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2 in total

1. Studies on biological methylation; the fission of the mono- and di-sulphide links by moulds.

Authors: F CHALLENGER; P T CHARLTON
Journal: J Chem Soc Date: 1947-03

2. Dimethylselenide and dimethyltelluride formation by a strain of Penicillium.

Authors: R W Fleming; M Alexander
Journal: Appl Microbiol Date: 1972-09

2 in total

9 in total

1. Mobilization of selenium by a selenium-dependent bacterium.

Authors: A A Razak; S E Ramadan; K el-Zawahry
Journal: Biol Trace Elem Res Date: 1990-06 Impact factor: 3.738

2. Effects of alternative selenium and sulfur sources on dimethylselenide production by two fungi isolated from natural systems.

Authors: L Barkes; R W Fleming
Journal: Bull Environ Contam Toxicol Date: 1976-04 Impact factor: 2.151

3. Reduction of Selenate and Selenite to Elemental Selenium by a Pseudomonas stutzeri Isolate.

Authors: L Lortie; W D Gould; S Rajan; R G McCready; K J Cheng
Journal: Appl Environ Microbiol Date: 1992-12 Impact factor: 4.792

4. Formation of methane and carbon dioxide from dimethylselenide in anoxic sediments and by a methanogenic bacterium.

Authors: R S Oremland; J P Zehr
Journal: Appl Environ Microbiol Date: 1986-11 Impact factor: 4.792

5. Radioecological risk assessment of low selenium concentrations through genetic fingerprints and metabolic profiling of soil bacterial communities.

Authors: Céline Colinon-Dupuich; Laureline Février; Lionel Ranjard; Frédéric Coppin; Benoit Cournoyer; Sylvie Nazaret
Journal: Microb Ecol Date: 2011-03-16 Impact factor: 4.552

Production of dimethylselenide gas from inorganic selenium by eleven soil fungi.

1. Studies on biological methylation; the fission of the mono- and di-sulphide links by moulds.

2. Dimethylselenide and dimethyltelluride formation by a strain of Penicillium.

1. Mobilization of selenium by a selenium-dependent bacterium.

2. Effects of alternative selenium and sulfur sources on dimethylselenide production by two fungi isolated from natural systems.

3. Reduction of Selenate and Selenite to Elemental Selenium by a Pseudomonas stutzeri Isolate.

4. Formation of methane and carbon dioxide from dimethylselenide in anoxic sediments and by a methanogenic bacterium.

5. Radioecological risk assessment of low selenium concentrations through genetic fingerprints and metabolic profiling of soil bacterial communities.

Review 6. Microbial Transformations of Selenium Species of Relevance to Bioremediation.

7. Selenate reduction by bacteria from a selenium-rich environment.

8. Persistent Bacterial and Fungal Community Shifts Exhibited in Selenium-Contaminated Reclaimed Mine Soils.

9. Distribution of soil selenium in China is potentially controlled by deposition and volatilization?