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Applied and Environmental Microbiology, April 2002, p. 1794-1802, Vol. 68, No. 4
0099-2240/02/$04.00+0     DOI: 10.1128/AEM.68.4.1794-1802.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

Responses of Listeria monocytogenes to Acid Stress and Glucose Availability Revealed by a Novel Combination of Fluorescence Microscopy and Microelectrode Ion-Selective Techniques

Lana Shabala,^1* Birgitte Budde,² Tom Ross,¹ Henrik Siegumfeldt,² Mogens Jakobsen,² and Tom McMeekin¹

School of Agricultural Science, University of Tasmania, Hobart, Tasmania 7001, Australia,¹ Department of Dairy and Food Science, The Royal Veterinary and Agricultural University, DK-1958 Frederiksberg C, Denmark²

Received 2 July 2001/ Accepted 15 January 2002

Fluorescence ratio imaging microscopy and microelectrode ion flux estimation techniques were combined to study mechanisms of pH homeostasis in Listeria monocytogenes subjected to acid stress at different levels of glucose availability. This novel combination provided a unique opportunity to measure changes in H⁺ at either side of the bacterial membrane in real time and therefore to evaluate the rate of H⁺ flux across the bacterial plasma membrane and its contribution to bacterial pH homeostasis. Responses were assessed at external pHs (pH_o) between 3.0 and 6.0 for three levels of glucose (0, 1, and 10 mM) in the medium. Both the intracellular pH (pH_i) and net H⁺ fluxes were affected by the glucose concentration in the medium, with the highest absolute values corresponding to the highest glucose concentration. In the presence of glucose, the pH_i remained above 7.0 within a pH_o range of 4 to 6 and decreased below pH_o 4. Above pH_o 4, H⁺ extrusion increased correspondingly, with the maximum value at pH_o 5.5, and below pH_o 4, a net H⁺ influx was observed. Without glucose in the medium, the pH_i decreased, and a net H⁺ influx was observed below pH_o 5.5. A high correlation (R = 0.75 to 0.92) between the pH_i and net H⁺ flux changes is reported, indicating that the two processes are complementary. The results obtained support other reports indicating that membrane transport processes are the main contributors to the process of pH_i homeostasis in L. monocytogenes subjected to acid stress.

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* Corresponding author. Mailing address: School of Agricultural Science, University of Tasmania, GPO Box 252-54, Hobart, Tas 7001, Australia. Phone: 61 (03) 6226 2620. Fax: 61 (03) 6226 2722. E-mail: L.Shabala{at}utas.edu.au.

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Applied and Environmental Microbiology, April 2002, p. 1794-1802, Vol. 68, No. 4
0099-2240/02/$04.00+0     DOI: 10.1128/AEM.68.4.1794-1802.2002
Copyright © 2002, American Society for Microbiology. All Rights Reserved.

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