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Pierce™ Streptavidin Coated Plates, White, 96-Well Thermo Scientific™

Thermo Scientific Pierce Streptavidin Coated Plates, Clear, 96-Well are pre-blocked and ready-to-use polystyrene plates for binding biotinylated antibodies or probes for ELISA and other target-specific assays.

Features of Streptavidin Coated Plates, White, 96-Well:

• Approximate binding capacity is ~5 pmol biotin/well
• Easy and gentle immobilization of biotin-containing conjugates
• Low nonspecific binding
• No denaturing of the protein component of a conjugate upon binding
• Ideal for binding small biotinylated hydrophilic molecules (e.g., peptides) that typically exhibit poor binding to polystyrene
• Pre-blocked with your choice of Blocker BSA or SuperBlock Blocking Buffer

Streptavidin Coated Plates, Clear are available in 96-well and 384-well plate formats, pre-blocked with BSA or SuperBlock Blocking Buffers. Choose from clear, white and black plates for use with colorimetric (chromogenic), chemiluminescent and fluorescent detection methods, respectively.

Biotin-binding plates are ideal for applications when direct adsorption to polystyrene denatures antibodies or the target molecule. Streptavidin is the most popular and widely available biotin-binding protein for research methods. Streptavidin has an isoelectric point of 5 to 6, resulting in low nonspecific interactions.

Related Products
Pierce™ Streptavidin Coated Plates, Black, 96-Well
Pierce™ Streptavidin Coated Plates, Black, 384-Well

Plates and Modules with Affinity Binding Surfaces Thermo Scientific™

Help reduce variability in molecular orientation with Thermo Scientific™ Plates and Modules with Affinity Binding Surfaces.

Pierce™ Copper Coated High Capacity Plates, White, 96-Well Thermo Scientific™

Thermo Scientific Pierce Copper Coated High Binding Capacity (HBC) Plates use an exclusive coating process to increase the amount of histidine-tagged protein that will bind to the plate surface.

These copper coated plates are ideal for analyzing polyhistidine-tagged fusion proteins by ELISA-based methods. Proteins that contain a succession of several histidine residues at the amino or carboxyl terminus have a strong binding affinity for metals such as copper. Pierce Copper Coated Plates have high binding capacity because they are coating using an exclusive process that increases the amount of histidine-tagged protein that will bind to the plate surface. Although copper is less discriminating in its binding specificity than Nickel, the higher binding capacity of these plates is ideal for high throughput screening applications that need improved sensitivity and greater dynamic range. The copper-coated plates are available as clear, white or black plates that can be used with colorimetric, chemiluminescent or fluorescent detection methods, respectively.

Features of Copper Coated High Binding Capacity Plates:

• Quantitate previously undetectable histidine-tagged proteins
• Wider dynamic range with four-fold greater capacity than regular nickel chelate-coated plate
• Copper chelate provides greater binding capacity than nickel
• The detection limit is 0.1 pg of polyhistidine tagged fusion protein per well
• Pre-blocked for the ultimate convenience

Note: Copper coated plates are for use with purified His-tagged proteins. Typical cell lysates contain non-his-tagged proteins that may bind to copper, which can reduce binding capacity and signal-to-noise ratios. For cell lysates, use Thermo Scientific Pierce Nickel Coated Plates.

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Pierce™ Copper Coated High Capacity Plates, Clear, 96-Well
Pierce™ Copper Coated High Capacity Plates, Clear, 8-Well Strip
Pierce™ Copper Coated High Capacity Plates, Black, 96-Well

Pierce™ Streptavidin Coated Plates, Black, 96-Well Thermo Scientific™

Thermo Scientific Pierce Streptavidin Coated Plates, Clear, 96-Well are pre-blocked and ready-to-use polystyrene plates for binding biotinylated antibodies or probes for ELISA and other target-specific assays.

Features of Streptavidin Coated Plates, BlackS, 96-Well:

• Approximate binding capacity is ~5 pmol biotin/well
• Easy and gentle immobilization of biotin-containing conjugates
• Low nonspecific binding
• No denaturing of the protein component of a conjugate upon binding
• Ideal for binding small biotinylated hydrophilic molecules (e.g., peptides) that typically exhibit poor binding to polystyrene
• Pre-blocked with your choice of Blocker BSA or SuperBlock Blocking Buffer

Streptavidin Coated Plates, Clear are available in 96-well and 384-well plate formats, pre-blocked with BSA or SuperBlock Blocking Buffers. Choose from clear, white and black plates for use with colorimetric (chromogenic), chemiluminescent and fluorescent detection methods, respectively.

Biotin-binding plates are ideal for applications when direct adsorption to polystyrene denatures antibodies or the target molecule. Streptavidin is the most popular and widely available biotin-binding protein for research methods. Streptavidin has an isoelectric point of 5 to 6, resulting in low nonspecific interactions.

