about
The future of metabolic engineering and synthetic biology: towards a systematic practiceZymomonas mobilis as a model system for production of biofuels and biochemicalsAlgaGEM--a genome-scale metabolic reconstruction of algae based on the Chlamydomonas reinhardtii genomeGenome-scale consequences of cofactor balancing in engineered pentose utilization pathways in Saccharomyces cerevisiaeWhole-cell biocatalysts by design.Production of biopharmaceutical proteins by yeast: advances through metabolic engineering.Optimizing pentose utilization in yeast: the need for novel tools and approaches.Dynamic knockdown of E. coli central metabolism for redirecting fluxes of primary metabolites.Evolutionary genome engineering using a restriction-modification system.N-Terminal-Based Targeted, Inducible Protein Degradation in Escherichia coli.Rewiring yeast sugar transporter preference through modifying a conserved protein motifOpportunities for yeast metabolic engineering: Lessons from synthetic biology.Utility of gel-free, label-free shotgun proteomics approaches to investigate microorganisms.Mathematical models of cell factories: moving towards the core of industrial biotechnology.Genetically engineered light sensors for control of bacterial gene expression.Construction of synthetic regulatory networks in yeast.Metabolic engineering of Saccharomyces cerevisiae: a key cell factory platform for future biorefineries.Metabolic engineering of recombinant protein secretion by Saccharomyces cerevisiae.Genome-scale metabolic model in guiding metabolic engineering of microbial improvement.Toward systems metabolic engineering of Aspergillus and Pichia species for the production of chemicals and biofuels.Advances in metabolic engineering of yeast Saccharomyces cerevisiae for production of chemicals.Engineering synergy in biotechnology.Synthetic Biology of Polyhydroxyalkanoates (PHA).A turning point for natural product discovery--ESF-EMBO research conference: synthetic biology of antibiotic production.One-step high-efficiency CRISPR/Cas9-mediated genome editing in Streptomyces.Coupling gene regulatory patterns to bioprocess conditions to optimize synthetic metabolic modules for improved sesquiterpene production in yeastC4GEM, a genome-scale metabolic model to study C4 plant metabolism.Development of Streptomyces sp. FR-008 as an emerging chassis.A 9-pool metabolic structured kinetic model describing days to seconds dynamics of growth and product formation by Penicillium chrysogenum.Truncated branch and bound achieves efficient constraint-based genetic design.Enhanced production of L-phenylalanine in Corynebacterium glutamicum due to the introduction of Escherichia coli wild-type gene aroH.
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P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 11 March 2010
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Toward design-based engineering of industrial microbes.
@en
Toward design-based engineering of industrial microbes.
@nl
type
label
Toward design-based engineering of industrial microbes.
@en
Toward design-based engineering of industrial microbes.
@nl
prefLabel
Toward design-based engineering of industrial microbes.
@en
Toward design-based engineering of industrial microbes.
@nl
P2860
P1476
Toward design-based engineering of industrial microbes.
@en
P2093
Kanokarn Kocharin
Keith E J Tyo
P2860
P304
P356
10.1016/J.MIB.2010.02.001
P50
P577
2010-03-11T00:00:00Z