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Electroporation Enhances the Metabolic Activity of Lactobacillus plantarum 564

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2013
FTB_51-4_446-452.pdf (169.5Kb)
Authors
Seratlić, Sanja
Bugarski, Branko
Radulović, Zorica
Dejmek, Petr
Wadso, Lars
Nedović, Viktor
Article (Published version)
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Abstract
The exposure of bacterial cells to pulsed electric fields (PEF) leads to the reversible formation of pores in the cell membrane if an applied energy is below the critical level. Therefore, the effect of electric field pulses with amplitudes below 14 kV/cm and the applied energy up to 12.2 J/cm(3) on the growth of Lactobacillus plantarum 564 cells was investigated. After PEF treatments, the growth of lactobacilli in De Man-Rogosa-Sharpe broth at 37 degrees C was monitored by isothermal calorimetry, absorbance and plate counts. All the applied treatments resulted in a higher growth rate of PEF-treated cells during early and mid-log phase, especially bacterial samples treated with lower field intensities (1.3-5.5 J/cm(3)). The transport of ions and molecules through the cell membrane (which facilitates the growth of electroporated lactobacilli) was particularly evident in the mid-exponential growth phase, where the doubling time was reduced more than 3 times after the exposure to electric... pulses of 5.5 Yore. The heat production rate during the growth of electroporated cells was also higher, indicating the enhanced metabolic activity of PEF-treated cells. Moreover, the electroporated cells had a better acidification ability than the untreated ones. It can be summarized that the applied PEF treatments with an energy input of below 12 J/cm(3) potentially induce reversible electroporation of the cell membrane, which has a positive impact on the growth and metabolic activity of the cells of lactobacilli.

Keywords:
Lactobacillus plantarum / pulsed electric fields / isothermal calorimetry
Source:
Food Technology and Biotechnology, 2013, 51, 4, 446-452
Publisher:
  • University of Zagreb
Funding / projects:
  • BASI-LEUS
  • Novel encapsulation and enzyme technologies for designing of new biocatalysts and biologically active compounds targeting enhancement of food quality, safety and competitiveness (RS-46010)

ISSN: 1330-9862

PubMed:

WoS: 000329768300002

Scopus: 2-s2.0-84902368913
[ Google Scholar ]
5
4
Handle
https://hdl.handle.net/21.15107/rcub_technorep_2267
URI
http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2267
Collections
  • Radovi istraživača / Researchers’ publications (TMF)
Institution/Community
Tehnološko-metalurški fakultet
TY  - JOUR
AU  - Seratlić, Sanja
AU  - Bugarski, Branko
AU  - Radulović, Zorica
AU  - Dejmek, Petr
AU  - Wadso, Lars
AU  - Nedović, Viktor
PY  - 2013
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/2267
AB  - The exposure of bacterial cells to pulsed electric fields (PEF) leads to the reversible formation of pores in the cell membrane if an applied energy is below the critical level. Therefore, the effect of electric field pulses with amplitudes below 14 kV/cm and the applied energy up to 12.2 J/cm(3) on the growth of Lactobacillus plantarum 564 cells was investigated. After PEF treatments, the growth of lactobacilli in De Man-Rogosa-Sharpe broth at 37 degrees C was monitored by isothermal calorimetry, absorbance and plate counts. All the applied treatments resulted in a higher growth rate of PEF-treated cells during early and mid-log phase, especially bacterial samples treated with lower field intensities (1.3-5.5 J/cm(3)). The transport of ions and molecules through the cell membrane (which facilitates the growth of electroporated lactobacilli) was particularly evident in the mid-exponential growth phase, where the doubling time was reduced more than 3 times after the exposure to electric pulses of 5.5 Yore. The heat production rate during the growth of electroporated cells was also higher, indicating the enhanced metabolic activity of PEF-treated cells. Moreover, the electroporated cells had a better acidification ability than the untreated ones. It can be summarized that the applied PEF treatments with an energy input of below 12 J/cm(3) potentially induce reversible electroporation of the cell membrane, which has a positive impact on the growth and metabolic activity of the cells of lactobacilli.
PB  - University of Zagreb
T2  - Food Technology and Biotechnology
T1  - Electroporation Enhances the Metabolic Activity of Lactobacillus plantarum 564
EP  - 452
IS  - 4
SP  - 446
VL  - 51
UR  - https://hdl.handle.net/21.15107/rcub_technorep_2267
ER  - 
@article{
author = "Seratlić, Sanja and Bugarski, Branko and Radulović, Zorica and Dejmek, Petr and Wadso, Lars and Nedović, Viktor",
year = "2013",
abstract = "The exposure of bacterial cells to pulsed electric fields (PEF) leads to the reversible formation of pores in the cell membrane if an applied energy is below the critical level. Therefore, the effect of electric field pulses with amplitudes below 14 kV/cm and the applied energy up to 12.2 J/cm(3) on the growth of Lactobacillus plantarum 564 cells was investigated. After PEF treatments, the growth of lactobacilli in De Man-Rogosa-Sharpe broth at 37 degrees C was monitored by isothermal calorimetry, absorbance and plate counts. All the applied treatments resulted in a higher growth rate of PEF-treated cells during early and mid-log phase, especially bacterial samples treated with lower field intensities (1.3-5.5 J/cm(3)). The transport of ions and molecules through the cell membrane (which facilitates the growth of electroporated lactobacilli) was particularly evident in the mid-exponential growth phase, where the doubling time was reduced more than 3 times after the exposure to electric pulses of 5.5 Yore. The heat production rate during the growth of electroporated cells was also higher, indicating the enhanced metabolic activity of PEF-treated cells. Moreover, the electroporated cells had a better acidification ability than the untreated ones. It can be summarized that the applied PEF treatments with an energy input of below 12 J/cm(3) potentially induce reversible electroporation of the cell membrane, which has a positive impact on the growth and metabolic activity of the cells of lactobacilli.",
publisher = "University of Zagreb",
journal = "Food Technology and Biotechnology",
title = "Electroporation Enhances the Metabolic Activity of Lactobacillus plantarum 564",
pages = "452-446",
number = "4",
volume = "51",
url = "https://hdl.handle.net/21.15107/rcub_technorep_2267"
}
Seratlić, S., Bugarski, B., Radulović, Z., Dejmek, P., Wadso, L.,& Nedović, V.. (2013). Electroporation Enhances the Metabolic Activity of Lactobacillus plantarum 564. in Food Technology and Biotechnology
University of Zagreb., 51(4), 446-452.
https://hdl.handle.net/21.15107/rcub_technorep_2267
Seratlić S, Bugarski B, Radulović Z, Dejmek P, Wadso L, Nedović V. Electroporation Enhances the Metabolic Activity of Lactobacillus plantarum 564. in Food Technology and Biotechnology. 2013;51(4):446-452.
https://hdl.handle.net/21.15107/rcub_technorep_2267 .
Seratlić, Sanja, Bugarski, Branko, Radulović, Zorica, Dejmek, Petr, Wadso, Lars, Nedović, Viktor, "Electroporation Enhances the Metabolic Activity of Lactobacillus plantarum 564" in Food Technology and Biotechnology, 51, no. 4 (2013):446-452,
https://hdl.handle.net/21.15107/rcub_technorep_2267 .

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