| P2093 | author name string | D W Deamer | |
| P2860 | cites work | Role of lipids in prebiotic structures | Q71260737 |
| | Shock Synthesis of Amino Acids in Simulated Primitive Environments | Q71483117 |
| | A Nonenzymatic RNA Polymerase Model | Q72688246 |
| | Polymerase chain reaction in liposomes | Q73909530 |
| | Photochemistry of porphyrins: a model for the origin of photosynthesis | Q74461352 |
| | Mineral induced formation of sugar phosphates | Q74461556 |
| | Catalysis of the oligomerization of O-phospho-serine, aspartic acid, or glutamic acid by cationic micelles | Q74461657 |
| | Aliphatic hydrocarbons of the Murchison meteorite | Q74462814 |
| | Photochemical Production of Formaldehyde in Earth's Primitive Atmosphere | Q80904296 |
| | Reactivity of organic compounds in hot water: geochemical and technological implications | Q81045523 |
| | Evolution of the Genetic Apparatus: A Review | Q22065734 |
| | Permeation of protons, potassium ions, and small polar molecules through phospholipid bilayers as a function of membrane thickness | Q24531389 |
| | Before enzymes and templates: theory of surface metabolism | Q24634337 |
| | Bacterial evolution | Q24634394 |
| | Synthesis of purines under possible primitive earth conditions. I. Adenine from hydrogen cyanide | Q28186376 |
| | Early Archean (3.3-billion to 3.5-billion-year-old) microfossils from Warrawoona Group, Australia | Q28215376 |
| | Microfossils of the Early Archean Apex chert: new evidence of the antiquity of life | Q28215389 |
| | Search for past life on Mars: possible relic biogenic activity in martian meteorite ALH84001 | Q28283478 |
| | Cyanamide mediated syntheses under plausible primitive earth conditions. V. The synthesis of phosphatidic acids | Q28328007 |
| | On the Early Chemical History of the Earth and the Origin of Life | Q28769892 |
| | A production of amino acids under possible primitive earth conditions | Q29616231 |
| | Prebiotic condensation reactions in an aqueous medium: a review of condensing agents | Q33551853 |
| | Investigation of the prebiotic synthesis of amino acids and RNA bases from CO2 using FeS/H2S as a reducing agent | Q33732042 |
| | Charge transfer across a single lipid-water interface causes ion pumping across the bilayer | Q34040160 |
| | Evidence for Extraterrestrial Amino-acids and Hydrocarbons in the Murchison Meteorite | Q34053880 |
| | Primeval cells: Possible energy-generating and cell-division mechanisms | Q34055091 |
| | Chiral selection in poly(C)-directed synthesis of oligo(G). | Q34055775 |
| | Impact frustration of the origin of life | Q34089395 |
| | Annihilation of ecosystems by large asteroid impacts on the early Earth | Q34089402 |
| | Endogenous production, exogenous delivery and impact-shock synthesis of organic molecules: an inventory for the origins of life | Q34089538 |
| | Climatic consequences of very high carbon dioxide levels in the earth's early atmosphere | Q34089638 |
| | The origin of cells: a symbiosis between genes, catalysts, and membranes | Q34179563 |
| | Thermal copolymerization of amino acids to a product resembling protein | Q34244994 |
| | Organic compound synthesis on the primitive earth | Q34246545 |
| | Electrical energy sources for organic synthesis on the early Earth | Q34357017 |
| | The origin and early evolution of life on Earth | Q34357858 |
| | Energy conversion at liquid/liquid interfaces: artificial photosynthetic systems | Q34358793 |
| | The origin of life in the solar system: current issues | Q34358966 |
| | HCN and chemical evolution: the possible role of cyano compounds in prebiotic synthesis | Q34359622 |
| | The first 800 million years: environmental models for early Earth | Q34359699 |
| | RNA evolution and the origins of life | Q34411709 |
| | The case for an ancestral genetic system involving simple analogues of the nucleotides | Q34634098 |
| | Why nature chose phosphates | Q34658466 |
| | Hydrolytic stability of helical RNA: a selective advantage for the natural 3',5'-bond | Q34996537 |
| | Impact melting of frozen oceans on the early Earth: implications for the origin of life | Q35036535 |
| | Did membrane electrochemistry precede translation? | Q36594699 |
| | Liposomes from ionic, single-chain amphiphiles | Q36640375 |
| | Origin of life-facing up to the physical setting | Q36649539 |
| | Two-dimensional life? | Q37617769 |
| | RNA catalysis and the origins of life | Q38178577 |
| | Planetary environments and the conditions of life | Q38511194 |
| | The origin of the moon | Q38512199 |
| | Occurrence of giant impacts during the growth of the terrestrial planets | Q38512472 |
| | HCN: A plausible source of purines, pyrimidines and amino acids on the primitive earth | Q39223154 |
| | Role of amphiphilic compounds in the evolution of membrane structure on the early earth | Q39800305 |
| | Autocatalytic sets of proteins | Q41469307 |
| | The terpenoid theory of the origin of cellular life: the evolution of terpenoids to cholesterol | Q41651307 |
| | Meteorite organics in planetary environments: hydrothermal release, surface activity, and microbial utilization | Q42062458 |
