John S. Thayer scite author profile

Biological methylation is an enzymatic process in which a methyl group is transferred from one atom to another. For elements having atomic number greater than 11, biological methylation has been most extensively studied for three elements: arsenic, mercury and sulfur. However, many other elements also undergo biological methylation but have received less attention. Recent work on these lessstudied elements and new applications of biological methylation to environmental remediation, along with a description of these reactions in terms of bonding models, is the focus of this review.

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Normal-iso rearrangement in cyanotrialkylsilanes

Seckar¹,

Thayer²

1976

Inorg. Chem.

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Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements

Thayer

2005

J. Chem. Educ.

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The heaviest main-group elements (mercury through radon and their heavier congenors) often show markedly different chemical properties than their lighter counterparts. Most of these differences arise from changes in the relative energies of the outer-shell atomic orbitals that can be explained by application of Einstein's theory of special relativity ("relativistic effects") to electrons in atoms. Changes include stabilization of lower oxidation states, destabilization of higher states, and greater tendencies towards cluster formation. These will be illustrated by examples of recent research reports, and predictions for the chemistry of elements 112 through 118.

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The Biological Methylation of Metals and Metalloids

Thayer

Brinckman

1982

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John S. Thayer

Organometallic compounds and living organisms

Review: Biological methylation of less‐studied elements

Normal-iso rearrangement in cyanotrialkylsilanes

Relativistic Effects and the Chemistry of the Heaviest Main-Group Elements

The Biological Methylation of Metals and Metalloids

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