An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria

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An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria. / Rasmussen, Randi Engelberth; Erstad, Simon Matthé; Ramos Martinez, Erick Miguel; Fimognari, Lorenzo; de Porcellinis, Alice Jara; Sakuragi, Yumiko.

In: Microbial Cell Factories, Vol. 15, 186, 2016.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Rasmussen, RE, Erstad, SM, Ramos Martinez, EM, Fimognari, L, de Porcellinis, AJ & Sakuragi, Y 2016, 'An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria', Microbial Cell Factories, vol. 15, 186. https://doi.org/10.1186/s12934-016-0587-3

APA

Rasmussen, R. E., Erstad, S. M., Ramos Martinez, E. M., Fimognari, L., de Porcellinis, A. J., & Sakuragi, Y. (2016). An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria. Microbial Cell Factories, 15, [186]. https://doi.org/10.1186/s12934-016-0587-3

Vancouver

Rasmussen RE, Erstad SM, Ramos Martinez EM, Fimognari L, de Porcellinis AJ, Sakuragi Y. An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria. Microbial Cell Factories. 2016;15. 186. https://doi.org/10.1186/s12934-016-0587-3

Author

Rasmussen, Randi Engelberth ; Erstad, Simon Matthé ; Ramos Martinez, Erick Miguel ; Fimognari, Lorenzo ; de Porcellinis, Alice Jara ; Sakuragi, Yumiko. / An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria. In: Microbial Cell Factories. 2016 ; Vol. 15.

Bibtex

@article{94fce131ae904f67b4b8f8cc52e4fd7c,
title = "An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria",
abstract = "BACKGROUND: Cyanobacteria are photosynthetic bacteria that thrive in diverse ecosystems and play major roles in the global carbon cycle. The abilities of cyanobacteria to fix atmospheric CO2 and to allocate the fixed carbons to chemicals and biofuels have attracted growing attentions as sustainable microbial cell factories. Better understanding of the activities of enzymes involved in the central carbon metabolism would lead to increasing product yields. Currently cell-free lysates are the most widely used method for determination of intracellular enzyme activities. However, due to thick cell walls, lysis of cyanobacterial cells is inefficient and often laborious. In some cases radioisotope-labeled substrates can be fed directly to intact cells; however, label-free assays are often favored due to safety and practical reasons.RESULTS: Here we show an easy and highly efficient method for permeabilization of the cyanobacteria Synechococcus sp. PCC 7002 and Synechocystis sp. PCC 6803, and determination of two intracellular enzymes, ribulose-1,5-bisphosphate carboxylase/decarboxylase (Rubisco) and glucose-6-phosphate dehydrogenase (G6PDH), that play pivotal roles in the central carbon metabolism in cyanobacteria. Incubation of the cyanobacterial cells in the commercially available B-PER reagent for 10 min permeabilized the cells, as confirmed by the SYTOX Green staining. There was no significant change in the cell shape and no major loss of intracellular proteins was observed during the treatment. When used directly in the assays, the permeabilized cells exhibited the enzyme activities that are comparable or even higher than those detected for cell-free lysates. Moreover, the permeabilized cells could be stored at -20 °C without losing the enzyme activities. The permeabilization process and subsequent activity assays were successfully adapted to the 96-well plate system.CONCLUSIONS: An easy, efficient and scalable permeabilization protocol was established for cyanobacteria. The permeabilized cells can be directly applied for measurement of G6PDH and Rubisco activities without using radioisotopes and the protocol may be readily adapted to studies of other cyanobacterial species and other intracellular enzymes. The permeabilization and enzyme assays can be performed in 96-well plates in a high-throughput manner.",
author = "Rasmussen, {Randi Engelberth} and Erstad, {Simon Matth{\'e}} and {Ramos Martinez}, {Erick Miguel} and Lorenzo Fimognari and {de Porcellinis}, {Alice Jara} and Yumiko Sakuragi",
year = "2016",
doi = "10.1186/s12934-016-0587-3",
language = "English",
volume = "15",
journal = "Microbial Cell",
issn = "1475-2859",
publisher = "BioMed Central",

}

RIS

TY - JOUR

T1 - An easy and efficient permeabilization protocol for in vivo enzyme activity assays in cyanobacteria

