about
Quasispecies in population of compositional assembliesOn the origins of cells: a hypothesis for the evolutionary transitions from abiotic geochemistry to chemoautotrophic prokaryotes, and from prokaryotes to nucleated cellsCoevolution of compositional protocells and their environmentCoupling of the fusion and budding of giant phospholipid vesicles containing macromolecules.Spontaneous chiral symmetry breaking in early molecular networksExcess mutual catalysis is required for effective evolvability.The algorithmic origins of lifeCommon domains in the initiators of DNA replication in Bacteria, Archaea and Eukarya: combined structural, functional and phylogenetic perspectives.The origin of life is a spatially localized stochastic transition.The role of biomacromolecular crowding, ionic strength, and physicochemical gradients in the complexities of life's emergence.Motility at the origin of life: its characterization and a model.Is life unique?On the Contribution of Protein Spatial Organization to the Physicochemical Interconnection between Proteins and Their Cognate mRNAs.Piecemeal Buildup of the Genetic Code, Ribosomes, and Genomes from Primordial tRNA Building BlocksTransition to diversification by competition for multiple resources in catalytic reaction networks.Stochastic simulations of minimal self-reproducing cellular systemsGrowth and division in a dynamic protocell model.Spontaneous emergence of catalytic cycles with colloidal spheres.Stability of uni- and multillamellar spherical vesicles.Nucleic acids: function and potential for abiogenesis.Some conceptual issues in the transition from chemistry to biology.From Molecules to Life: Quantifying the Complexity of Chemical and Biological Systems in the Universe.Exploring the emergence of complexity using synthetic replicators.Evolvable self-replicating molecules in an artificial chemistry.Predicting species emergence in simulated complex pre-biotic networks.Systems protobiology: origin of life in lipid catalytic networksA stochastic model of catalytic reaction networks in protocellsA stochastic model of the emergence of autocatalytic cycles
P2860
Q21146731-59E2B67E-693F-484E-AFDD-54BFEEE0B1D9Q24675851-5B2DFD60-5BF1-4E6D-9B77-3ECA6EEBE7D8Q28757847-4B70B619-FB4D-4A79-A3B0-0B2FC61DA7DFQ30513903-10CCBBBC-A368-44A8-8FE6-78330E059030Q33951709-768FCFF1-59B9-4850-915C-4A52A879DA51Q34278876-BA22A4C0-229D-4B13-85D4-B953D5C73065Q34317225-4E8E5F67-E9B3-42AC-8936-E1A72EFAFFB8Q35066207-6AE6A2E5-BFD0-4E6F-9925-2CAFD9445DC2Q36521120-4399270A-2E31-4BF3-91D8-C5A8AAF1FF81Q37232543-1224C1CC-2F22-418E-A2A8-C66E18CEB2A4Q38078444-872689F3-8E7E-4DF6-8999-A4BBF1487527Q38266333-C7D53B69-385D-4DEE-B16D-B15A69DA5CA0Q38302887-C525C1BD-61F9-491A-8E40-007C976D9830Q39029430-3EBF5BCB-7AA0-4C1B-946F-2620CDA0C6B9Q40018831-B3D590B1-7115-4F8F-83FF-E3C2EDE95F13Q41781002-3371EC1D-1ADC-40FA-A920-8C8635E4647EQ41964121-F6A613DF-39D0-4D2A-8B0D-4EEABBBF04A0Q42580111-15004CF2-537F-4BAF-8BBF-E1E60F3208EDQ45949836-74DC293F-7420-4068-9517-7795C8FF0A46Q46242768-C018E902-7C9A-4578-A761-78295E058081Q47269018-8F6ABBE8-49FA-43CE-A059-A1D1CF7F5173Q47272251-34BA8AE7-E54C-4CE8-952C-F968806D0046Q47384592-80D3A4B9-55A4-409C-A66E-85D662E7B23BQ47402895-19F71A56-4B2D-4320-865D-DC4E30045E43Q49980094-CE6C2199-16E0-4430-9798-2B8B7DA10080Q57178562-591EF3A7-5B91-4092-9277-8DCAF6BB8125Q57499611-40DD47FB-4319-4BA4-AA5E-EA5FBE908545Q57499622-CC4E15CE-154F-434D-92B4-8B595F4FFAB7
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
Composing life.
@ast
Composing life.
@en
Composing life.
@nl
type
label
Composing life.
@ast
Composing life.
@en
Composing life.
@nl
prefLabel
Composing life.
@ast
Composing life.
@en
Composing life.
@nl
P2860
P356
P1433
P1476
Composing life.
@en
P2093
P2860
P304
P356
10.1093/EMBO-REPORTS/KVD063
P577
2000-09-01T00:00:00Z