Interactions of respiration and the bradycardia of submersion in harbor seals.

Six harbor seals with percutaneous tracheostomies were artificially ventilated while immersed. Changes in the oxygen content of the inspired gas and in the minute-volume altered the magnitude of the bradycardia observed after the animal had been submerged for 30 s. The average heart rate in five seals changed from 16.7 (S.D. = 4.4) beats per minute during artificial ventilation with N2, to 58.7 (S.D. = 10.4) beats per minute while breathing air, but this cardiac chronotropic effect of oxygen was blocked by addition of 7% CO2 to the inspired gas. Ventilatory minute-volumes above approximately 3 litres/min caused cardiac acceleration in a manner related to ventilation; below this, changes in heart rate were inconsistent. While being artificially ventilated with air, the average heart rate in five seals changed from 16.5 beats per minute to 73.4 beats per minute as ventilation was increased from 0 to greater than 8 litres/min. These experiments demonstrate that O2, CO2, and ventilatory minute-volume have significant effects upon the heart rate of seals under water and suggest the presence of chemoreceptor-mediated effects on heart rate during submersion.     

The Role of the <Emphasis Type="Italic">sigB</Emphasis> Gene in the General Stress Response of <Emphasis Type="Italic">Listeria monocytogenes</Emphasis> Varies between a Strain of Serotype 1/2a and a Strain of Serotype 4c

The ability of Listeria monocytogenes to resist many adverse environmental conditions has been attributed in part to activation of the alternative sigma factor ς^B, encoded by the sigB gene. The ability of this pathogen to survive and grow under stress conditions varies between strains within the species. The current study was undertaken to determine whether the role played by the sigB gene in the stress response varies among strains of different serotypes. Null mutations were generated in the sigB genes of L. monocytogenes L61 (serotype 1/2a) and L99 (serotype 4c), and the survival of the resulting mutants was compared with that of the wild-type strains under osmotic, oxidative, and carbon starvation stress conditions and on exposure to bacteriocins, ethanol, acid, and heat. Except in a few cases, strain L61 displayed greater dependence on the sigB products for survival of adverse conditions than did strain L99. The results of this study indicated that the relative importance of the sigB gene in the stress response is not the same in all strains of L. monocytogenes, and this difference may be specific to serotype groupings within the species. Received: 8 May 2002 / Accepted: 27 August 2002