Use of at-line and in-situ near-infrared spectroscopy to monitor biomass in an industrial fed-batch Escherichia coli process.
about
Detecting cell lysis using viscosity monitoring in E. coli fermentation to prevent product loss.Optical sensor systems for bioprocess monitoring.A comparative analysis of industrial Escherichia coli K-12 and B strains in high-glucose batch cultivations on process-, transcriptome- and proteome level.Microbial biomass estimation.Near infrared spectroscopy for bioprocess monitoring and control: current status and future trends.A combined approach of generalized additive model and bootstrap with small sample sets for fault diagnosis in fermentation process of glutamate.In situ sensor techniques in modern bioprocess monitoring.Bioreactor monitoring with spectroscopy and chemometrics: a review.On-line soft sensing in upstream bioprocessing.Parallel online multi-wavelength (2D) fluorescence spectroscopy in each well of a continuously shaken microtiter plate.Does Nonlinear Modeling Play a Role in Plasmid Bioprocess Monitoring Using Fourier Transform Infrared Spectra?Metabolic profiling of recombinant Escherichia coli cultivations based on high-throughput FT-MIR spectroscopic analysis.Improvement of bioprocess monitoring: development of novel concepts.In situ near-infrared (NIR) versus high-throughput mid-infrared (MIR) spectroscopy to monitor biopharmaceutical production.Towards better understanding of an industrial cell factory: investigating the feasibility of real-time metabolic flux analysis in Pichia pastoris.In situ near infrared spectroscopy for analyte-specific monitoring of glucose and ammonium in streptomyces coelicolor fermentations.A tool for selective inline quantification of co-eluting proteins in chromatography using spectral analysis and partial least squares regression.In-situ monitoring of Saccharomyces cerevisiae ITV01 bioethanol process using near-infrared spectroscopy NIRS and chemometrics.On-line near-infrared spectroscopy optimizing and monitoring biotransformation process of γ-aminobutyric acid.Combined shifted-excitation Raman difference spectroscopy and support vector regression for monitoring the algal production of complex polysaccharides.Controlling the feed rate of propanol to optimize erythromycin fermentation by on-line capacitance and oxygen uptake rate measurement.Industrializing Autologous Adoptive Immunotherapies: Manufacturing Advances and Challenges.In situNIR spectroscopy monitoring of plasmid production processes: effect of producing strain, medium composition and the cultivation strategy
P2860
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P2860
Use of at-line and in-situ near-infrared spectroscopy to monitor biomass in an industrial fed-batch Escherichia coli process.
description
2002 nî lūn-bûn
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2002年の論文
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2002年学术文章
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2002年学术文章
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2002年学术文章
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2002年学术文章
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2002年学术文章
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2002年學術文章
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name
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@en
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@nl
type
label
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@en
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@nl
prefLabel
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@en
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@nl
P2093
P2860
P356
P1476
Use of at-line and in-situ nea ...... atch Escherichia coli process.
@en
P2093
Brian McNeil
Linda M Harvey
Rumpai Gaensakoo
S Alison Arnold
P2860
P304
P356
10.1002/BIT.10383
P577
2002-11-01T00:00:00Z