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Abstract
Rhodococcus sp. DS7, isolated from a polluted soil, has shown good desulfurizing activity towards dibenzothiophene (DBT) and its derivatives, but is not able to desulfurize benzothiophene (BT), the other thiophenic molecule recalcitrant to the chemical hydrodesulfurization (HDS) process, and most abundant in gasoline. To select a Rhodococcus DS7 derivative strain able to desulfurize both DBT and BT, we took advantage of the verified capacity of this strain to integrate exogenous DNA randomly, with a good efficiency. Heterologous chromosomal DNA, digested with restriction enzymes, from two BT but not DBT desulfurizing strains, Rhodococcus sp. ATCC 27778 and Gordonia sp. ATCC 19067, was electroporated into Rhodococcus DS7. Selection on minimal medium with BT as sole sulfur source allowed us to isolate several DS7 derivatives with the capacity to desulfurize both thiophenic molecules. Two strains, one derived from the integration and recombination of DNA from ATCC 27778, and the other from ATCC 19067, have been partially characterized. These recombinant microorganisms are an interesting starting point to develop new biodesulfurization processes.