Modelling the Effect of Temperature on the Initial Decline during the Lag Phase of Geotrichum candidum

Valı́k, Lubomı́r; Šipošová, Petra; Koňuchová, Martina; Medveďová, Alžbeta

doi:10.3390/app11167344

Cited by 3 publications

(5 citation statements)

References 35 publications

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“…2021 [24] PARAMETER FITTING TO THE BARANYI MODEL Using parameter fitting procedures in order to simultaneously find all Baranyi & Roberts model parameters that provide the best fit to the entire growth curve. Then the lag is defined as ln(1+ 1/𝑞 0 )/r where r is the maximal growth rate and 𝑞 0 represents the physiological state of the inoculum.…”

Section: Methodsmentioning

confidence: 99%

“…In such cases, some assumptions are needed to calculate the lag phase duration with sufficient accuracy. If one assumes that there is no population growth during the lag phase and then cells start synchronically dividing at a constant growth rate, the end of the lag phase can be calculated as the intersection between the tangent line to the point of maximum growth rate and the y = log(N0) line, where N0 is the inoculation density (hereinafter “tangent method” [6]; see for example: [12,15,24]). This is in fact the most frequently used method of calculating the lag duration.…”

Section: Introductionmentioning

confidence: 99%

“…Viability counts (CFU) provide precise estimates of cell abundance even in a small population, however, this technique is time-consuming, requires previously determined culture dilutions, and is difficult to automatize and scale up. Nevertheless, due to its high sensitivity, it's broadly used in food safety control [24,25]. Flow cytometry has a broad detection spectrum and it enables simultaneous measurements of various cell properties e.g.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

How to determine microbial lag phase duration?

Opalek

Smug

Wloch‐Salamon

2022

Preprint

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The lag phase is a temporary non-replicative period observed when a microbial population is introduced to a new nutrient-rich environment. Its duration can have a pronounced effect on population fitness, and it is often measured in laboratory conditions. However, calculating the lag phase length may be challenging and method and parameters dependent. Moreover, the details of these methods and parameters used throughout experimental studies are often under-reported. Here we discuss the most frequently used methods in experimental and theoretical studies, and we point out some inconsistencies between them. Using experimental and simulated data we study the performance of these methods depending on the frequency of population size measurements, and parameters determining the growth curve shape, such as growth rate. It turns out that the sensitivity to each of these parameters depends on the lag calculation methods. For example, lag duration calculation by parameter fitting to a logistic model is very robust to low frequency of measurements, but it may be highly biased for growth curves with low growth rate. On the contrary, the method based on finding the point where growth acceleration is the highest, is robust to low growth rate, but highly sensitive to low frequency of measurements and the level of noise in the data. Based on our results, we propose a decision tree to choose a method most suited to one's data. Finally, we developed a web tool where the lag duration can be calculated based on the user-specified growth curve data, and for various explicitly specified methods, parameters, and data pre-processing techniques.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

How to determine microbial lag phase duration?

Opalek

Smug

Wloch‐Salamon

2022

Preprint

View full text Add to dashboard Cite

show abstract

“…If one assumes that there is no population growth during the lag phase and then cells start synchronically dividing at a constant growth rate, the end of the lag phase can be calculated as the intersection between the tangent line to the point of maximum growth rate and the y = log(N0) line, where N0 is the inoculation density (hereinafter ‘ tangent method ’ (Bertrand, 2019); e.g. Cerulus et al., 2018; Jomdecha & Prateepasen, 2011; Valík et al., 2021). This is in fact the most frequently used method of calculating the lag duration.…”

Section: Introductionmentioning

confidence: 99%

“…Scale) The population size does not increase its size during the lag (or it increases very slowly) and then starts growing exponentially with a constant growth rateIf the growth rate varies, it may be challenging to find the 'real' maximal growth rate. Moreover, the initial population size needs to be determined with high confidenceValík et al (2021)…”

mentioning

confidence: 99%

Microbial lag calculator: A shiny‐based application and an R package for calculating the duration of microbial lag phase

Smug,

Opalek,

Necki

et al. 2023

Methods Ecol Evol

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The duration of lag phase can be used as an organismal fitness marker; however, it is often underreported as its estimation may be challenging and method and parameters dependent. Moreover, there are no publicly available tools to calculate lag duration by different methods. We developed a shiny‐based web application (https://microbialgrowth.shinyapps.io/lag_calulator/) where the lag duration can be calculated based on the user‐specified growth curve data, and for various explicitly specified methods, parameters and data preprocessing techniques. Additionally, we release an R package ‘miLAG’ that can be further customised and developed. We also describe in short the assumptions, advantages and disadvantages of the most popular lag calculation methods and propose a decision tree to choose a method most suited to one's data. Finally, we show some working examples of how to calculate lag duration using our shiny server.

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