about
Implementing arithmetic and other analytic operations by transcriptional regulationMolecular circuits for associative learning in single-celled organisms.DNA as a universal substrate for chemical kineticsComputational functions in biochemical reaction networksPattern recognition, chaos, and multiplicity in neural networks of excitable systems.On the deduction of chemical reaction pathways from measurements of time series of concentrations.Boolean logic functions of a synthetic peptide network.Global consensus theorem and self-organized criticality: unifying principles for understanding self-organization, swarm intelligence and mechanisms of carcinogenesisChemical implementation and thermodynamics of collective neural networksIntelligent medical diagnostics via molecular logic.Quasiclassical computation.Biocomputers: from test tubes to live cells.Linking the proteins--elucidation of proteome-scale networks using mass spectrometry.A model of excitation and adaptation in bacterial chemotaxis.Enzyme-free nucleic acid dynamical systems.Master equation approach to synchronization in diffusion-coupled nonlinear oscillatorsTowards unconventional computing through simulated evolution: control of nonlinear media by a learning classifier system.Logical and arithmetic circuits in Belousov-Zhabotinsky encapsulated disks.Dynamic control and information processing in the Belousov-Zhabotinsky reaction using a coevolutionary algorithm.Computing Mathematical Functions using DNA via Fractional Coding.Chemical Reaction Network Designs for Asynchronous Logic CircuitsExcitability Modulation of Oscillating Media in 3D-Printed Structures
P2860
Q28472646-3C281644-8D83-4658-B147-49BD6274A3ECQ30484516-B7F33722-2DDF-4E91-8D59-62335715BC76Q33777687-3DECFAF3-277E-41D1-86B3-1E26DFADFDBFQ34018332-D324DE01-BBEF-4E01-99E4-C94D2F726C5EQ34887490-9F5AC107-5FA4-4167-9D89-C756FDF72227Q35142358-C94B8018-C18E-4C79-8997-E6D95B45AF8EQ35691241-AABEB139-ACF5-4FE9-B761-5026ADBA5CF0Q36642201-1738334C-8D7C-4782-B2BD-2E80C6047546Q36775950-AAF5F4AA-27FA-4637-BA62-31D11354B562Q37361255-8454F965-EF89-409B-ACAA-5A55AB5835C3Q37484323-18E92D6C-DE13-4B14-A70C-F355172E7864Q37534322-C47DA1AF-89E9-4B60-B352-6A31B392D556Q37845324-F2B3CBB5-6F14-4ECE-A3DD-EB9F70319C71Q39651626-5CB45CE5-1201-4506-927A-42D6A4EFD603Q46489955-93119D0D-33E1-494C-A617-A28317E6BB55Q46861912-92A3C773-AFC2-4E6F-A72D-05912D792DB3Q47855887-8692D27B-6D8A-4C77-B9A4-82A4CE6C97C4Q51469625-2AB597A5-CD39-4CA6-AF0A-EA25FE0A4998Q51861613-35E679BB-28F8-48A4-843F-167E0D2FED03Q55545419-ABFC6ED7-28D2-4436-9220-1FFCA21948EDQ56981813-90F8DA8E-44E8-4B92-A63A-E109F36F48E5Q58621073-EBD7412F-4E5A-4654-99E2-9B528DB0ECE0
P2860
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
1992年论文
@zh
1992年论文
@zh-cn
name
Chemical implementation of finite-state machines.
@ast
Chemical implementation of finite-state machines.
@en
type
label
Chemical implementation of finite-state machines.
@ast
Chemical implementation of finite-state machines.
@en
prefLabel
Chemical implementation of finite-state machines.
@ast
Chemical implementation of finite-state machines.
@en
P2093
P2860
P356
P1476
Chemical implementation of finite-state machines.
@en
P2093
Hjelmfelt A
Weinberger ED
P2860
P304
P356
10.1073/PNAS.89.1.383
P407
P577
1992-01-01T00:00:00Z