Related Products
Pierce™ Streptavidin Coated Plates, White, 96-Well
Pierce™ Streptavidin Coated Plates, Black, 384-Well

Plates and Modules with Covalent Binding Surfaces Thermo Scientific™

Reduce the amount of reagents used in the lab with Thermo Scientific™ Plates and Modules with Covalent Binding Surfaces.

Clear C-Shaped Immuno Nonsterile 96-Well Plates Thermo Scientific™

Perform quantitative and qualitative solid phase immunoassays with Thermo Scientific™ Clear C-Shaped Immuno Nonsterile 96-Well Plates, which include Nunc™, Immulon™ and Microtiter™ plates. Choose from a variety of binding surfaces for reliable and reproducible results in colormetric assays.

Pierce™ Copper Coated High Capacity Plates, Black, 96-Well Thermo Scientific™

Thermo Scientific Pierce Copper Coated High Binding Capacity (HBC) Plates use an exclusive coating process to increase the amount of histidine-tagged protein that will bind to the plate surface.

These copper coated plates are ideal for analyzing polyhistidine-tagged fusion proteins by ELISA-based methods. Proteins that contain a succession of several histidine residues at the amino or carboxyl terminus have a strong binding affinity for metals such as copper. Pierce Copper Coated Plates have high binding capacity because they are coating using an exclusive process that increases the amount of histidine-tagged protein that will bind to the plate surface. Although copper is less discriminating in its binding specificity than Nickel, the higher binding capacity of these plates is ideal for high throughput screening applications that need improved sensitivity and greater dynamic range. The copper-coated plates are available as clear, white or black plates that can be used with colorimetric, chemiluminescent or fluorescent detection methods, respectively.

Features of Copper Coated High Binding Capacity Plates:

• Quantitate previously undetectable histidine-tagged proteins
• Wider dynamic range with four-fold greater capacity than regular nickel chelate-coated plate
• Copper chelate provides greater binding capacity than nickel
• The detection limit is 0.1 pg of polyhistidine tagged fusion protein per well
• Pre-blocked for the ultimate convenience

Note: Copper coated plates are for use with purified His-tagged proteins. Typical cell lysates contain non-his-tagged proteins that may bind to copper, which can reduce binding capacity and signal-to-noise ratios. For cell lysates, use Thermo Scientific Pierce Nickel Coated Plates.

Related Products
Pierce™ Copper Coated High Capacity Plates, Clear, 96-Well
Pierce™ Copper Coated High Capacity Plates, Clear, 8-Well Strip
Pierce™ Copper Coated High Capacity Plates, White, 96-Well

Pierce™ Copper Coated High Capacity Plates, Clear, 96-Well Thermo Scientific™

Thermo Scientific Pierce Copper Coated High Binding Capacity (HBC) Plates use an exclusive coating process to increase the amount of histidine-tagged protein that will bind to the plate surface.

Features of Copper Coated High Binding Capacity Plates:

• Quantitate previously undetectable histidine-tagged proteins
• Wider dynamic range with four-fold greater capacity than regular nickel chelate-coated plate
• Copper chelate provides greater binding capacity than nickel
• The detection limit is 0.1 pg of polyhistidine tagged fusion protein per well
• Pre-blocked for the ultimate convenience

These copper coated plates are ideal for analyzing polyhistidine-tagged fusion proteins by ELISA-based methods. Proteins that contain a succession of several histidine residues at the amino or carboxyl terminus have a strong binding affinity for metals such as copper. Pierce Copper Coated Plates have high binding capacity because they are coating using an exclusive process that increases the amount of histidine-tagged protein that will bind to the plate surface. Although copper is less discriminating in its binding specificity than Nickel, the higher binding capacity of these plates is ideal for high throughput screening applications that need improved sensitivity and greater dynamic range. The copper-coated plates are available as clear, white or black plates that can be used with colorimetric, chemiluminescent or fluorescent detection methods, respectively.

Note: Copper coated plates are for use with purified His-tagged proteins. Typical cell lysates contain non-his-tagged proteins that may bind to copper, which can reduce binding capacity and signal-to-noise ratios. For cell lysates, use Thermo Scientific Pierce Nickel Coated Plates.

Related Products
Pierce™ Copper Coated High Capacity Plates, Clear, 8-Well Strip
Pierce™ Copper Coated High Capacity Plates, White, 96-Well
Pierce™ Copper Coated High Capacity Plates, Black, 96-Well

Nunc™ Open Well Upper Structures Thermo Scientific™

Versatile units in a choice of two materials

Pierce™ Streptavidin Coated High Sensitivity Plates, Clear, 8-Well Strip Thermo Scientific™

Thermo Scientific Pierce Streptavidin Coated High Sensitivity Plates, Clear, 8-Well Strip are biotin-binding microplates that are coated to maximize capture efficiency of biotinylated probes and control background in assays for low levels of target analyte.

