Whole‐cell Escherichia coli lactate biosensor for monitoring mammalian cell cultures during biopharmaceutical production
暂无分享,去创建一个
Cleo Kontoravdi | Paul S. Freemont | Karen M. Polizzi | P. Freemont | K. Polizzi | C. Kontoravdi | Lisa Goers | Catherine Ainsworth | Cher Hui Goey | Lisa Goers | C. H. Goey | Catherine Ainsworth
[1] D. Xie,et al. Increased high-sensitivity C-reactive protein, erythrocyte sedimentation rate and lactic acid in stroke patients with internal carotid artery occlusion , 2015, Archives of medical science : AMS.
[2] M Rossi,et al. A protein biosensor for lactate. , 2000, Analytical biochemistry.
[3] J. Pittard,et al. The TyrR regulon , 2004, Molecular microbiology.
[4] Yanhe Ma,et al. Comparative Proteomic Insights into the Lactate Responses of Halophilic Salinicoccus roseus W12 , 2015, Scientific Reports.
[5] Jing-Juan Xu,et al. A sensitive biosensor for lactate based on layer-by-layer assembling MnO2 nanoparticles and lactate oxidase on ion-sensitive field-effect transistors. , 2005, Chemical communications.
[6] B. Piro,et al. The development of a reagentless lactate biosensor based on a novel conducting polymer. , 2006, Bioelectrochemistry.
[7] Alberto J. Palma,et al. A Portable Luminometer with a Disposable Electrochemiluminescent Biosensor for Lactate Determination , 2009, Sensors.
[8] G. Karypis,et al. Multivariate analysis of cell culture bioprocess data--lactate consumption as process indicator. , 2012, Journal of biotechnology.
[9] Huaqing Li,et al. A lactate electrochemical biosensor with a titanate nanotube as direct electron transfer promoter , 2008, Nanotechnology.
[10] Karen M Polizzi,et al. Opportunities for bioprocess monitoring using FRET biosensors. , 2013, Biochemical Society transactions.
[11] Matias D Zurbriggen,et al. Bacterial signaling systems as platforms for rational design of new generations of biosensors. , 2012, Current opinion in biotechnology.
[12] D. Wishart. Emerging applications of metabolomics in drug discovery and precision medicine , 2016, Nature Reviews Drug Discovery.
[13] S. Belkin,et al. Where microbiology meets microengineering: design and applications of reporter bacteria , 2010, Nature Reviews Microbiology.
[14] B. Ames,et al. Carcinogens are mutagens: a simple test system combining liver homogenates for activation and bacteria for detection. , 1973, Proceedings of the National Academy of Sciences of the United States of America.
[15] F. D’Acquisto,et al. Lactate Regulates Metabolic and Pro-inflammatory Circuits in Control of T Cell Migration and Effector Functions , 2015, PLoS biology.
[16] Geunbae Lim,et al. Mussel adhesive protein-based whole cell array biosensor for detection of organophosphorus compounds. , 2013, Biosensors & bioelectronics.
[17] Ashraf Amanullah,et al. Cell culture monitoring via an auto‐sampler and an integrated multi‐functional off‐line analyzer , 2009, Biotechnology progress.
[18] Elisa Michelini,et al. A 3D-printed device for a smartphone-based chemiluminescence biosensor for lactate in oral fluid and sweat. , 2014, The Analyst.
[19] Michael Tessaro,et al. Bacterial Whole-Cell Biosensor for Glutamine with Applications for Quantifying and Visualizing Glutamine in Plants , 2011, Applied and Environmental Microbiology.
[20] Amine Kamen,et al. A flow-injection (FI) mediated biosensor for on-line monitoring of lactate in mammalian cell culture , 1997 .
[21] Christian Kost,et al. Design and Characterization of Auxotrophy-Based Amino Acid Biosensors , 2012, PloS one.
[22] Sandeep Singh,et al. Biosensors based on electrochemical lactate detection: A comprehensive review , 2015, Biochemistry and biophysics reports.
[23] Jameson K. Rogers,et al. Synthetic biosensors for precise gene control and real-time monitoring of metabolites , 2015, Nucleic acids research.
[24] Paul S. Freemont,et al. Engineering Microbial Biosensors , 2013 .
[25] K. Killham,et al. Development of a novel, bioluminescence-based, fungal bioassay for toxicity testing. , 2002, Environmental microbiology.
[26] Ivan Razinkov,et al. Sensing array of radically coupled genetic biopixels , 2011, Nature.
[27] M. Hofnung,et al. SOS chromotest, a direct assay of induction of an SOS function in Escherichia coli K-12 to measure genotoxicity. , 1982, Proceedings of the National Academy of Sciences of the United States of America.
[28] I. Tanaka,et al. Structural and functional characterization of the LldR from Corynebacterium glutamicum: a transcriptional repressor involved in l-lactate and sugar utilization , 2008, Nucleic acids research.
[29] Matthew G. Vander Heiden,et al. Metabolic targets for cancer therapy , 2013, Nature Reviews Drug Discovery.
[30] M. Melkonian,et al. A long-term operating algal biosensor for the rapid detection of volatile toxic compounds , 2003, Journal of Applied Phycology.
[31] Otto S. Wolfbeis,et al. A fully reversible fiber optic lactate biosensor based on the intrinsic fluorescence of lactate monooxygenase , 1989 .
[32] Kelvin H. Lee,et al. Genomics in mammalian cell culture bioprocessing. , 2012, Biotechnology advances.
