| scholarly article | Q13442814 |
| P2093 | author name string | Nick Lane | |
| William F Martin | |||
| P2860 | cites work | The antiquity of RNA-based evolution | Q22122345 |
| P433 | issue | 7 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1406-1416 | |
| P577 | publication date | 2012-12-01 | |
| P1433 | published in | Cell | Q655814 |
| P1476 | title | The origin of membrane bioenergetics | |
| P478 | volume | 151 |
| Q28596840 | A Field Trip to the Archaean in Search of Darwin's Warm Little Pond |
| Q21145705 | A bioenergetic basis for membrane divergence in archaea and bacteria |
| Q89983868 | A hydrogen-dependent geochemical analogue of primordial carbon and energy metabolism |
| Q40116126 | Absence of Nucleotide-Oligomerization-Domain-2 Is Associated with Less Distinct Disease in Campylobacter jejuni Infected Secondary Abiotic IL-10 Deficient Mice |
| Q57006255 | Acetyl Phosphate as a Primordial Energy Currency at the Origin of Life |
| Q38151874 | Adaptations of anaerobic archaea to life under extreme energy limitation |
| Q21131320 | Alkaliphilic Bacteria with Impact on Industrial Applications, Concepts of Early Life Forms, and Bioenergetics of ATP Synthesis |
| Q88633814 | Amphiphilic Compounds Assemble into Membranous Vesicles in Hydrothermal Hot Spring Water but Not in Seawater |
| Q39005878 | An intuitive approach to understanding the resting membrane potential |
| Q28651014 | An origin-of-life reactor to simulate alkaline hydrothermal vents |
| Q41666512 | Ancient Living Organisms Escaping from, or Imprisoned in, the Vents? |
| Q28078616 | AstRoMap European Astrobiology Roadmap |
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| Q34469977 | Bio-inspired CO2 conversion by iron sulfide catalysts under sustainable conditions |
| Q38208795 | Bioenergetic constraints on the evolution of complex life |
| Q30645106 | Bioenergetics in human evolution and disease: implications for the origins of biological complexity and the missing genetic variation of common diseases |
| Q37322964 | Biophysical comparison of ATP synthesis mechanisms shows a kinetic advantage for the rotary process. |
| Q28607185 | Biosignatures on Mars: What, Where, and How? Implications for the Search for Martian Life |
| Q41408336 | Breath-giving cooperation: critical review of origin of mitochondria hypotheses : Major unanswered questions point to the importance of early ecology |
| Q39251244 | Catalytic robustness and torque generation of the F1-ATPase |
| Q42592610 | Cell cycle progression is regulated by intertwined redox oscillators |
| Q54133097 | Channel activity of mirror-image M2 proton channel of influenza A virus is blocked by achiral or chiral inhibitors. |
| Q57478708 | Chemical Diversity of Metal Sulfide Minerals and Its Implications for the Origin of Life |
| Q64921156 | Chemomimesis and Molecular Darwinism in Action: From Abiotic Generation of Nucleobases to Nucleosides and RNA. |
| Q35069113 | Close encounters of the third domain: the emerging genomic view of archaeal diversity and evolution |
| Q28652350 | Colonization of the deep sea by fishes |
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| Q64926659 | Conformational dynamics and enzyme evolution. |
| Q41775480 | Conjecture and hypothesis: The importance of reality checks |
| Q36937107 | Controlling the delicate balance of tetrapyrrole biosynthesis |
| Q28085556 | Current Ideas about Prebiological Compartmentalization |
| Q46316484 | Darwin's prescient guess |
| Q38673754 | Early Microbial Evolution: The Age of Anaerobes |
| Q27011350 | Early bioenergetic evolution |
| Q41634463 | Early evolution of polyisoprenol biosynthesis and the origin of cell walls |
| Q47921819 | Electronic characterization of Geobacter sulfurreducens pilins in self-assembled monolayers unmasks tunnelling and hopping conduction pathways |
| Q26795689 | Endosymbiotic theories for eukaryote origin |
| Q43110849 | Energy, genes and evolution: introduction to an evolutionary synthesis |
| Q28083698 | Epithelial sodium transport and its control by aldosterone: the story of our internal environment revisited |
| Q35692581 | Evolution of extreme stomach pH in bilateria inferred from gastric alkalization mechanisms in basal deuterostomes |
| Q47635785 | Evolution. Energy at life's origin |
| Q26770826 | Extracellular electron transfer from cathode to microbes: application for biofuel production |
| Q58586582 | Formation of Proton Motive Force Under Low-Aeration Alkaline Conditions in Alkaliphilic Bacteria |
| Q60949763 | Genomic and Transcriptomic Characterization of the Candidate Phylum NPL-UPL2 From Highly Alkaline Highly Reducing Serpentinized Groundwater |
| Q52597436 | Geoelectrochemical CO production: Implications for the autotrophic origin of life. |
| Q28607085 | Homeostasis as the Mechanism of Evolution |
| Q74437582 | How life emerged from deep-sea rocks |
| Q41711698 | In defence of the three-domains of life paradigm |
| Q55074489 | In-vivo turnover frequency of the cyanobacterial NiFe-hydrogenase during photohydrogen production outperforms in-vitro systems. |
| Q92636031 | Investigating Prebiotic Protocells for A Comprehensive Understanding of the Origins of Life: A Prebiotic Systems Chemistry Perspective |