| | Volcanic production of polyphosphates and its relevance to prebiotic evolution | Q42071541 |
| | Nonenzymatic formation of "energy-rich" lactoyl and glyceroyl thioesters from glyceraldehyde and a thiol | Q42249215 |
| | The effects of heavy meteorite bombardment on the early evolution--the emergence of the three domains of life | Q43022399 |
| | Cyanamide mediated syntheses under plausible primitive earth conditions. IV. The synthesis of acylglycerols | Q43545630 |
| | Evidence for organic synthesis in high temperature aqueous media--facts and prognosis | Q43588839 |
| | Early Chemical Evolution of Nucleic Acids: A Theoretical Model | Q43871007 |
| | Energy-rich glyceric acid oxygen esters: implications for the origin of glycolysis | Q44388217 |
| | Prebiotic syntheses of vitamin coenzymes: I. Cysteamine and 2-mercaptoethanesulfonic acid (coenzyme M). | Q44508835 |
| | Cyanamide mediated syntheses under plausible primitive earth conditions. III. Synthesis of peptides | Q45899176 |
| | Light-dependent pH gradients are generated in liposomes containing ferrocyanide. | Q45915459 |
| | Permeation of membranes by the neutral form of amino acids and peptides: relevance to the origin of peptide translocation | Q46083185 |
| | The stability of amino acids at submarine hydrothermal vent temperatures | Q46097671 |
| | Molecular dynamics studies of simple membrane-water interfaces: structure and functions in the beginnings of cellular life | Q46107552 |
| | Polycyclic aromatic hydrocarbons: primitive pigment systems in the prebiotic environment | Q46146157 |
| | Potentially prebiotic syntheses of condensed phosphates | Q46253561 |
| | Amphiphilic components of the Murchison carbonaceous chondrite: surface properties and membrane formation | Q46768312 |
| | The synthesis of glutamic acid in the absence of enzymes: implications for biogenesis | Q47197275 |
| | Geochemical constraints on chemolithoautotrophic reactions in hydrothermal systems | Q47200602 |
| | [FeS/FeS2], a redox system for the origin of life (some experiments on the pyrite-hypothesis). | Q47237382 |
| | Hydrothermal and oceanic pH conditions of possible relevance to the origin of life | Q47237390 |
| | The rise and fall of the RNA world | Q47321535 |
| | Cometary delivery of organic molecules to the early Earth | Q47337944 |
| | Template-directed synthesis of high molecular weight polynucleotide analogues | Q47339199 |
| | Pre-biotic organic matter from comets and asteroids | Q47355366 |
| | Model of early self-replication based on covalent complementarity for a copolymer of glycerate-3-phosphate and glycerol-3-phosphate | Q47369493 |
| | The triose model: glyceraldehyde as a source of energy and monomers for prebiotic condensation reactions | Q47402850 |
| | Template-directed synthesis of novel, nucleic acid-like structures | Q47426391 |
| | The response of fluorescent amines to pH gradients across liposome membranes. | Q52971216 |
| | Carbon dioxide on the early earth | Q55922586 |
| | Organic sulfur compounds resulting from the interaction of iron sulfide, hydrogen sulfide and carbon dioxide in an anaerobic aqueous environment | Q56017973 |
| | Production of RNA by a polymerase protein encapsulated within phospholipid vesicles | Q58001497 |
| | Prebiotic Activation Processes | Q59058375 |
| | Synthesis of phospholipids and membranes in prebiotic conditions | Q59070918 |
| | Amino-acid synthesis in carbonaceous meteorites by aqueous alteration of polycyclic aromatic hydrocarbons | Q59071560 |
| | The first cellular bioenergetic process: Primitive generation of a proton-motive force | Q61670564 |
| | Nonenzymic Joining of Oligoadenylates on a Polyuridylic Acid Template | Q67441292 |
| | Thermal polyamino acids: synthesis at less than 100 degrees C | Q67749806 |
| | Effect on coacervate systems of enzymatic synthesis of polyadenylic acid | Q67755280 |
| | The chemical logic of a minimum protocell | Q68032911 |
| | Montmorillonite: a multifunctional mineral catalyst for the prebiological formation of phosphate esters | Q68353503 |
| | Non-enzymic template-directed synthesis on RNA random copolymers. Poly(C, G) templates | Q68969145 |
| | Energy yields for hydrogen cyanide and formaldehyde syntheses: the HCN and amino acid concentrations in the primitive ocean | Q69805751 |
| | A novel method for encapsulation of macromolecules in liposomes | Q69895505 |
| | Synthesis of phosphatidylcholine under possible primitive earth conditions | Q70406726 |
| | Encapsulation of macromolecules by lipid vesicles under simulated prebiotic conditions | Q70406731 |
| | Prebiotic synthesis in atmospheres containing CH4, CO, and CO2. I. Amino acids | Q70456199 |
| | Purification of acyl CoA:1-acyl-sn-glycero-3-phosphorylcholine acyltransferase | Q70564868 |
| | Phase separation, charge separation and biogenesis | Q70901261 |
| | Bacteria as Mediators of Copper Sulfide Enrichment During Weathering | Q71142433 |
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 239-61 | |
| P577 | publication date | 1997-06-01 | |
| P1433 | published in | Microbiology and Molecular Biology Reviews | Q6839270 |
| P1476 | title | The first living systems: a bioenergetic perspective | |
| P478 | volume | 61 | |