Triton™ X-114 Surfact-Amps™ Detergent Solution

La solución de detergente Triton X-114 Surfact-Amps Thermo Scientific es una solución estabilizada al 10 % (p/v) de detergente Triton™Más información

Número de catálogo	Cantidad
28332	6 x 10 mL

Número de catálogo 28332

Precio (CLP)

429.546

Añadir al carro de la compra

Cantidad:

6 x 10 mL

Pedido a granel o personalizado

Precio (CLP)

429.546

Añadir al carro de la compra

La solución de detergente Triton X-114 Surfact-Amps Thermo Scientific es una solución estabilizada al 10 % (p/v) de detergente Triton™ X-114 altamente purificado, suministrada en ampollas de vidrio y envasada bajo gas nitrógeno inerte, garantizando su estabilidad y eliminando la acumulación de peróxidos y productos de degradación.

Características de la solución de detergente Triton X-114 Surfact-Amps:

• Triton X-114: un detergente no iónico para su uso en diversas técnicas rutinarias de proteínas y biología molecular
• Preciso: solución de detergente precisa al 10 % en agua ultrapura
• Fácil de utilizar: la solución es fácil de dispensar y diluir para su uso
• Excepcionalmente pura: menos de 1,0 µeq/ml de peróxidos y carbonilos
• Estable: envasada en ampollas de vidrio bajo gas nitrógeno inerte

Especificaciones para la solución de detergente Triton X-114 Surfact-Amps:
• Visual: Una solución poco turbia o poco nítida, incolora y sin partículas; puede formar capas.
• Concentración: 10,0 ± 1,0 %
• Oxidantes: ≤ 1,0 µeq/ml
• Carbonilos: ≤ 1,0 µeq/ml
• Sólidos en suspensión: Los residuos presentes no deben superar los valores de referencia para residuos.

Propiedades de Triton X-114:
• Peso molecular: 537g
• Clase de detergente: Surfactante de polioxietileno no iónico
• Número de agregación:
• Peso molecular por micela: desconocido
• Concentración micelar crítica (CMC): 0,21 mm (0,0113 %, p/v)
• Punto de opacidad: 23 °C
• Dializable: No

Triton X-114 se utiliza con mayor frecuencia como componente de tampones de lisis celular. En ciertas condiciones, este detergente se separa en fase en soluciones acuosas, una propiedad que se ha utilizado para separar proteínas hidrófilas e hidrófobas (membrana).

Para mayor seguridad al abrir ampollas de vidrio, considere el uso de nuestros rompedores de ampollas, que son dispositivos de seguridad desechables que protegen los dedos al romper una ampollas de vidrio.

Productos relacionados
Muestreador de detergente Surfact-Amps™

Para uso exclusivo en investigación. No apto para uso en procedimientos diagnósticos.

Especificaciones

Cantidad6 x 10 mL

Tipo de reactivoSolución de detergente

FormularioLíquido

Línea de productosSurfact-Amps, Triton

Tipo de productoDetergente

Unit SizeEach

Contenido y almacenamiento

Se debe guardar en un recipiente original protegido de la luz solar directa en un lugar seco, fresco y bien ventilado y entre las temperaturas siguientes: de 20 °C a 25 °C.

Preguntas frecuentes

What are the main advantages of using Thermo Scientific Pierce Surfact-Amps detergents?

Thermo Scientific Pierce Surfact-Amps detergents are highly purified, precisely diluted (10%) formulations that are ideal for applications or assays that are sensitive to contaminants that are present in unpurified detergents. We test every batch to insure that our detergents contain less than 1.0 µeq/mL peroxides and carbonyls and package them under nitrogen, to prevent oxidization during storage.

Superior quality - lower measurable contaminant levels than other leading vendors
Accurate -precise 10% detergent solution in ultrapure water
Easy-to-use - solution is simple to dispense and dilute for use
Exceptionally pure - less than 1.0 µeq/mL peroxides and carbonyls

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

Are detergents denaturing or non-denaturing with respect to protein structure?

Ionic detergents, or those that carry a charge, are the most likely to be denaturing to proteins. Denaturing detergents can be anionic such as sodium dodecyl sulfate (SDS) or cationic such as ethyl trimethyl ammonium bromide. These detergents totally disrupt membranes and denature proteins by breaking protein-protein interactions through changes in the three-dimensional structure of the proteins. Nondenaturing detergents can be divided into nonionic detergents (i.e., Triton X-100), bile salts (i.e., cholate), and zwitterionic detergents (i.e., CHAPS).

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

What are detergents?

Detergents are amphipathic molecules containing both a nonpolar “tail” having aliphatic or aromatic character, and a polar “head”. The ionic character of the polar head group forms the basis for broad classification of detergents as ionic, nonionic, or zwitterionic.

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

How does detergent-based cell lysis work?

Detergents are amphipathic molecules, meaning they contain both a nonpolar “tail” having aliphatic or aromatic character and a polar “head”. Like the components of biological membranes, detergents have hydrophobic-associating properties as a result of their nonpolar tail groups. Nevertheless, detergents are themselves water soluble.

Consequently, detergent molecules allow the dispersion (miscibility) of water-insoluble, hydrophobic compounds into aqueous media, including the extraction and solubilization of membrane proteins. Detergent monomers solubilize membrane proteins by partitioning into the membrane bilayer. With increasing amounts of detergents, membranes undergo various stages of solubilization.

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

What types of detergents are available for cell lysis?

Detergents can be denaturing or non-denaturing with respect to protein structure. Denaturing detergents can be anionic such as sodium dodecyl sulfate (SDS) or cationic such as ethyl trimethyl ammonium bromide. These detergents totally disrupt membranes and denature proteins by breaking proteinprotein interaction. These detergents are considered harsh. Non-denaturing detergents can be divided into nonionic detergents (i.e., Triton X-100), bile salts (i.e., cholate), and zwitterionic detergents (i.e., CHAPS). These detergents do not denature proteins and do not break protein-protein interactions. These detergents are considered mild.

Find additional tips, troubleshooting help, and resources within our Protein Purification and Isolation Support Center.

View all Triton™ X-114 Surfact-Amps™ Detergent Solution FAQs