Streptavidin Acrylamide

La estreptavidina acrilamida puede copolimerizarse con acrilamida en superficies poliméricas para crear una monocapa uniforme de estreptavidina inmovilizada. La estreptavidinaMás información

Número de catálogo	Cantidad
S21379	1 mg

Número de catálogo S21379

Precio (MXN)

Cantidad:

La estreptavidina acrilamida puede copolimerizarse con acrilamida en superficies poliméricas para crear una monocapa uniforme de estreptavidina inmovilizada. La estreptavidina puede entonces unirse y aislar los ligandos biotinilados, incluyendo sondas, enzimas, anticuerpos y fármacos.

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

Especificaciones

Tipo de columnaAfinidad

Para utilizar con (aplicación)Cell culture, bacterial isolation, flow cytometry, DNA sequencing, PCR product cleanup, cell separation, DNA single molecule imaging

Etiqueta o tinteAcrilamida

Cantidad1 mg

Condiciones de envíoTemperatura ambiente

Fase estacionariaEstreptavidina

FormularioSuspensión líquida

TipoEstreptavidina acrilamida

Unit SizeEach

Contenido y almacenamiento

Almacenar en congelador entre -5 °C y -30 °C

Citations & References (4)

Citations & References

Abstract

Directed cell growth on protein-functionalized hydrogel surfaces.

Authors:Hynd MR, Frampton JP, Dowell-Mesfin N, Turner JN, Shain W

Journal:J Neurosci Methods

PubMed ID:17368788

'Biochemical surface modification has been used to direct cell attachment and growth on a biocompatible gel surface. Acrylamide-based hydrogels were photo-polymerized in the presence of an acroyl-streptavidin monomer to create planar, functionalized surfaces capable of binding biotin-labelled proteins. Soft protein lithography (microcontact printing) of proteins was used to transfer the ... More

Immobilization of acrylamide-modified oligonucleotides by co-polymerization.

Authors:Rehman FN, Audeh M, Abrams ES, Hammond PW, Kenney M, Boles TC

Journal:Nucleic Acids Res

PubMed ID:9862993

A flexible chemistry for solid phase attachment of oligonucleotides is described. Oligonucleotides bearing 5'-terminal acrylamide modifications efficiently co-polymerize with acrylamide monomers to form thermally stable DNA-containing polyacrylamide co-polymers. Co-polymerization attachment is specific for the terminal acrylamide group. Stable probe-containing layers are easily fabricated on supports bearing exposed acrylic groups, including ... More

Calcium channel and glutamate receptor activities regulate actin organization in salamander retinal neurons.

Authors:Cristofanilli M, Akopian A,

Journal:J Physiol

PubMed ID:16777935

Intracellular Ca2+ regulates a variety of neuronal functions, including neurotransmitter release, protein phosphorylation, gene expression and synaptic plasticity. In a variety of cell types, including neurons, Ca2+ is involved in actin reorganization, resulting in either actin polymerization or depolymerization. Very little, however, is known about the relationship between Ca2+ and ... More

A streptavidin surface on planar glass substrates for the detection of biomolecular interaction.

Authors:Birkert O, Haake HM, Schütz A, Mack J, Brecht A, Jung G, Gauglitz G

Journal:Anal Biochem

PubMed ID:10873274

Based on the requirements of biomolecular interaction analysis on direct optical transducers, a streptavidin surface is examined. A general protocol was developed allowing the immobilization of biotinylated compounds using the rife biotin-streptavidin system. This type of surface modification can be applied to all biosensors using glass surfaces as sensor devices. ... More