about
Computational tools and algorithms for designing customized synthetic genesSynBioSS-aided design of synthetic biological constructsDesign, implementation and practice of JBEI-ICE: an open source biological part registry platform and toolsPromoterCAD: Data-driven design of plant regulatory DNA.Automatic design of digital synthetic gene circuitsGenoCAD for iGEM: a grammatical approach to the design of standard-compliant constructs.BioNetCAD: design, simulation and experimental validation of synthetic biochemical networksDesigning and engineering evolutionary robust genetic circuits.Standard biological parts knowledgebase.Eugene--a domain specific language for specifying and constraining synthetic biological parts, devices, and systems.SynBioSS designer: a web-based tool for the automated generation of kinetic models for synthetic biological constructsComputational design of synthetic regulatory networks from a genetic library to characterize the designability of dynamical behaviorsProgramming languages for synthetic biology.DeviceEditor visual biological CAD canvas.Foundations for the design and implementation of synthetic genetic circuits.A reappraisal of how to build modular, reusable models of biological systems.Modular, rule-based modeling for the design of eukaryotic synthetic gene circuits.Reverse engineering biomolecular systems using -omic data: challenges, progress and opportunities.The Synthetic Biology Open Language (SBOL) provides a community standard for communicating designs in synthetic biology.Computer-aided design of biological circuits using TinkerCell.Genetic circuit design automation.Measuring retroactivity from noise in gene regulatory networks.Improving collaboration by standardization efforts in systems biology.Network topology and parameter estimation: from experimental design methods to gene regulatory network kinetics using a community based approachPhoto-sensitive degron variants for tuning protein stability by light.Meeting report from the first meetings of the Computational Modeling in Biology Network (COMBINE).Genetic design automation: engineering fantasy or scientific renewal?Computational design approaches and tools for synthetic biology.The zero-sum game of pathway optimization: emerging paradigms for tuning gene expression.Computational tools for metabolic engineering.Perspectives on the automatic design of regulatory systems for synthetic biology.Programmable bacterial catalysis - designing cells for biosynthesis of value-added compounds.Microbial evolution in vivo and in silico: methods and applications.Software applications toward quantitative metabolic flux analysis and modeling.Parts & pools: a framework for modular design of synthetic gene circuits.Location of disorder in coiled coil proteins is influenced by its biological role and subcellular localization: a GO-based study on human proteome.Graphical Modeling Meets Systems Pharmacology.Design Automation in Synthetic Biology.Synthetic biology: a foundation for multi-scale molecular biology.Next-generation synthetic gene networks.
P2860
Q27023232-851D4BF6-A49C-4941-9AA3-DD37196804C0Q28601294-260CD92E-9E32-4437-A140-864709C1BE0BQ28727245-BDD78A4A-BBD1-49DC-910F-F77D0754E809Q30648026-17603E1D-EFF3-4158-91E4-014C1716C793Q31003282-8DF9FB59-45D0-4DC2-B316-6FAF31FF251EQ33532340-E70AD681-F751-4721-94FB-941877A0225DQ33632042-C7D2D2BE-62D2-453F-899E-D35B5B14A1B3Q33735386-3899A589-48CF-4B68-8397-7FA3E102B270Q33842266-9FEDEBFC-09B2-49CA-8E53-68E61C5B6C35Q33895303-36692FD1-5668-4F1A-8454-B754A5F04909Q34001312-9A9E0339-2D39-4934-BB39-6CC361AA4DF2Q34002167-2D040E61-B113-4C0A-8125-2992B9962926Q34087556-BB1FC42D-457C-42A7-BAC2-BDF5C98EA694Q34177085-731FD66F-62E6-49C7-B758-F05E176B14BFQ34273084-4D6E0CF7-F472-4C0C-A930-611958EEB17FQ34281483-229A0554-20F7-4921-ABC5-D163ADF7869FQ34346565-071DA54F-A51F-4A85-9BCC-A2486FADA768Q34352128-350C3B7D-8D21-42FA-934B-02F5DCC17A45Q34423743-21B2A58E-16EE-4004-B6E5-3EB2398AFF23Q34518616-AE0007A5-2BA2-4004-9513-91897AFE6949Q34520533-E62D4107-0ED5-4204-B5BE-BB52606AAC42Q34594733-765B4585-E272-4075-A64C-7337C3985544Q34652065-6247546F-E622-406D-9051-35844C4A3EFCQ35089075-3026AC58-2B8C-4237-8DD3-6ABE8B641738Q35429709-52BAB060-2C35-4240-825C-D823BE909CD9Q35606607-39724F0D-9E08-4BD6-9F7D-2556B23A9CAEQ37189975-D150A876-5741-4E80-899A-36AE267CCD3AQ37831809-856A5C15-68CF-4ED2-8F9F-DAF68703D389Q37893112-CFC5FA42-924D-4990-A649-B93F099DA949Q38013124-CE0AA3F1-603D-44A8-A969-EBF7C2F3BDB7Q38019716-472B17E0-E772-45C6-8C36-F6A5E9E8298FQ38019717-587944DF-6A0B-466A-9276-65F90EFDE578Q38055376-DF654CF2-663C-41B3-A075-9FF0A39E4D1BQ38059081-5FB41FFB-36CD-49D3-BCC1-7349F9F29B0EQ38262134-E351EA59-B799-4E8D-95F8-6F8ED5620771Q38500227-36343682-713E-4410-B8CD-136AE065F5D6Q38806208-DD2BA9C7-F633-4B79-9E0D-82BC427340EEQ39155190-5B5999D3-F705-4C22-9016-24CEF764F722Q39782355-563242F8-F2DF-438B-95D4-8CCB3D81D971Q39919274-1B0E2B6B-E16F-4C7E-AAE0-8142BAB5604D
P2860
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
TinkerCell: modular CAD tool for synthetic biology.
@ast
TinkerCell: modular CAD tool for synthetic biology.
@en
type
label
TinkerCell: modular CAD tool for synthetic biology.
@ast
TinkerCell: modular CAD tool for synthetic biology.
@en
prefLabel
TinkerCell: modular CAD tool for synthetic biology.
@ast
TinkerCell: modular CAD tool for synthetic biology.
@en
P2860
P356
P1476
TinkerCell: modular CAD tool for synthetic biology.
@en
P2093
Deepak Chandran
P2860
P2888
P356
10.1186/1754-1611-3-19
P577
2009-10-29T00:00:00Z
P5875
P6179
1045955848