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Chirality at Nitrogen, Phosphorus, and Sulfur02:30

Chirality at Nitrogen, Phosphorus, and Sulfur

Chirality is most prevalent in carbon-based tetrahedral compounds, but this important facet of molecular symmetry extends to sp3-hybridized nitrogen, phosphorus and sulfur centers, including trivalent molecules with lone pairs. Here, the lone pair behaves as a functional group in addition to the other three substituents to form an analogous tetrahedral center that can be chiral.
A consequence of chirality is the need for enantiomeric resolution. While this is theoretically possible for all...
Structure and Nomenclature of Thiols and Sulfides02:17

Structure and Nomenclature of Thiols and Sulfides

Thiols and sulfides are sulfur analogs of alcohols and ethers, respectively, where the sulfur atom takes the place of the oxygen atom. Thus, thiols are generally represented as RSH, where R is an alkyl substituent and —SH is the functional group. On the other hand, in sulfides, the central sulfur atom is bonded to two hydrocarbon groups on either side. Depending upon the type of group, sulfides can be either symmetrical or asymmetrical. Both thiols and sulfides display a bent geometry, similar...
Preparation and Reactions of Thiols02:33

Preparation and Reactions of Thiols

Thiols are prepared using the hydrosulfide anion as a nucleophile in a nucleophilic substitution reaction with alkyl halides. For instance, bromobutane reacts with sodium hydrosulfide to give butanethiol.
Preparation and Reactions of Sulfides02:26

Preparation and Reactions of Sulfides

Sulfides are the sulfur analog of ethers, just as thiols are the sulfur analog of alcohol. Like ethers, sulfides also consist of two hydrocarbon groups bonded to the central sulfur atom. Depending upon the type of groups present, sulfides can be symmetrical or asymmetrical. Symmetrical sulfides can be prepared via an SN2 reaction between 2 equivalents of an alkyl halide and one equivalent of sodium sulfide.
2° Amines to N-Nitrosamines: Reaction with NaNO201:20

2° Amines to N-Nitrosamines: Reaction with NaNO2

Secondary amines react with nitrous acid to form N-nitrosamines, as depicted in Figure 1. Nitrous acid, a weak and unstable acid, is formed in situ from an aqueous solution of sodium nitrite and strong acids, such as hydrochloric acid or sulfuric acid, in cold conditions. In the presence of an acid, the nitrous acid gets protonated. The subsequent loss of water results in the formation of the electrophile known as nitrosonium ion.
Nitrosation of Enols01:19

Nitrosation of Enols

The nitrosation reaction is one of the methods of preparing 1,2-diketones. The enol tautomer of the starting ketone reacts with sodium nitrite in hydrochloric acid, generating the 1,2-diketone after hydrolysis.

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Updated: Jul 6, 2026

Production of Disulfide-stabilized Transmembrane Peptide Complexes for Structural Studies
12:05

Production of Disulfide-stabilized Transmembrane Peptide Complexes for Structural Studies

Published on: March 6, 2013

Un complejo de S-nitrosotiol sorprendentemente estable.

Laura L Perissinotti1, Darío A Estrin, Gregory Leitus

  • 1Departamento de Química Inorgánica, Analítica y Química Física/INQUIMAE-CONICET, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Ciudad Universitaria, Pabellón II, Argentina.

Journal of the American Chemical Society
|February 24, 2006
PubMed
Resumen
Este resumen es generado por máquina.

Los investigadores sintetizaron y caracterizaron el primer complejo S-nitrosotiol estable y coordinado, trans-K[IrCl4(CH3CN)N(O) SCH2Ph, a través de la reacción de K[IrCl5NO] con el benzilmercaptano. Este descubrimiento abre nuevas vías en la química de coordinación y la investigación de compuestos organometálicos.

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Área de la Ciencia:

  • Química Inorgánica La Química Inorgánica es la química inorgánica.
  • Coordinación Química de la Coordinación
  • Química organometálica Química orgánica de los metales.

Sus antecedentes:

  • Los S-nitrosotiolos son importantes en los sistemas biológicos, pero a menudo son inestables.
  • Los S-nitrosotiolos coordinados son difíciles de sintetizar y aislar.
  • Investigaciones anteriores no han reportado S-nitrosotiolos coordinados estables y aislables.

Objetivo del estudio:

  • Para sintetizar y caracterizar un nuevo complejo coordinado de S-nitrosotiol.
  • Investigar la estabilidad y la reactividad de los ligandos de S-nitrosotiol en un complejo de coordinación.
  • Establecer un precedente para el aislamiento de dichos compuestos.

Principales métodos:

  • Reacción del pentacloronitrosiliridato de potasio (K[IrCl5NO]) con el bencilmercaptano en el acetonitrilo.
  • Aislamiento y purificación del complejo resultante.
  • Caracterización mediante espectroscopia infrarroja con transformación de Fourier (FTIR), resonancia magnética nuclear de protones (1H NMR) y espectrometría de masas de ionización por electrospray (ESI-MS).

Principales resultados:

  • Síntesis exitosa de un complejo S-nitrosotiol sorprendentemente estable, trans-K[IrCl4(CH3CN) N(O) SCH2Ph].
  • Aislamiento del complejo en alto rendimiento (80%).
  • Caracterización completa que confirme la estructura y la estabilidad propuestas.

Conclusiones:

  • Este estudio reporta el primer aislamiento de un S-nitrosotiol coordinado.
  • El complejo sintetizado demuestra una estabilidad inesperada, lo que sugiere nuevas posibilidades para la química del S-nitrosotiol.
  • Este trabajo proporciona una base para una mayor exploración de los complejos de coordinación de S-nitrosotiol.