[33] Feng Li,et al. Cell culture processes for monoclonal antibody production , 2010, mAbs.
[34] Félix Pariente,et al. Design and characterization of a lactate biosensor based on immobilized lactate oxidase onto gold surfaces , 2006 .
[35] Guang Li,et al. Disposable L-lactate biosensor based on a screen-printed carbon electrode enhanced by graphene , 2016 .
[36] Julia Frunzke,et al. The development and application of a single-cell biosensor for the detection of l-methionine and branched-chain amino acids , 2012 .
[37] Martin Fussenegger,et al. A designer cell-based histamine-specific human allergy profiler , 2014, Nature Communications.
[38] Andrew J. Millar,et al. Development of a novel biosensor for the detection of arsenic in drinking water , 2007 .
[39] Cuiqing Ma,et al. Lactate Utilization Is Regulated by the FadR-Type Regulator LldR in Pseudomonas aeruginosa , 2012, Journal of bacteriology.
[40] V. Wendisch,et al. The Global Repressor SugR Controls Expression of Genes of Glycolysis and of the l-Lactate Dehydrogenase LdhA in Corynebacterium glutamicum , 2008, Journal of bacteriology.
[41] Roberto Kolter,et al. A Widely Conserved Gene Cluster Required for Lactate Utilization in Bacillus subtilis and Its Involvement in Biofilm Formation , 2009, Journal of bacteriology.
[42] Bin Su,et al. A novel biosensor array with a wheel-like pattern for glucose, lactate and choline based on electrochemiluminescence imaging. , 2014, The Analyst.
[43] Shekhar Bhansali,et al. Novel lactate and pH biosensor for skin and sweat analysis based on single walled carbon nanotubes , 2006 .
[44] Christopher V. Rao,et al. Collective Space-Sensing Coordinates Pattern Scaling in Engineered Bacteria , 2016, Cell.
[45] D. Boomsma,et al. Whole-cell biosensor for label-free detection of GPCR-mediated drug responses in personal cell lines. , 2015, Biosensors & bioelectronics.
[46] Alejandro San Martín,et al. A Genetically Encoded FRET Lactate Sensor and Its Use To Detect the Warburg Effect in Single Cancer Cells , 2013, PloS one.
[47] K. Polizzi,et al. The future for biosensors in biopharmaceutical production , 2014 .
[48] R. Larossa,et al. Oxidative stress detection with Escherichia coli harboring a katG'::lux fusion. , 1996, Applied and environmental microbiology.
[49] Richard P Van Duyne,et al. Lactate and sequential lactate-glucose sensing using surface-enhanced Raman spectroscopy. , 2007, Analytical chemistry.
[50] Y. Hasebe,et al. Lactate Biosensor Based on Coupled Lactate Oxidase/Peroxidase System Incorporated into the DNA/Poly(allylamine) Polyelectrolyte Membrane , 2005 .
[51] A. Agranat,et al. Simultaneous quantification of the fluorescent responses of an ensemble of bacterial sensors. , 2013, Biosensors & bioelectronics.
[52] Wei Yang,et al. A Novel Immobilization Enzyme Lactate Fluorescence Capillary Biosensor , 2009 .
[53] J. Badia,et al. Dual Role of LldR in Regulation of the lldPRD Operon, Involved in l-Lactate Metabolism in Escherichia coli , 2008, Journal of bacteriology.
[54] Franck Molina,et al. Detection of pathological biomarkers in human clinical samples via amplifying genetic switches and logic gates , 2015, Science Translational Medicine.
[55] Gyun Min Lee,et al. Effect of culture pH on erythropoietin production by Chinese hamster ovary cells grown in suspension at 32.5 and 37.0 degrees C. , 2005, Biotechnology and bioengineering.
[56] A. Bulich,et al. Use of the luminescent bacterial system for the rapid assessment of aquatic toxicity. , 1981, ISA transactions.
[57] P. Senior,et al. Regulation of nitrogen metabolism in Escherichia coli and Klebsiella aerogenes: studies with the continuous-culture technique , 1975, Journal of Bacteriology.
[58] Gary Walsh,et al. Biopharmaceutical benchmarks , 2000, Nature Biotechnology.
[59] Gary Walsh,et al. Biopharmaceutical benchmarks 2014 , 2014, Nature Biotechnology.
[60] S. Belkin. Microbial whole-cell sensing systems of environmental pollutants. , 2003, Current opinion in microbiology.
[61] L. Wong,et al. A novel in vivo β carotene biosensor for heavy metals detection. , 2015, Journal of environmental biology.
[62] N. Vijayasankaran,et al. Decreasing lactate level and increasing antibody production in Chinese Hamster Ovary cells (CHO) by reducing the expression of lactate dehydrogenase and pyruvate dehydrogenase kinases. , 2011, Journal of biotechnology.
[63] C. Kontoravdi,et al. Analysis of the landscape of biologically-derived pharmaceuticals in Europe: dominant production systems, molecule types on the rise and approval trends. , 2013, European journal of pharmaceutical sciences : official journal of the European Federation for Pharmaceutical Sciences.
[64] Yen-Hsiang Wang,et al. Synthetic biology: advancing the design of diverse genetic systems. , 2013, Annual review of chemical and biomolecular engineering.
[65] Kai Griebenow,et al. A comparative study of different protein immobilization methods for the construction of an efficient nano-structured lactate oxidase-SWCNT-biosensor. , 2015, Biosensors & bioelectronics.