Tracking, tuning, and terminating microbial physiology using synthetic riboregulators. - sprookjes - yvandenbroek - TriplyDB

Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

http://www.wikidata.org/entity/Q30496523

about

Synthetic biology for pharmaceutical drug discovery Parts plus pipes: synthetic biology approaches to metabolic engineering Bacterial genome engineering and synthetic biology: combating pathogens Recent advances and versatility of MAGE towards industrial applications Emerging engineering principles for yield improvement in microbial cell design Informing Biological Design by Integration of Systems and Synthetic Biology Allosteric DNA nanoswitches for controlled release of a molecular cargo triggered by biological inputs.Dynamically reshaping signaling networks to program cell fate via genetic controllers Digital and analog gene circuits for biotechnology.Grand Challenges in Synthetic Biology to be Accomplished Synthetic RNA modules for fine-tuning gene expression levels in yeast by modulating RNase III activity.proTeOn and proTeOff, new protein devices that inducibly activate bacterial gene expression.Broad-specificity mRNA-rRNA complementarity in efficient protein translation.Fine-tuning gene networks using simple sequence repeats.Toehold switches: de-novo-designed regulators of gene expression.Principles of genetic circuit design.Digital switching in a biosensor circuit via programmable timing of gene availability.Paper-based synthetic gene networks Fine-Tuning of the Fatty Acid Pathway by Synthetic Antisense RNA for Enhanced (2S)-Naringenin Production from l-Tyrosine in Escherichia coli Versatile RNA-sensing transcriptional regulators for engineering genetic networks Multilayered genetic safeguards limit growth of microorganisms to defined environments Tunable protein degradation in bacteria.Engineering Escherichia coli into a protein delivery system for mammalian cells.Layering genetic circuits to build a single cell, bacterial half adder Targeted DNA degradation using a CRISPR device stably carried in the host genome Genetic switchboard for synthetic biology applications Synthetic biology: advancing biological frontiers by building synthetic systems Synthetic RNA switches as a tool for temporal and spatial control over gene expression.Engineering naturally occurring trans-acting non-coding RNAs to sense molecular signals.De novo automated design of small RNA circuits for engineering synthetic riboregulation in living cells.Embodied artificial evolution: Artificial evolutionary systems in the 21st Century.Precision metabolic engineering: The design of responsive, selective, and controllable metabolic systems.Programmable control of bacterial gene expression with the combined CRISPR and antisense RNA system.Functionalization of an Antisense Small RNA.Twins, quadruplexes, and more: functional aspects of native and engineered RNA self-assembly in vivo On the biophysics and kinetics of toehold-mediated DNA strand displacement Engineering antibiotic production and overcoming bacterial resistance.The zero-sum game of pathway optimization: emerging paradigms for tuning gene expression.Engineering biological systems with synthetic RNA molecules.Construction of synthetic regulatory networks in yeast.

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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description

2010 nî lūn-bûn

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2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

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2010 թվականի օգոստոսին հրատարակված գիտական հոդված

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2010年の論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年論文

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2010年论文

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name

Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators.

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Proceedings of the National Academy of Sciences of the United States of America

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Tracking, tuning, and terminating microbial physiology using synthetic riboregulators

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Charles R Cantor

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Farren J Isaacs

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James J Collins

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Jarred M Callura

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P2860

Large-scale mapping and validation of Escherichia coli transcriptional regulation from a compendium of expression profiles

Gene ontology: tool for the unification of biology

Synthetic biology: new engineering rules for an emerging discipline

RegulonDB (version 5.0): Escherichia coli K-12 transcriptional regulatory network, operon organization, and growth conditions

Holins: the protein clocks of bacteriophage infections

Construction of a genetic toggle switch in Escherichia coli

Synthetic gene networks that count

Engineered riboregulators enable post-transcriptional control of gene expression

Comparative gene expression profiles following UV exposure in wild-type and SOS-deficient Escherichia coli

A synthetic oscillatory network of transcriptional regulators

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