Substrate channeling and enzyme complexes for biotechnological applications.
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Synthetic biology and regulatory networks: where metabolic systems biology meets control engineeringStructure of a bifunctional alcohol dehydrogenase involved in bioethanol generation in Geobacillus thermoglucosidasiusDesign of nanoscale enzyme complexes based on various scaffolding materials for biomass conversion and immobilizationEnergy efficiency analysis: biomass-to-wheel efficiency related with biofuels production, fuel distribution, and powertrain systemsConserved Streptococcus pneumoniae spirosomes suggest a single type of transformation pilus in competenceCell-free metabolic engineering: biomanufacturing beyond the cellAssembly of xylanases into designer cellulosomes promotes efficient hydrolysis of the xylan component of a natural recalcitrant cellulosic substrateMicrobial production of vitamin B12: a review and future perspectivesMetabolic analysis reveals changes in the mevalonate and juvenile hormone synthesis pathways linked to the mosquito reproductive physiologyEngineering a large protein by combined rational and random approaches: stabilizing the Clostridium thermocellum cellobiose phosphorylase.Non-complexed four cascade enzyme mixture: simple purification and synergetic co-stabilizationEnhanced cellulose degradation by targeted integration of a cohesin-fused β-glucosidase into the Clostridium thermocellum cellulosomeDoes metabolite channeling accelerate enzyme-catalyzed cascade reactions?De novo production of the flavonoid naringenin in engineered Saccharomyces cerevisiae.Printable enzyme-embedded materials for methane to methanol conversion.Genome engineering Escherichia coli for L-DOPA overproduction from glucoseConstruction of a tunable multi-enzyme-coordinate expression system for biosynthesis of chiral drug intermediates.Forizymes - functionalised artificial forisomes as a platform for the production and immobilisation of single enzymes and multi-enzyme complexesExamining Escherichia coli glycolytic pathways, catabolite repression, and metabolite channeling using Δpfk mutants.A model study of sequential enzyme reactions and electrostatic channeling.Protein design in systems metabolic engineering for industrial strain development.Thermophilic lignocellulose deconstruction.Substrate channelling as an approach to cascade reactions.Biomimicry Promotes the Efficiency of a 10-Step Sequential Enzymatic Reaction on Nanoparticles, Converting Glucose to Lactate.Enzymatic reactions in confined environments.Control of histone H3 lysine 9 (H3K9) methylation state via cooperative two-step demethylation by Jumonji domain containing 1A (JMJD1A) homodimer.DNA-Based Enzyme Reactors and Systems.Proximity does not contribute to activity enhancement in the glucose oxidase-horseradish peroxidase cascade.A Catalytic Nanoreactor Based on in Vivo Encapsulation of Multiple Enzymes in an Engineered Protein Nanocompartment.Metabolic adaptation and protein complexes in prokaryotes.Enhanced microbial utilization of recalcitrant cellulose by an ex vivo cellulosome-microbe complexReaction kinetic analysis of the 3-hydroxypropionate/4-hydroxybutyrate CO2 fixation cycle in extremely thermoacidophilic archaea.DNA Antenna Tile-Associated Deoxyribozyme Sensor with Improved SensitivityInsights into the functionality and stability of designer cellulosomes at elevated temperatures.Facilitated substrate channeling in a self-assembled trifunctional enzyme complex.Biosynthesis of D-xylulose 5-phosphate from D-xylose and polyphosphate through a minimized two-enzyme cascade.Introduction of selective intersubunit disulfide bonds into self-assembly protein scaffold to enhance an artificial multienzyme complex's activity.Mechanisms of Enhanced Catalysis in Enzyme-DNA Nanostructures Revealed through Molecular Simulations and Experimental Analysis.Structural insights into the committed step of bacterial phospholipid biosynthesis.A lycopene β-cyclase/lycopene ε-cyclase/light-harvesting complex-fusion protein from the green alga Ostreococcus lucimarinus can be modified to produce α-carotene and β-carotene at different ratios.
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Substrate channeling and enzyme complexes for biotechnological applications.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 June 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Substrate channeling and enzyme complexes for biotechnological applications.
@en
Substrate channeling and enzyme complexes for biotechnological applications.
@nl
type
label
Substrate channeling and enzyme complexes for biotechnological applications.
@en
Substrate channeling and enzyme complexes for biotechnological applications.
@nl
prefLabel
Substrate channeling and enzyme complexes for biotechnological applications.
@en
Substrate channeling and enzyme complexes for biotechnological applications.
@nl
P1476
Substrate channeling and enzyme complexes for biotechnological applications.
@en
P2093
Y-H Percival Zhang
P304
P356
10.1016/J.BIOTECHADV.2011.05.020
P577
2011-06-07T00:00:00Z