ABSTRACT

Some microorganisms have evolved and therefore are able to rapidly adapt themselves to a constantly changing environment, thus developing tolerance or resistance to the increase of some specific stresses. The use of bioactive compounds from the native vegetation has been pointed out as a possible solution to the problems of control of bacterial resistance and proliferation. This work aimed to check the adaptation and cross adaptation of L. monocytogenes, towards the phenolic compounds eugenol and carvacrol. The minimum inhibitory concentration (MIC) of the phenolic compounds was determined by the microdilution technic in plates of 96 cavities, in CALDO TSB + 0,5% of Tween 80. The final concentrations (%) obtained were: 0,06; 0,12; 0,24; 0,49; 0,98; 1,95; 3,9; 6,25; 12,5; 25; 50.The patronized bacterial suspension was inoculated into the captivities of the plates, and incubated at 37°C for 24 hours with posterior reading of the absorbance at 620 nm and determination of the MIC. The adaptation of the cells of L. monocytogenes to the eugenol and carvacrol was made through the cultivation of the cells in TSB + 0,06% of eugenol or carvacrol at 37°C for 2 hours. The sample was then centrifuged and the cells were re-suspended and patronized in TSB. After that, the microdilution technic was performed one more time. The obtained results revealed that the L. monocytogenespresented adaptation and cross adaptation to the eugenol and carvacrol. The eugenol and carvacrol CMI was at 24%. The pre-exposition of L. monocytogenes to sub-lethal doses of 0,06% of eugenol or carvacrol enhanced its resistance. The pre-exposition to carvacrol promoted the adaptation of L. monocytogenes to it thus increasingthe MIC to 12,5%. To the eugenol the CMI got to 25%. When submitted to sub-lethal concentrations of eugenol, the latterpromoted the adaptation of the cells to carvacrol and eugenol, bringing the CMI to 12,5%. The obtained results showed that theL. monocytogenespresented adaptation and cross adaptation to the eugenol and carvacrol. The current work suggests future studies even broader regarding the antimicrobial potentialityof these compounds.

Keywords
natural antimicrobial; bioactive compound; food pathogen