys. J, vol.83, pp.977-984, 2002. ,
Effects of diacylglycerols on conformation of phosphatidylcholine headgroups in phosphatidylcholine/phosphatidylserine bilayers, Biophys. J, vol.69, pp.965-973, 1995. ,
Modification by diacylglycerol of the structure and interaction of various phospholipid bilayer membranes, Biochemistry, vol.25, pp.2882-2889, 1986. ,
Spontaneous vesiculation of phospholipids: a simple and quick method of forming unilamellar vesicles, Proc. Natl. Acad. Sci. USA, vol.79, pp.1683-1687, 1982. ,
Vesiculation of unsonicated phospholipid dispersions containing phosphatidic acid by pH adjustment: physicochemical properties of the resulting unilamellar vesicles, Biochemistry, vol.22, pp.4775-4781, 1983. ,
Effects of ionization and counterion binding on the surface areas of phosphatidic acids in monolayers, J. Lipid Res, vol.20, pp.663-668, 1979. ,
Monolayer characteristics and thermal behaviour of phosphatidic acids, Chem. Phys. Lipids, vol.60, pp.209-223, 1992. ,
Theory of lipid monolayer and bilayer phase transitions: effect of headgroup interactions, J. Membr. Biol, vol.27, pp.233-250, 1976. ,
Modulation of membrane curvature by phosphatidic acid and lysophosphatidic acid, Traffic, vol.4, pp.162-174, 2003. ,
, , vol.7, 2017.
Phases and phase transitions of the hydrated phosphatidylethanolamines, Chem. Phys. Lipids, vol.69, pp.1-34, 1994. ,
Energetics of a hexagonal-lamellar-hexagonal-phase transition sequence in dioleoylphosphatidylethanolamine membranes, Biochemistry, vol.31, pp.2856-2864, 1992. ,
Lipids in biological membrane fusion, J. Membrane. Biol, vol.146, pp.1-14, 1995. ,
Roles of lipid polymorphism in intracellular delivery, Adv. Drug Deliv. Rev, vol.47, pp.139-148, 2001. ,
Interactions of divalent cations or basic proteins with phosphatidylethanolamine vesicles, Biochim. Biophys. Acta, vol.471, pp.372-390, 1977. ,
pH-induced destabilization of phosphatidylethanolamine-containing liposomes: role of bilayer contact, Biochemistry, vol.25, pp.285-294, 1986. ,
The multiple faces of self-assembled lipidic systems, PMC Biophys, vol.2, p.3, 2009. ,
Two dimensional chiral chrystals of phospholipids, Nature, vol.310, pp.47-49, 1984. ,
The early evolution of lipid membranes and the three domains of life, Nature Rev, vol.10, pp.507-515, 2012. ,
Stability of heterochiral hybrid membrane made of bacterial sn-G3P lipids and archaeal sn-G1P lipids, Biochemistry, vol.50, pp.4114-4120, 2011. ,
Early evolution of membrane lipids: how did the lipid divide occur?, J. Mol. Evol, vol.72, pp.274-282, 2011. ,
Ether-versus ester-linked phospholipid bilayers containing either linear or branched apolar chains, Biophys. J, vol.107, pp.1364-1374, 2014. ,
Differential interaction of an AmB analogue and ergosterol in enantiomeric membranes, Org. Lett, vol.12, pp.1772-1775, 2010. ,
Coupled phases and combinatorial selection in fluctuating hydrothermal pools: A scenario to guide experimental approaches to the origin of cellular life, Life, vol.5, pp.872-887, 2015. ,
Prebiotic organic synthesis under hydrothermal conditions: An overview, Adv. Space Res, vol.33, pp.88-94, 2003. ,
The origin of Life-Out of the blue, Angew. Chem. Int. Ed, vol.54, pp.2-20, 2015. ,