| scholarly article | Q13442814 |
| P356 | DOI | 10.1039/C1MB05094J |
| P953 | full work available at URL | http://pubs.rsc.org/en/content/articlepdf/2011/MB/C1MB05094J |
| P698 | PubMed publication ID | 21584342 |
| P50 | author | Victor de Lorenzo | Q30513692 |
| Rafael Silva-Rocha | Q42137373 | ||
| P2860 | cites work | The incoherent feed-forward loop can generate non-monotonic input functions for genes | Q24644242 |
| Diverse two-dimensional input functions control bacterial sugar genes | Q24647458 | ||
| Synthetic biology: new engineering rules for an emerging discipline | Q24672399 | ||
| Precise temporal modulation in the response of the SOS DNA repair network in individual bacteria | Q24810491 | ||
| Stochastic gene expression in a single cell | Q28131784 | ||
| Construction of a genetic toggle switch in Escherichia coli | Q28144086 | ||
| Synthetic gene networks that count | Q28246672 | ||
| Gene regulation at the single-cell level | Q29615954 | ||
| Functional roles for noise in genetic circuits | Q29616625 | ||
| Robustness in simple biochemical networks | Q29617496 | ||
| Plasticity of the cis-regulatory input function of a gene | Q33239285 | ||
| Refinement and standardization of synthetic biological parts and devices | Q33350143 | ||
| On schemes of combinatorial transcription logic | Q33711386 | ||
| Distributed biological computation with multicellular engineered networks | Q33768677 | ||
| Ultrasensitivity and noise propagation in a synthetic transcriptional cascade. | Q33926820 | ||
| Negative autoregulation speeds the response times of transcription networks | Q33962256 | ||
| Genetic flexibility of regulatory networks | Q34059313 | ||
| Assigning numbers to the arrows: parameterizing a gene regulation network by using accurate expression kinetics | Q34075113 | ||
| Develop reusable and combinable designs for transcriptional logic gates | Q34078874 | ||
| The Coherent Feedforward Loop Serves as a Sign-sensitive Delay Element in Transcription Networks | Q34275513 | ||
| Programmable cells: interfacing natural and engineered gene networks | Q34322635 | ||
| Modeling and simulation of genetic regulatory systems: a literature review | Q34575847 | ||
| Mining logic gates in prokaryotic transcriptional regulation networks | Q34750229 | ||
| The second wave of synthetic biology: from modules to systems | Q34982488 | ||
| Identifying global regulators in transcriptional regulatory networks in bacteria | Q35565608 | ||
| Promoters in the environment: transcriptional regulation in its natural context | Q36026783 | ||
| Cleavage of the Escherichia coli lexA protein by the recA protease | Q36392308 | ||
| The regulatory genome and the computer | Q36932798 | ||
| Modelling and analysis of gene regulatory networks | Q37271452 | ||
| Robust multicellular computing using genetically encoded NOR gates and chemical 'wires'. | Q37522778 | ||
| Engineering input/output nodes in prokaryotic regulatory circuits | Q37771431 | ||
| Noise and robustness in prokaryotic regulatory networks | Q37786338 | ||
| The logicome of environmental bacteria: merging catabolic and regulatory events with Boolean formalisms | Q37853611 | ||
| New unstable variants of green fluorescent protein for studies of transient gene expression in bacteria | Q39561041 | ||
| Analysis and construction of stable phenotypes in gram-negative bacteria with Tn5- and Tn10-derived minitransposons | Q40687515 | ||
| Uncovering cis regulatory codes using synthetic promoter shuffling | Q42129929 | ||
| Identification of additional genes belonging to the LexA regulon in Escherichia coli | Q42486422 | ||
| Reprogramming bacteria to seek and destroy an herbicide | Q42776359 | ||
| Evolvability and hierarchy in rewired bacterial gene networks | Q43148797 | ||
| Tightly regulated tac promoter vectors useful for the expression of unfused and fused proteins in Escherichia coli | Q48314806 | ||
| Noise characteristics of feed forward loops | Q51962902 | ||
| Identification of a Sex-factor-affinity Site in E. coli as | Q72911552 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | artificial intelligence | Q11660 |
| SOS response | Q143584 | ||
| Escherichia coli | Q25419 | ||
| genetic model | Q67149661 | ||
| P304 | page(s) | 2389-2396 | |
| P577 | publication date | 2011-05-17 | |
| P1433 | published in | Molecular BioSystems | Q3319467 |
| P1476 | title | Implementing an OR-NOT (ORN) logic gate with components of the SOS regulatory network of Escherichia coli | |
| Implementing an OR–NOT (ORN) logic gate with components of the SOS regulatory network of Escherichia coli | |||
| P478 | volume | 7 |
| Q30539230 | Circuit-level input integration in bacterial gene regulation |
| Q38084923 | Engineered genetic information processing circuits |
| Q34474920 | Novel acid resistance genes from the metagenome of the Tinto River, an extremely acidic environment. |
| Q34532728 | Quantitative, non-disruptive monitoring of transcription in single cells with a broad-host range GFP-luxCDABE dual reporter system |
| Q40847588 | Refactoring the λ phage lytic/lysogenic decision with a synthetic regulator. |
| Q35225038 | Synthetic biology approaches to improve biocatalyst identification in metagenomic library screening |
| Q37424436 | The Chromobacterium violaceum ArsR Arsenite Repressor Exerts Tighter Control on Its Cognate Promoter Than the Escherichia coli System. |
| Q57935727 | The Logic of Decision Making in Environmental Bacteria |
Search more.