Implementation of cell-free biological networks at steady state
about
Construction of membrane-bound artificial cells using microfluidics: a new frontier in bottom-up synthetic biologyPulse-density modulation control of chemical oscillation far from equilibrium in a droplet open-reactor system.Forward design of a complex enzyme cascade reactionSealable femtoliter chamber arrays for cell-free biology.A microfluidic platform for high-throughput multiplexed protein quantitation.Rapidly characterizing the fast dynamics of RNA genetic circuitry with cell-free transcription-translation (TX-TL) systems.Rapid cell-free forward engineering of novel genetic ring oscillators.Cell-free synthetic biology for in vitro prototype engineering.The engineering of artificial cellular nanosystems using synthetic biology approaches.How to make an oscillator.Programmable chemical reaction networks: emulating regulatory functions in living cells using a bottom-up approach.Serotyping, antibiotic susceptibility, and virulence genes screening of Escherichia coli isolates obtained from diarrheic buffalo calves in Egyptian farms.High-resolution mapping of bifurcations in nonlinear biochemical circuits.Preservation of protein expression systems at elevated temperatures for portable therapeutic production.A transcription and translation-coupled DNA replication system using rolling-circle replication.Grip on complexity in chemical reaction networksSynthetic Gene Expression Circuits for Designing Precision Tools in Oncology.Synchrony and pattern formation of coupled genetic oscillators on a chip of artificial cells.Synthetic Gene Expression Circuits for Designing Precision Tools in Oncology.Chemical communication between bacteria and cell-free gene expression systems within linear chains of emulsion droplets.Synthetic biology. Programmable on-chip DNA compartments as artificial cells.Self-replication of DNA by its encoded proteins in liposome-based synthetic cells.Long-lived protein expression in hydrogel particles: towards artificial cells.Anomalous Scaling of Gene Expression in Confined Cell-Free Reactions.Microfluidic device for real-time formulation of reagents and their subsequent encapsulation into double emulsions.
P2860
Q26747212-9DE591B2-A1D5-42B7-8D0C-F055B73D7149Q27337432-3C1D0D74-A69E-4E9D-BDFC-37C73D9FD544Q28822437-B981C941-4559-4E2D-82DD-7A3B48AAA82FQ35459400-DE64C539-B636-410B-B4ED-E96F5970FF3DQ35560994-59E6C4E0-0FC7-4F22-A2EB-4DA3B77AEC91Q35804156-EDC3D6F6-781B-4B33-A272-B1DD83294DA6Q36468308-F99DA82D-3299-4298-9A2A-E68BBD131727Q38158785-C316203C-C533-4F50-A42B-F135EF53712BQ38199457-84B1027B-8EED-4749-B385-678EB9063A29Q38273162-9CF80AC5-3272-4B69-8B59-12162F43BF55Q38555015-BC4FCF54-D0E4-41C1-BB8C-70E92208BD06Q38613261-7DB9E003-C68D-4BB4-A48A-CF2BDA84B5D5Q39576497-D1AE5BFD-3B27-49DE-AD07-5B81C88A0DFCQ40226185-E6C2802F-4616-4495-9A80-34B6587ADE6CQ41127497-431B01A6-74F3-44F3-8A9B-7BCAB3C52E42Q41334951-FEECA800-B359-48A7-9254-6069DA7A2DE6Q46554724-012D095D-732D-4287-AADE-A44DC45A75BFQ47170794-F31B4851-94E3-47C5-A072-799715B3A080Q47686884-F950F0B1-3049-499F-9090-E86D24C611C2Q50235031-3A800C39-BDA6-4A5A-9910-D5E68B64A77BQ50451202-981EEEC0-CAE7-43FB-94C4-7162A6110708Q54231286-5C013F94-580C-4F48-8F33-0F86F17E2B4BQ55032910-7C299FA7-3407-4D5F-AFC2-0A50603A46DCQ55331731-835835D3-BD72-42FA-8529-3E1BFAFB1D6FQ55398049-FF5DDC47-2791-4175-B11E-F4E2694D507C
P2860
Implementation of cell-free biological networks at steady state
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 16 September 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Implementation of cell-free biological networks at steady state
@en
Implementation of cell-free biological networks at steady state.
@nl
type
label
Implementation of cell-free biological networks at steady state
@en
Implementation of cell-free biological networks at steady state.
@nl
prefLabel
Implementation of cell-free biological networks at steady state
@en
Implementation of cell-free biological networks at steady state.
@nl
P2860
P356
P1476
Implementation of cell-free biological networks at steady state
@en
P2093
Viktoria Stepanova
P2860
P304
15985-15990
P356
10.1073/PNAS.1311166110
P407
P577
2013-09-16T00:00:00Z