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bacterium rhodococcus opacus dsm 43205 (DSMZ)

Name: bacterium rhodococcus opacus dsm 43205
Brand: DSMZ
Rating: 94 (90 reviews)

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DSMZ bacterium rhodococcus opacus dsm 43205
Fig. 3. Time course of toluene concentrations in assays conducted with C. vulgaris, R. opacus or a consortium of these microorganisms with nitrate or a combination of ammonium and nitrate as nitrogen sources. Initial concentra tion of toluene was 3 mg L−1 in all the conditions.

Fig. 3. Time course of toluene concentrations in assays conducted with C. vulgaris, R. opacus or a consortium of these microorganisms with nitrate or a combination of ammonium and nitrate as nitrogen sources. Initial concentra tion of toluene was 3 mg L−1 in all the conditions.

Bacterium Rhodococcus Opacus Dsm 43205, supplied by DSMZ, used in various techniques. Bioz Stars score: 94/100, based on 90 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 94 stars, based on 90 article reviews

bacterium rhodococcus opacus dsm 43205 - by Bioz Stars, 2026-01

94/100 stars

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1) Product Images from "Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry"

Article Title: Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry

Journal: Journal of Water Process Engineering

doi: 10.1016/j.jwpe.2025.107663

Figure Legend Snippet: Fig. 3. Time course of toluene concentrations in assays conducted with C. vulgaris, R. opacus or a consortium of these microorganisms with nitrate or a combination of ammonium and nitrate as nitrogen sources. Initial concentra tion of toluene was 3 mg L−1 in all the conditions.

Techniques Used:

Fig. 4. Time course of (A) phenol, (B) benzene, (C) toluene, (D) ethylbenzene and (E) o-xylene concentrations in C. vulgaris-R. opacus co-cultures under an air atmosphere.

Figure Legend Snippet: Fig. 4. Time course of (A) phenol, (B) benzene, (C) toluene, (D) ethylbenzene and (E) o-xylene concentrations in C. vulgaris-R. opacus co-cultures under an air atmosphere.

Techniques Used:

Fig. 5. Time course of phenol and BTEX concentrations in (A) Mix 1, (B) Mix 2 and (C) Mix 3 in C. vulgaris-R. opacus cultures cultivated with in a mixture of the five pollutants under air atmosphere. Initial concentrations of the pollutants (100 %) in the mixture were 25 mg L−1 of phenol, and 3, 3, 8 mg L−1 for benzene and toluene, 1, 3, 3 mg L−1 for ethylbenzene; and 0.5, 1, 1 mg L−1 for o-xylene in Mix 1, 2 and 3, respectively.

Figure Legend Snippet: Fig. 5. Time course of phenol and BTEX concentrations in (A) Mix 1, (B) Mix 2 and (C) Mix 3 in C. vulgaris-R. opacus cultures cultivated with in a mixture of the five pollutants under air atmosphere. Initial concentrations of the pollutants (100 %) in the mixture were 25 mg L−1 of phenol, and 3, 3, 8 mg L−1 for benzene and toluene, 1, 3, 3 mg L−1 for ethylbenzene; and 0.5, 1, 1 mg L−1 for o-xylene in Mix 1, 2 and 3, respectively.

Techniques Used:

Fig. 6. Time course of (A) phenol, (B) benzene, (C) toluene, (D) ethylbenzene and (E) o-xylene concentration in C. vulgaris-R. opacus cultures under a N2/CO2 (70/30 %) atmosphere.

Figure Legend Snippet: Fig. 6. Time course of (A) phenol, (B) benzene, (C) toluene, (D) ethylbenzene and (E) o-xylene concentration in C. vulgaris-R. opacus cultures under a N2/CO2 (70/30 %) atmosphere.

Techniques Used: Concentration Assay

Fig. 7. Time course of phenol and BTEX concentration in (A) Mix 1, (B) Mix 2 and (C) Mix 3 in C. vulgaris-R. opacus cultures incubated with a mixture of the five pollutants under a N2/CO2 (70/30 %) atmosphere. Initial concentrations of the pollutants (100 %) in the mixture were 25 mg L−1 of phenol, and 3, 3, 8 mg L−1 for benzene and toluene, 1, 3, 3 mg L−1 for ethylbenzene; and 0.5, 1, 1 mg L−1 for o-xylene in Mix 1, 2 and 3, respectively.

