Módulos estándar blancos y negros para inmunoensayos

Thermo Scientific™

Módulos estándar blancos y negros para inmunoensayos

Name: Módulos estándar blancos y negros para inmunoensayos
SKU: 437591

Realice inmunoensayos basados en la fluorescencia y la luminiscencia, y ensayos de unión mediante los módulos estándar blancos y negros para inmunoensayos.

Cambiar vista

Número de catálogo	Color	Volumen del pocillo (métrico)	Tratamiento de superficie
437591	Blanco	350 μl	MaxiSorp
437702	Blanco	350 μl	PolySorp
437915	Transparente	350 μl	MaxiSorp
475515	Negro	400 μl	MaxiSorp
475523	Negro	400 μl	PolySorp
7566	Blanco	380 μl	hidrófobos

6 opciones

Número de catálogo 437591

Precio (MXN)

Color:

Blanco

Volumen del pocillo (métrico):

350 μl

Tratamiento de superficie:

MaxiSorp

Realice inmunoanálisis basados en la fluorescencia y la luminiscencia, y ensayos de unión mediante los módulos estándar blancos y negros para inmunoensayos Thermo Scientific™.

Características:

Disponibles en tiras de 8, 12 o 16 pocillos
Con o sin marco para la selección del ensayo óptimo
Pocillos de fondo plano o forma de C
Selección de tres tipos de superficie para una unión óptima
El formato blanco ofrece la más alta reflexión de señal posible con una baja fluorescencia de fondo y se recomienda para la epifluorescencia
El formato negro reduce la luz con retrodispersión que se puede detectar en la epifluorescencia
Utilice un formato transparente o claro solo en aplicaciones de fluorescencia resuelta en el tiempo

Selección de superficie:

Thermo Scientific™ PolySorp™ y Microlite™ 1+ para la adsorción de moléculas hidrófobas.
Microlite 2+ es ligeramente hidrófila y une una amplia gama de biomoléculas.
Thermo Scientific™ MaxiSorp™ es hidrófilo e ideal para ensayos de tipo sándwich de anticuerpos.

Especificaciones

Propiedad de uniónHidrófilo

Tipo de enlaceAdsorción

BreakApartNo

Los recipientesSí

Método de detecciónQuimioluminiscencia

Para utilizar con (aplicación)Fluorescencia y luminiscencia

TapaSin tapa

N.º por caja60

N.° por paquete5

Envase60 cajas

Bloqueo de placasNinguno

Tipo de productoTira de microplacas

Molécula dianaAnticuerpos (glucoproteínas)

Volumen de trabajo (métrico)250 μl

matriz, red, conjunto8 x 12

ColorBlanco

FormatoEstándar

MaterialPoliestireno

N.° de pocillos96

Tratamiento de superficieMaxiSorp

Volumen del pocillo (métrico)350 μl

Forma del pocilloRedondo

Unit SizeCase of 60

Preguntas frecuentes

What length of peptide is ideal for binding to the Thermo Scientific MaxiSorp surface? What are the detection limitations?

We have tested and found that a 3 amino acid peptide (Pro, Leu, Gly) cannot be detected when passively adsorbed on the MaxiSorp surface. However, this peptide can be detected when covalently immobilized using CovaLink NH Modules and CovaLink NH2 Modules and Plates. Using covalent immobilization of small peptide residues, you can typically obtain a better orientation of the molecule and reduced problems with antibody recognition of the peptide due to masking of the epitope. We have discovered that a 7 amino acid peptide from the MHC Class II antigen can be detected when adsorbed on the MaxiSorp surface. We state that the detection limitation using the MaxiSorp surface is between 3 and 7 amino acid residues.
One additional note is that detection is contingent upon the orientation of the peptide when immobilized. If the active site is inactivated or hidden at the site facing the solid phase, no detection signal is observed.

Can I bind either single- or double-stranded DNA to the Thermo Scientific MaxiSorp surface?

Single-stranded DNA can be adsorbed to our MaxiSorp surface using approximately 10 µg ssDNA per mL PBS, pH 8.2, although the stability is uncertain. Based on our experience, ssDNA immobilized on the MaxiSorp surface is so loosely bound that it can be removed by stringent washing.
Double-stranded DNA will not bind to the MaxiSorp surface. DNA, however, can be covalently bound to Nunc NucleoLink Strips.

For Nunc Immuno plates and modules, what are the advantages of one well geometry type over another? Which types should I use for various applications?

The following list describes the geometries of wells available for Nunc Immuno-plates and modules:
- Flat bottom (F): Allows maximum transmission of light. These plates can be read on a monochromatic reader.
- Round bottom (U): This geometry optimizes washing and coating. These plates can be read using a dual wavelength reader.
- "C" bottom (C): This design of the well is a combination of both flat and round bottoms. Basically, it is a flat bottomed well with curved edges at the bottom. These plates also can be read using a monochromatic reader combining optimal reading and washing.
- StarWell: These wells have a modified "C" shape geometry with eight fins strategically placed at the bottom. This feature increases surface area, allowing more molecules to become immobilized which reduces incubation times.

What is the difference between certified and non-certified MaxiSorp plates and modules?

Both of these surfaces are identical. The only difference between them is that for the certified plates, a representative sample from each manufacturing lot undergoes a Binding Capacity test. This test is an ELISA-like assay used in our quality control laboratories to ensure binding capabilities.

How can I reduce high background readings and non-specific binding, when performing ELISA using Nunc-Immuno MaxiSorp Plates?

Assay sensitivity depends strongly on efficient removal of non-specific reacting molecules. High background readings and coating instability can be minimized by addition of a blocking step after the first coating. The excess surface is then occupied by indifferent molecules.
We recommend washing three times after each coating step by using a solution of 0.15 M phosphate buffer (pH 7.2) with 0.2 M NaCl and 0.05% Tween 20.
For blocking, we recommend using 0.5% BSA, 1% casein or 1% gelatin in 0.15 M phosphate buffer (pH 8.2) or carbonate buffer (pH 9.6).

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