AU - Rasmussen, Randi Engelberth

AU - Erstad, Simon Matthé

AU - Ramos Martinez, Erick Miguel

AU - Fimognari, Lorenzo

AU - de Porcellinis, Alice Jara

AU - Sakuragi, Yumiko

PY - 2016

Y1 - 2016

N2 - BACKGROUND: Cyanobacteria are photosynthetic bacteria that thrive in diverse ecosystems and play major roles in the global carbon cycle. The abilities of cyanobacteria to fix atmospheric CO2 and to allocate the fixed carbons to chemicals and biofuels have attracted growing attentions as sustainable microbial cell factories. Better understanding of the activities of enzymes involved in the central carbon metabolism would lead to increasing product yields. Currently cell-free lysates are the most widely used method for determination of intracellular enzyme activities. However, due to thick cell walls, lysis of cyanobacterial cells is inefficient and often laborious. In some cases radioisotope-labeled substrates can be fed directly to intact cells; however, label-free assays are often favored due to safety and practical reasons.RESULTS: Here we show an easy and highly efficient method for permeabilization of the cyanobacteria Synechococcus sp. PCC 7002 and Synechocystis sp. PCC 6803, and determination of two intracellular enzymes, ribulose-1,5-bisphosphate carboxylase/decarboxylase (Rubisco) and glucose-6-phosphate dehydrogenase (G6PDH), that play pivotal roles in the central carbon metabolism in cyanobacteria. Incubation of the cyanobacterial cells in the commercially available B-PER reagent for 10 min permeabilized the cells, as confirmed by the SYTOX Green staining. There was no significant change in the cell shape and no major loss of intracellular proteins was observed during the treatment. When used directly in the assays, the permeabilized cells exhibited the enzyme activities that are comparable or even higher than those detected for cell-free lysates. Moreover, the permeabilized cells could be stored at -20 °C without losing the enzyme activities. The permeabilization process and subsequent activity assays were successfully adapted to the 96-well plate system.CONCLUSIONS: An easy, efficient and scalable permeabilization protocol was established for cyanobacteria. The permeabilized cells can be directly applied for measurement of G6PDH and Rubisco activities without using radioisotopes and the protocol may be readily adapted to studies of other cyanobacterial species and other intracellular enzymes. The permeabilization and enzyme assays can be performed in 96-well plates in a high-throughput manner.

AB - BACKGROUND: Cyanobacteria are photosynthetic bacteria that thrive in diverse ecosystems and play major roles in the global carbon cycle. The abilities of cyanobacteria to fix atmospheric CO2 and to allocate the fixed carbons to chemicals and biofuels have attracted growing attentions as sustainable microbial cell factories. Better understanding of the activities of enzymes involved in the central carbon metabolism would lead to increasing product yields. Currently cell-free lysates are the most widely used method for determination of intracellular enzyme activities. However, due to thick cell walls, lysis of cyanobacterial cells is inefficient and often laborious. In some cases radioisotope-labeled substrates can be fed directly to intact cells; however, label-free assays are often favored due to safety and practical reasons.RESULTS: Here we show an easy and highly efficient method for permeabilization of the cyanobacteria Synechococcus sp. PCC 7002 and Synechocystis sp. PCC 6803, and determination of two intracellular enzymes, ribulose-1,5-bisphosphate carboxylase/decarboxylase (Rubisco) and glucose-6-phosphate dehydrogenase (G6PDH), that play pivotal roles in the central carbon metabolism in cyanobacteria. Incubation of the cyanobacterial cells in the commercially available B-PER reagent for 10 min permeabilized the cells, as confirmed by the SYTOX Green staining. There was no significant change in the cell shape and no major loss of intracellular proteins was observed during the treatment. When used directly in the assays, the permeabilized cells exhibited the enzyme activities that are comparable or even higher than those detected for cell-free lysates. Moreover, the permeabilized cells could be stored at -20 °C without losing the enzyme activities. The permeabilization process and subsequent activity assays were successfully adapted to the 96-well plate system.CONCLUSIONS: An easy, efficient and scalable permeabilization protocol was established for cyanobacteria. The permeabilized cells can be directly applied for measurement of G6PDH and Rubisco activities without using radioisotopes and the protocol may be readily adapted to studies of other cyanobacterial species and other intracellular enzymes. The permeabilization and enzyme assays can be performed in 96-well plates in a high-throughput manner.

U2 - 10.1186/s12934-016-0587-3

DO - 10.1186/s12934-016-0587-3

M3 - Journal article

C2 - 27825349

VL - 15

JO - Microbial Cell

JF - Microbial Cell

SN - 1475-2859

M1 - 186

ER -

ID: 168877790