Systems biology of yeast: enabling technology for development of cell factories for production of advanced biofuels.
about
Metabolic engineering of microbes for branched-chain biodiesel production with low-temperature propertyInfluence of operational parameters on the fluid-side mass transfer resistance observed in a packed bed bioreactorImproved production of fatty acid ethyl esters in Saccharomyces cerevisiae through up-regulation of the ethanol degradation pathway and expression of the heterologous phosphoketolase pathwayFermentation of xylose causes inefficient metabolic state due to carbon/energy starvation and reduced glycolytic flux in recombinant industrial Saccharomyces cerevisiaeTransporter engineering for improved tolerance against alkane biofuels in Saccharomyces cerevisiaeOM-FBA: Integrate Transcriptomics Data with Flux Balance Analysis to Decipher the Cell MetabolismCurrent development in genetic engineering strategies of Bacillus species.A laboratory-scale pretreatment and hydrolysis assay for determination of reactivity in cellulosic biomass feedstocks.Improving industrial yeast strains: exploiting natural and artificial diversity.Synthetic microbial consortia: from systematic analysis to construction and applications.Characterizing Strain Variation in Engineered E. coli Using a Multi-Omics-Based Workflow.Metabolic engineering of Saccharomyces cerevisiae: a key cell factory platform for future biorefineries.The use of 'Omics technology to rationally improve industrial mammalian cell line performance.Constructing kinetic models of metabolism at genome-scales: A review.Specific growth rate and substrate dependent polyhydroxybutyrate production in Saccharomyces cerevisiae.Physiological and transcriptional characterization of Saccharomyces cerevisiae engineered for production of fatty acid ethyl esters.An internal deletion in MTH1 enables growth on glucose of pyruvate-decarboxylase negative, non-fermentative Saccharomyces cerevisiae.A Simple and Rapid Protocol for Producing Yeast Extract from Saccharomyces cerevisiae Suitable for Preparing Bacterial Culture Media.Genome-wide search for candidate genes for yeast robustness improvement against formic acid reveals novel susceptibility (Trk1 and positive regulators) and resistance (Haa1-regulon) determinants.Operational parameters and their influence on particle-side mass transfer resistance in a packed bed bioreactor.Metabolic pathway engineering for fatty acid ethyl ester production in Saccharomyces cerevisiae using stable chromosomal integration.An auto-inducible mechanism for ionic liquid resistance in microbial biofuel production.High-Throughput Microfluidics for the Screening of Yeast Libraries.Cofactor modification analysis: a computational framework to identify cofactor specificity engineering targets for strain improvement.Metabolic engineering of microbial competitive advantage for industrial fermentation processes.Metabolomics applied in bioenergy
P2860
Q28647856-67F26875-B3FF-4ED4-9B13-CFC33C03D3DCQ28648172-B6F36D91-4888-4F58-93BC-7A184D90308FQ28658548-1FE63757-53DE-4DBC-B38C-85DFDCF7FA92Q28679304-5463E465-0223-49B5-AC98-7506605A7F12Q28703562-8D5850E6-27AF-48BD-A342-926B7D1B3259Q31082563-F9458A9B-E7C6-47F9-8639-97E8CFBD4D36Q33646387-6087B210-AC96-42B2-80CB-08D4670FA65FQ34250252-0E37F6ED-AA76-4EA8-A88B-B8E175BFCFC7Q35145909-9F064597-F61B-484F-8A29-FA5E1068C23DQ35206004-668A6053-AEA4-4425-98CD-BD9D7139C18AQ36940698-A2B6BD55-3D48-442C-928B-6D88F577FEE1Q37990431-B5FBE58E-FEB1-4198-8005-A0657274C600Q38522584-C02E2C32-8C8A-4203-B9AA-91B7ACE1B185Q38579075-EC186965-1B5E-43EA-89DB-0BAED513475AQ39370724-77C14E3E-419C-458C-9751-AA9CF8835D94Q40293688-A2B1DC79-2738-4682-AF0C-F524FA91BC0BQ41700021-1DA1EB04-7460-4508-A853-D4A479B8F119Q41907486-170CE430-364F-4644-9DB2-15BB3967064AQ41965935-C29F8C5E-4BEB-4CF5-8731-ED62DEFEA254Q42531114-9AB83489-6930-45D5-AEAE-3C1A37B72650Q43719670-DA9C86A5-1ABB-48AD-A5EA-C3988B227D5AQ46829836-225BC997-4DBF-400F-9A2B-82A4A25103EBQ47318287-517DB415-F934-440C-A8D2-A56DF62C74CCQ51128244-A6DC6516-49BA-4028-ACA9-4ADFF15881B8Q51214913-94EC7696-2716-4B39-9F69-45CA49ECE622Q59320195-826366AE-D371-4618-B4DC-6C645428B66B
P2860
Systems biology of yeast: enabling technology for development of cell factories for production of advanced biofuels.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@en
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@nl
type
label
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@en
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@nl
prefLabel
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@en
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@nl
P1476
Systems biology of yeast: enab ...... oduction of advanced biofuels.
@en
P2093
Bouke de Jong
P304
P356
10.1016/J.COPBIO.2011.11.021
P577
2011-12-12T00:00:00Z