Minireactor-based high-throughput temperature profiling for the optimization of microbial and enzymatic processes

Kunze, Martin; Lattermann, Clemens; Diederichs, Sylvia; Kroutil, Wolfgang; Büchs, Jochen

doi:10.1186/1754-1611-8-22

Cited by 21 publications

(19 citation statements)

References 52 publications

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“…S6). For both devices, Synergy Mx and Synergy 4, the average temperatures show increasing standard deviation of ±0.8 to 1.3°C and ±0.3 to 0.9°C, respectively with increasing temperatures, which corresponds well to typical standard deviations of ±0.5 to 0.9°C at 37°C over the whole plate [13,20,30,32].…”

Section: Biotechnology Journalmentioning

confidence: 55%

“…The temperature‐dependent enzyme activities were fitted by an Arrhenius equation extended by a Hougen–Watson expression for the temperature optimum of the catalyst (Eq. ) .

v_{\max} = \frac{A \cdot e^{\frac{- E_{a}}{RT}}}{1 + B \cdot e^{\frac{- ΔG}{RT}}}

…”

Section: Resultsmentioning

confidence: 99%

“…The temperature-dependent enzyme activities were fitted by an Arrhenius equation extended by a Hougen-Watson expression for the temperature optimum of the catalyst (Eq. 3) [32,50]. Therein, the numerator contains the constant (A) and the activation energy (E a ), the denominator contains the con-stant (B) and the free energy of the denaturation reaction (ΔG) (Supporting information, Table S3).…”

Section: Enzyme Activities Deviate Due To Spatial and Temporal Tempermentioning

confidence: 99%

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Enzyme activity deviates due to spatial and temporal temperature profiles in commercial microtiter plate readers

Grosch

Sieben

Lattermann

et al. 2016

Biotechnology Journal

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Microtiter plates (MTP) and automatized techniques are increasingly applied in the field of biotechnology. However, the susceptibility of MTPs to edge effects such as thermal gradients can lead to high variation of measured enzyme activities. In an effort to enhance experimental reliability, to quantify, and to minimize instrument-caused deviations in enzyme kinetics between two MTP-readers, we comprehensively quantified temperature distribution in 96-well MTPs. We demonstrated the robust application of the absorbance dye cresol red as easily applicable temperature indicator in cuvettes and MTPs and determined its accuracy to ±0.16°C. We then quantified temperature distributions in 96-well MTPs revealing temperature deviations over single MTP of up to 2.2°C and different patterns in two commercial devices (BioTek Synergy 4 and Synergy Mx). The obtained liquid temperature was shown to be substantially controlled by evaporation. The temperature-induced enzyme activity variation within MTPs amounted to about 20 %. Activity deviations between MTPs and to those in cuvettes were determined to 40 % due to deviations from the set temperature in MTPs. In conclusion, we propose a better control of experimental conditions in MTPs or alternative experimental systems for reliable determination of kinetic parameters for bioprocess development.

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Section: Biotechnology Journalmentioning

confidence: 55%

“…The temperature‐dependent enzyme activities were fitted by an Arrhenius equation extended by a Hougen–Watson expression for the temperature optimum of the catalyst (Eq. ) .

v_{\max} = \frac{A \cdot e^{\frac{- E_{a}}{RT}}}{1 + B \cdot e^{\frac{- ΔG}{RT}}}

…”

Section: Resultsmentioning

confidence: 99%

Section: Enzyme Activities Deviate Due To Spatial and Temporal Tempermentioning

confidence: 99%

See 1 more Smart Citation

Enzyme activity deviates due to spatial and temporal temperature profiles in commercial microtiter plate readers

Grosch

Sieben

Lattermann

et al. 2016

Biotechnology Journal

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“…The substrate concentrations (31) and (32) in the dimensionless form are expressed in a slightly more closed form,…”

Section: Nonlinear Steady-state Solutionmentioning

confidence: 99%

Modelling the enzyme catalysed substrate conversion in a microbioreactor acting in continuous flow mode

Baronas

Kulys

Petkevičius

2018

NAMC

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A model for the numerical simulation of the action of microbioreactor acting in the continuous flow mode was developed. The microbioreactor system was mathematically modelled by a two-compartment model based on transient reaction-diffusion equations containing a nonlinear term related to the Michaelis-Menten kinetics of the enzymatic reaction. The effectiveness of microbioreactor and the process duration were numerically and partially analytically analysed at transition and steady-state conditions in a wide range of model parameters. The computational simulation was carried out using the finite difference technique. The performed calculations showed nonlinear effects of the internal and external diffusion limitations on the effectiveness and process duration.

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“…The identification depends heavily on gene and protein abundance, and although we are aware that a large part of the transcriptome and proteome remains unseen, it can be assumed that the identified genes and enzymes might represent the predominant (in terms of dosage per cell and expression levels) and the most active genes and enzymes under the tested conditions. A further evaluation of enzyme performance under multiple conditions using high‐throughput parameter (Kunze et al ., ) may allow sorting out the possibility to identify highly active, efficient and promiscuous (Pandya et al ., ) enzymes under real or close‐to‐real process conditions, independently of the further optimization phase to which the enzyme can be subjected (Bornscheuer et al ., ).…”

Section: Final Considerations: Backbones Of Interest For Finding Markmentioning

confidence: 99%

Estimating the success of enzyme bioprospecting through metagenomics: current status and future trends

Ferrer

Martínez-Martínez

Bargiela

et al. 2015

Microbial Biotechnology

185

149

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SummaryRecent reports have suggested that the establishment of industrially relevant enzyme collections from environmental genomes has become a routine procedure. Across the studies assessed, a mean number of approximately 44 active clones were obtained in an average size of approximately 53 000 clones tested using naïve screening protocols. This number could be significantly increased in shorter times when novel metagenome enzyme sequences obtained by direct sequencing are selected and subjected to high‐throughput expression for subsequent production and characterization. The pre‐screening of clone libraries by naïve screens followed by the pyrosequencing of the inserts allowed for a 106‐fold increase in the success rate of identifying genes encoding enzymes of interest. However, a much longer time, usually on the order of years, is needed from the time of enzyme identification to the establishment of an industrial process. If the hit frequency for the identification of enzymes performing at high turnover rates under real application conditions could be increased while still covering a high natural diversity, the very expensive and time‐consuming enzyme optimization phase would likely be significantly shortened. At this point, it is important to review the current knowledge about the success of fine‐tuned naïve‐ and sequence‐based screening protocols for enzyme selection and to describe the environments worldwide that have already been subjected to enzyme screen programmes through metagenomic tools. Here, we provide such estimations and suggest the current challenges and future actions needed before environmental enzymes can be successfully introduced into the market.

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Minireactor-based high-throughput temperature profiling for the optimization of microbial and enzymatic processes

Cited by 21 publications

References 52 publications

Enzyme activity deviates due to spatial and temporal temperature profiles in commercial microtiter plate readers

Enzyme activity deviates due to spatial and temporal temperature profiles in commercial microtiter plate readers

Modelling the enzyme catalysed substrate conversion in a microbioreactor acting in continuous flow mode

Estimating the success of enzyme bioprospecting through metagenomics: current status and future trends

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