| Q47216711 | Iron catalysis at the origin of life. |
| Q58706554 | Is pre-Darwinian evolution plausible? |
| Q59789068 | Life as a guide to prebiotic nucleotide synthesis |
| Q64113378 | Living at the Extremes: Extremophiles and the Limits of Life in a Planetary Context |
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| Q42154579 | M2 proton channel: toward a model of a primitive proton pump |
| Q42198573 | Metabolic and evolutionary patterns in the extremely acidophilic archaeon Ferroplasma acidiphilum YT. |
| Q45913815 | Meteorites as catalysts for prebiotic chemistry. |
| Q43032688 | Methane: Fuel or Exhaust at the Emergence of Life? |
| Q64228981 | Microfluidic Reactors for Carbon Fixation under Ambient-Pressure Alkaline-Hydrothermal-Vent Conditions |
| Q34636052 | MitoCOGs: clusters of orthologous genes from mitochondria and implications for the evolution of eukaryotes |
| Q55261412 | Multi-functional DNA nanostructures that puncture and remodel lipid membranes into hybrid materials. |
| Q34981800 | Mutational studies on resurrected ancestral proteins reveal conservation of site-specific amino acid preferences throughout evolutionary history |
| Q43184762 | Na+ transport by the A1AO-ATP synthase purified from Thermococcus onnurineus and reconstituted into liposomes |
| Q47829965 | NaHCO3-enhanced hydrogen production from water with Fe and in situ highly efficient and autocatalytic NaHCO3 reduction into formic acid. |
| Q28076481 | Natural pH Gradients in Hydrothermal Alkali Vents Were Unlikely to Have Played a Role in the Origin of Life |
| Q39169942 | New insights into a hot environment for early life |
| Q97521025 | Older Than Genes: The Acetyl CoA Pathway and Origins |
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| Q47429712 | On the biogenic origins of homochirality. |
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| Q35958520 | Optimization of classical nonpolarizable force fields for OH(-) and H3O(+). |
| Q26795686 | Origin of eukaryotes from within archaea, archaeal eukaryome and bursts of gene gain: eukaryogenesis just made easier? |
| Q34467155 | Origins and evolution of viruses of eukaryotes: The ultimate modularity |
| Q64254583 | PDZ Domains Across the Microbial World: Molecular Link to the Proteases, Stress Response, and Protein Synthesis |
| Q42141060 | Physiology, phylogeny, and LUCA |
| Q47132048 | Prebiotic RNA Network Formation: A Taxonomy of Molecular Cooperation |
| Q52371408 | Primordial sex facilitates the emergence of evolution. |
| Q91106656 | Promotion of protocell self-assembly from mixed amphiphiles at the origin of life |
| Q46249690 | Proton gradients and pH oscillations emerge from heat flow at the microscale |
| Q39306264 | Proton gradients at the origin of life |
| Q43029132 | Reply to 'Is LUCA a thermophilic progenote?' |
| Q38184984 | Role of pHi, and proton transporters in oncogene-driven neoplastic transformation |
| Q58789151 | Senomic view of the cell: Senome Genome |
| Q90437907 | Small protein folds at the root of an ancient metabolic network |
| Q47352865 | Temperature oscillations near natural nuclear reactor cores and the potential for prebiotic oligomer synthesis |
| Q47200239 | The "Origin-of-Life Reactor" and Reduction of CO2 by H2 in Inorganic Precipitates |
| Q42270166 | The Cell as the First Niche Construction |
| Q92528786 | The Informational Substrate of Chemical Evolution: Implications for Abiogenesis |
| Q43655429 | The Minimum Biological Energy Quantum |
| Q51151811 | The Prevailing Catalytic Role of Meteorites in Formamide Prebiotic Processes. |
| Q39096510 | The Role of Lipid Membranes in Life's Origin |
| Q92258464 | The Role of Sodium Hydrogen Exchanger 1 in Dysregulation of Proton Dynamics and Reprogramming of Cancer Metabolism as a Sequela |
| Q48058732 | The breathtakingly simple facts of life |
| Q26865207 | The evolution of respiratory O2/NO reductases: an out-of-the-phylogenetic-box perspective. |
| Q30570963 | The futalosine pathway played an important role in menaquinone biosynthesis during early prokaryote evolution |
| Q30365408 | The intelligence paradox; will ET get the metabolic syndrome? Lessons from and for Earth. |
| Q29391568 | The physiology and habitat of the last universal common ancestor |
| Q45422577 | Thermodynamics of lipid multi-lamellar vesicles in presence of sterols at high hydrostatic pressure. |
| Q56689437 | Thermostable and promiscuous Precambrian proteins |
| Q40571913 | Thiosulfate-Hydrogen Peroxide Redox Oscillator as pH Driver for Ribozyme Activity in the RNA World. |
| Q52655253 | Toward a Reasoned Classification of Diseases Using Physico-Chemical Based Phenotypes. |
| Q94521092 | Turbulent coherent structures and early life below the Kolmogorov scale |
| Q39830119 | Type II NADH:quinone oxidoreductase family: phylogenetic distribution, structural diversity and evolutionary divergences |
| Q91649878 | Water Homeostasis and Cell Volume Maintenance and Regulation |
| Q28829225 | Wavy membranes and the growth rate of a planar chemical garden: Enhanced diffusion and bioenergetics |
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