posted on 2012-08-03, 00:00authored byAnna Manara, Giovanni DalCorso, Cecilia Baliardini, Silvia Farinati, Daniela Cecconi, Antonella Furini
Pseudomonas putida is a saprophytic
bacterium with remarkable environmental adaptability and the capacity
to tolerate high concentrations of heavy metals. The strain P. putida-Cd001 was isolated from soil contaminated with
Cd, Zn and Pb. Membrane-associated and cytosolic proteomes were analyzed
to identify proteins whose expression was modulated in response to
250 μM CdSO4. We identified 44 protein spots in the
membrane and 21 in the cytosolic fraction differentially expressed
in Cd-treated samples compared to untreated controls. Outer membrane
porins from the OprD and OprI families were less abundant in bacteria
exposed to Cd, whereas those from the OprF and OprL, OprH and OprB
families were more abundant, reflecting the increased need to acquire
energy sources, the need to maintain membrane integrity and the process
of adaptation. Components of the efflux system, such as the CzcB subunit
of the CBA system, were also induced by Cd. Analysis of the cytosolic
proteome revealed that proteins involved in protein synthesis, degradation
and folding were induced along with enzymes that combat oxidative
stress, showing that the entire bacterial proteome is modulated by
heavy metal exposure. This analysis provides new insights into the
adaptation mechanisms used by P. putida-Cd001 to
survive in Cd-polluted environments.