Figure Legend Snippet: Fig. 7. Time course of phenol and BTEX concentration in (A) Mix 1, (B) Mix 2 and (C) Mix 3 in C. vulgaris-R. opacus cultures incubated with a mixture of the five pollutants under a N2/CO2 (70/30 %) atmosphere. Initial concentrations of the pollutants (100 %) in the mixture were 25 mg L−1 of phenol, and 3, 3, 8 mg L−1 for benzene and toluene, 1, 3, 3 mg L−1 for ethylbenzene; and 0.5, 1, 1 mg L−1 for o-xylene in Mix 1, 2 and 3, respectively.

Techniques Used: Concentration Assay, Incubation

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Journal: Journal of Water Process Engineering

Article Title: Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry

doi: 10.1016/j.jwpe.2025.107663

Figure Lengend Snippet: Fig. 3. Time course of toluene concentrations in assays conducted with C. vulgaris, R. opacus or a consortium of these microorganisms with nitrate or a combination of ammonium and nitrate as nitrogen sources. Initial concentra tion of toluene was 3 mg L−1 in all the conditions.

Article Snippet: The microorganisms used in this work were the freshwater microalga Chlorella vulgaris SAG 211-11b (SAG Culture Collection of Algae, Germany) and the bacterium Rhodococcus opacus DSM 43205 (DSMZ, Germany).

Techniques:

Journal: Journal of Water Process Engineering

Article Title: Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry

doi: 10.1016/j.jwpe.2025.107663

Figure Lengend Snippet: Fig. 4. Time course of (A) phenol, (B) benzene, (C) toluene, (D) ethylbenzene and (E) o-xylene concentrations in C. vulgaris-R. opacus co-cultures under an air atmosphere.

Techniques:

Journal: Journal of Water Process Engineering

Article Title: Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry

doi: 10.1016/j.jwpe.2025.107663

Figure Lengend Snippet: Fig. 5. Time course of phenol and BTEX concentrations in (A) Mix 1, (B) Mix 2 and (C) Mix 3 in C. vulgaris-R. opacus cultures cultivated with in a mixture of the five pollutants under air atmosphere. Initial concentrations of the pollutants (100 %) in the mixture were 25 mg L−1 of phenol, and 3, 3, 8 mg L−1 for benzene and toluene, 1, 3, 3 mg L−1 for ethylbenzene; and 0.5, 1, 1 mg L−1 for o-xylene in Mix 1, 2 and 3, respectively.

Techniques:

Journal: Journal of Water Process Engineering

Article Title: Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry

doi: 10.1016/j.jwpe.2025.107663

Figure Lengend Snippet: Fig. 6. Time course of (A) phenol, (B) benzene, (C) toluene, (D) ethylbenzene and (E) o-xylene concentration in C. vulgaris-R. opacus cultures under a N2/CO2 (70/30 %) atmosphere.

Techniques: Concentration Assay

Journal: Journal of Water Process Engineering

Article Title: Developing a microalgal-bacterial consortium for the removal of organic pollutants from petrochemical industry

doi: 10.1016/j.jwpe.2025.107663

Figure Lengend Snippet: Fig. 7. Time course of phenol and BTEX concentration in (A) Mix 1, (B) Mix 2 and (C) Mix 3 in C. vulgaris-R. opacus cultures incubated with a mixture of the five pollutants under a N2/CO2 (70/30 %) atmosphere. Initial concentrations of the pollutants (100 %) in the mixture were 25 mg L−1 of phenol, and 3, 3, 8 mg L−1 for benzene and toluene, 1, 3, 3 mg L−1 for ethylbenzene; and 0.5, 1, 1 mg L−1 for o-xylene in Mix 1, 2 and 3, respectively.

Techniques: Concentration Assay, Incubation

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