Effect of Nutrient Concentration on the Growth of
            <i>Escherichia coli</i>

Shehata, T. E.; Marr, Allen G.

doi:10.1128/jb.107.1.210-216.1971

Cited by 210 publications

(110 citation statements)

References 26 publications

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“…The use of E. coli as an indicator organism for detecting faecal pollution of waters and its propensity to colonize foodstuffs show that this bacterium is also capable of surviving for long periods of time in terrestrial and aqueous environments, far removed from the mammalian bowel. Further evidence of its ability to survive in oligotrophic environments comes from the fact that it can scavenge submicromolar concentrations of glucose and tryptophan (Shehata and Marr, 1971).…”

mentioning

confidence: 99%

Laboratory strains of Escherichia coli: model citizens or deceitful delinquents growing old disgracefully?

Hobman¹,

Penn²,

Pallen

2007

Molecular Microbiology

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SummaryEscherichia coli stands unchallenged as biology's premier model organism. However, we propose, equipped with insights from the post-genomic era, a contrary view: that microbiology's chief idol has feet of clay. E. coli laboratory strains, particularly E. coli K-12, are far from model citizens, but instead degenerate and deceitful delinquents growing old disgracefully in our scientific institutions. E. coli K-12 is neither archetype nor ancestor. In addition, it has a far from optimal provenance for a model organism, with strong grounds for believing that current versions of the strain are quite distinct from any original wild-type free-living ancestor. In addition, it is usually studied under conditions far removed from its natural habitats and in ignorance of the selective pressures that have shaped its evolution. Fortunately, a flood of information from high-throughput genome sequencing, together with a new 'eco-evo' view of this model organism, promises to help put K-12 better into context.

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mentioning

confidence: 99%

Laboratory strains of Escherichia coli: model citizens or deceitful delinquents growing old disgracefully?

Hobman¹,

Penn²,

Pallen

2007

Molecular Microbiology

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“…The rate of microbiai degradation is believed to reflect the assimilation of mineral nutrients from the surrounding habitat (Golterman. 1975;Little etal.. 1979;Shenta & Marr. 1971;Taylor, 1949).…”

Section: Discussionmentioning

confidence: 99%

Assay for biologically available phosphorus using proteolytic Aeromonas hydrophila

Ratsep

Sjogren

1984

Freshwater Biology

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1. A simple and inexpensive assay was developed to determine the amount of biologically available phosphorus (BAP) present in freshwater.2. BAP was measured by using Aeromonas hydrophila in a proteolytic assay system in which the release of the chromogen from an insoluble azure dye derivative of hide powder (HPA) was determined spectrophotometrically. The time necessary to hydrolyse 50% of the HPA was found to be directly dependent on the amount of BAP present. BAP within the range 2-250 ^g 1~' phosphate-phosphorus was detected.3. Our data suggest that the application of this assay for the measurement of BAP in freshwater offers the potential of monitoring the biological response of a freshwater ecosystem to phosphorus.

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“…As was outlined in the introduction section, cells undergo severe physiological changes in the transition from unlimited to limited growth, for example changes in cell size. 45,46 Using the derived physiological variable volumetric mass biodensity, the physiological changes in mean cell size in batch/fed-batch transitions were successfully observed. Furthermore, changes in the cell size distribution were observed as indicated by flow cytometric measurements (Fig.…”

Section: Physiological Interpretation Of the Change In The Biodensitymentioning

confidence: 99%

A novel real‐time method to estimate volumetric mass biodensity based on the combination of dielectric spectroscopy and soft‐sensors

Ehgartner

Sagmeister

Herwig

et al. 2014

J of Chemical Tech & Biotech

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BACKGROUND The PAT initiative encourages designing, analyzing, and controlling manufacturing through timely measurements. Dielectric measurements and first principle soft‐sensors emerged as valuable real‐time bioprocess analytical PAT tools to improve process understanding and control capabilities. RESULTS The estimation of a novel physiological variable, bio‐density is presented, using a combination of two PAT sensors, dielectric spectroscopy and a soft‐sensor based on first principle elemental balances. Within this contribution, calibrations for the estimation of biomass dry weight using dielectric measurements were found to change in the transition from batch‐ to fed‐batch and within the induction phase for two recombinant E. coli bioprocesses. This was explained by a change in cell size, as indicated by flow cytometric measurements, light microscopy and changes in the beta dispersion dielectric spectrum. Biomass dry weight was accurately determined using a first principle soft‐sensor. The combination of both signals allowed the real‐time estimation of a new physiological variable, interpreted as bio‐density. Applying this concept, batch/fed‐batch and induction phase physiological changes were successfully observed in real time. Furthermore, a correlation with the specific product titer was observed. CONCLUSION This contribution enhances the application spectrum of dielectric measurements and soft‐sensors for the detection of physiological changes and recombinant product estimation, aiming at more efficient design, monitoring and control of bioprocesses as demanded by the process analytical technology (PAT) initiative. © 2014 Society of Chemical Industry

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Effect of Nutrient Concentration on the Growth of Escherichia coli

Cited by 210 publications

References 26 publications

Laboratory strains of Escherichia coli: model citizens or deceitful delinquents growing old disgracefully?

Laboratory strains of Escherichia coli: model citizens or deceitful delinquents growing old disgracefully?

Assay for biologically available phosphorus using proteolytic Aeromonas hydrophila

A novel real‐time method to estimate volumetric mass biodensity based on the combination of dielectric spectroscopy and soft‐sensors

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