AI Article Synopsis
- Sulfur heterocycles, commonly found in petroleum, coal-derived liquids, and some microorganisms and plants, primarily exist as saturated rings and thiophenes.
- Research aims to develop biodesulfurization processes for fossil fuels and understand the behavior of these compounds in contaminated environments for effective bioremediation.
- Successful cleavage of sulfur heterocyclic rings, particularly through breaking the C-S bond, is essential; oxygen's introduction to these structures helps weaken this bond, yet more studies are needed beyond thiophene.
Article Abstract
Sulfur heterocycles are common constituents of petroleum and liquids derived from coal, and they are found in some secondary metabolites of microorganisms and plants. They exist primarily as saturated rings and thiophenes. There are two major objectives driving investigations of the microbial metabolism of organosulfur compounds. One is the quest to develop a process for biodesulfurization of fossil fuels, and the other is to understand the fates of organosulfur compounds in petroleum- or creosote-contaminated environments which is important in assessing bioremediation processes. For these processes to be successful, cleavage of different types of sulfur heterocyclic rings is paramount. This paper reviews the evidence for microbial ring cleavage of a variety of organosulfur compounds and discusses the few well-studied cases which have shown that the C-S bond is most susceptible to breakage leading to disruption of the ring. In most cases, the introduction of one or more oxygen atom(s) onto the adjacent C atom and/or onto the S atom weakens the C-S bond, facilitating its cleavage. Although much is known about the thiophene ring cleavage in dibenzothiophene, there is still a great deal to be learned about the cleavage of other sulfur heterocycles.
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| http://dx.doi.org/10.1023/a:1008283207090 | DOI Listing |
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