Features of Streptavidin Coated High Sensitivity Plates, Clear, 8-Well Strip

Sensitive—detect down to 5 ng/mL of biotinylated IgG
Specific—low background with high signal-to-noise ratios
Versatile—use either fluorescence, chemiluminescence or colorimetric detection
Robust—broad dynamic range
Ready to use—plates are supplied pre-blocked to save time

Thermo Scientific Pierce Coated Plates are coated using proprietary surface-activation technology to achieve maximum efficient coating of active streptavidin biotin-binding protein. The high sensitivity plates enable detection of low concentrations (ng/mL) of biotinylated antibodies and other proteins. Whether to detect signal by fluorescent, colorimetric or chemiluminescent methods, these plates make it easy to develop an ELISA for any sample with a low-level target.

Streptavidin is the most popular and widely available biotin-binding protein for research methods. Streptavidin has an isoelectric point of 5 to 6, resulting in low non-specific interactions.

Related Products
Pierce™ Streptavidin Coated High Sensitivity Plates, Black, 8-Well Strip

White 96-Well Immuno Plates Thermo Scientific™

Conduct quantitative and qualitative immunoassays like ELISA and binding assays with Thermo Scientific™ White 96-Well Immuno Plates, which are compatible with common instruments. These plates deliver optimal results, lot-to-lot reliability and well-to-well reproducibility.

Immuno Breakable Modules Clear Thermo Scientific™

Choose from four surfaces and a variety of wells and configurations with Thermo Scientific™ Immuno Breakable Modules, which offer reliability, well-to-well reproducibility and an optimal choice of products for the specific assay.

Pierce™ NeutrAvidin™ Coated Plates, White, 96-Well Thermo Scientific™

Thermo Scientific NeutrAvidin Protein Coated White 96-Well Plates are pre-blocked and ready-to-use polystyrene plates for binding biotinylated antibodies or probes for ELISA and other target-specific assays.

Features of NeutrAvidin Protein Coated White 96-Well Plates:

• White plates for chemiluminescent detection methods
• Pre-blocked with SuperBlock Blocking Buffer
• Easy and gentle immobilization of biotin-containing conjugates
• Low nonspecific binding
• No denaturing of the protein component of a conjugate upon binding
• Ideal for binding small biotinylated hydrophilic molecules (e.g., peptides) that typically exhibit poor binding to polystyrene
• Less expensive than streptavidin coated plates
• Lowest nonspecific binding properties of all biotin-binding proteins

Biotin-binding plates are ideal for applications when direct adsorption to polystyrene denatures antibodies or the target molecule. Streptavidin is the most popular and widely available biotin-binding protein for research methods. Streptavidin has an isoelectric point of 5 to 6, resulting in low nonspecific interactions. Thermo Scientific NeutrAvidin Protein is a deglycosylated form of avidin, which has a near-neutral pI (6.3), resulting in even lower nonspecific interactions. NeutrAvidin Protein has the additional advantage of lacking the bacterial RYD sequence found on streptavidin, which eliminates off-target binding to the RGD binding domain of adhesion receptors present in a variety of cells.

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Pierce™ NeutrAvidin™ Coated Plates, Black, 96-Well
Pierce™ NeutrAvidin™ Coated Plates, White, 384-Well
Pierce™ NeutrAvidin™ Coated Plates, Black, 384-Well

Pierce™ Nickel Coated Plates, Clear, 96-Well Thermo Scientific™

Thermo Scientific Pierce Nickel Coated Clear 96-Well Plates provide a simple format to bind His-tagged fusion proteins for ELISA and other plate-based assays involving protein interactions of expressed recombinant proteins. These clear plates can be used with colorimetric detection methods.

Features of Pierce Nickel Coated Plates:

• Ni2+ activated surface enables metal-chelate binding of His-tagged proteins
• Detergents used to lyse cells don't inhibit binding to activated plates as they do with plain polystyrene
• Better binding for sensitive assays compared to other commercially available nickel-activated plates
• Detection limit: 1ng of polyhistidine fusion protein
• Binding capacity: approx. 9 pmol His-tagged protein (27kDa) per well
• Activation level: 200 µL

These Ni(2+) chelate-coated plates are ideal for analyzing polyhistidine-tagged fusion proteins by ELISA-based methods. Proteins that contain a succession of several histidine residues at the amino or carboxyl terminus have a strong binding affinity for metal. Bacterial lysates containing polyhistidine-tagged fusion proteins can be added directly to the plates without the need for blocking.

Related Products
Pierce™ Nickel Coated Plates, Clear, 8-Well Strip
Pierce™ Nickel Coated Plates, White, 96-Well
Pierce™ Nickel Coated Plates, Black, 96-Well

Clear Flat-Bottom Immuno Nonsterile 96-Well Plates Thermo Scientific™

Choose from four binding surfaces for reliable and reproducible results in colormetric assays with Thermo Scientific™ Clear Flat-Bottom Immuno Nonsterile 96-Well Plates, which feature Thermo Scientific™ Nunc™, Immulon™ and Microtiter™ clear plates that are ideal for quantitative and qualitative solid phase immunoassays.
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