Scheda di dettaglio – i prodotti della ricerca
| Dato | Valore |
|---|---|
| Title | Different activity levels of Dehalococcoides mccartyi revealed by FISH and CARD-FISH under non-steady and pseudo-steady state conditions |
| Abstract | A mixed culture capable of dechlorinating perchloroethylene (PCE) to ethene was analyzed under non steady and pseudo-steady state conditions. Dehalococcoides mccartyi, considered to be the primary dechlorinating bacterium able to completely degrade chlorinated hydrocarbons to non toxic ethene, could be detected by CAtalyzed Reporter Deposition Fluorescence In Situ Hybridization (CARD-FISH) since the beginning of culture operation but highlighted by conventional FISH only during active PCE dechlorination to ethene and vinyl chloride (VC). Data generated from FISH and CARD-FISH analyses were compared to those generated from applying PCR-based techniques directed at defining cell abundances (Real Time PCR, qPCR) and assessing cell activities (Reverse Transcription qPCR, RT-qPCR) of Dehalococcoides strains involved in the PCE reductive dechlorination (RD) process. qPCR targeting reductive dehalogenase genes coding for enzymes involved in the individual steps of the RD process, showed that Dehalococcoides strains carrying the tceA gene dominated the community. This observation was consistent with PCE conversion products detected under pseudo-steady state (ethene and VC production), since this tceA gene is known to be associated to strains capable of reducing chlorinated solvents beyond 1,2-cis-dichloroethene (cis-DCE). In line with the FISH data, Dehalococcoides 16S rRNA and tceA genes were expressed only during pseudo-steady state conditions when PCE was converted completely to the final metabolic product ethene. Furthermore, Dehalococcoides cell abundances estimated by CARD-FISH correlated positively with their 16SrRNA gene copy numbers quantified by qPCR. This is consistent with the ability of both these methods to estimate total Dehalococcoides cell numbers including those with low metabolic activities. Thus, this study shows that application potential of FISH analysis to quantify rapidly and efficiently only active dechlorinators in complex communities |
| Source | New biotechnology (Online) 30 (6), pp. 756–762 |
| Keywords | dehalococcoideschlorinated solventsbioremediation |
| Journal | New biotechnology (Online) |
| Editor | Elsevier, Amsterdam, Paesi Bassi |
| Year | 2013 |
| Type | Articolo in rivista |
| Authors | Matturro B., Tandoi V. , Rossetti S. |
| Text | 272072 2013 dehalococcoides chlorinated solvents bioremediation Different activity levels of Dehalococcoides mccartyi revealed by FISH and CARD FISH under non steady and pseudo steady state conditions Matturro B., Tandoi V. , Rossetti S. Water Research Institute, CNR, Via Salaria km 29.300, Monterotondo RM 00015, Italy A mixed culture capable of dechlorinating perchloroethylene PCE to ethene was analyzed under non steady and pseudo steady state conditions. Dehalococcoides mccartyi, considered to be the primary dechlorinating bacterium able to completely degrade chlorinated hydrocarbons to non toxic ethene, could be detected by CAtalyzed Reporter Deposition Fluorescence In Situ Hybridization CARD FISH since the beginning of culture operation but highlighted by conventional FISH only during active PCE dechlorination to ethene and vinyl chloride VC . Data generated from FISH and CARD FISH analyses were compared to those generated from applying PCR based techniques directed at defining cell abundances Real Time PCR, qPCR and assessing cell activities Reverse Transcription qPCR, RT qPCR of Dehalococcoides strains involved in the PCE reductive dechlorination RD process. qPCR targeting reductive dehalogenase genes coding for enzymes involved in the individual steps of the RD process, showed that Dehalococcoides strains carrying the tceA gene dominated the community. This observation was consistent with PCE conversion products detected under pseudo steady state ethene and VC production , since this tceA gene is known to be associated to strains capable of reducing chlorinated solvents beyond 1,2 cis dichloroethene cis DCE . In line with the FISH data, Dehalococcoides 16S rRNA and tceA genes were expressed only during pseudo steady state conditions when PCE was converted completely to the final metabolic product ethene. Furthermore, Dehalococcoides cell abundances estimated by CARD FISH correlated positively with their 16SrRNA gene copy numbers quantified by qPCR. This is consistent with the ability of both these methods to estimate total Dehalococcoides cell numbers including those with low metabolic activities. Thus, this study shows that application potential of FISH analysis to quantify rapidly and efficiently only active dechlorinators in complex communities 30 Articolo in rivista Elsevier 1876 4347 New biotechnology Online New biotechnology Online New biotechnology. Online bruna.matturro MATTURRO BRUNA valter.tandoi TANDOI VALTER simona.rossetti ROSSETTI SIMONA TA.P07.017.001 Caratterizzazione di biomasse per l ottimizzazione dei processi biologici |