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Monoclonal Antibodies

Anti Viral Monoclonal

Anti Human Lymphocyte

Other Monoclonal Antibodies

Anti Mouse Cytokine

Anti Human Cytokine

Anti Mouse Lymphocyte

Anti-GST Monoclonal

Anti Human Heat Shock Protein

Anti Human Enzyme

Product List

Influenza-B Antibody

Influenza-B, Mouse Antibody

This hybridoma cell line was generated by fusing Sp2/0 myeloma cells with spleen cells isolated from Balb/c mice. The Balb/c mice were immunized with a purified preparation of the influenza virus type B strain B/Tokio/53/99.

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Cat. No.

BT8495

Appearance

A clear solution that has been sterilized by filtration.

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Influenza-B Paired Antibody

Mouse Anti Influenza-B Paired

Influenza-B conjugation antibody and Influenza-B coating antibody are paired to develop rapid diagnostic tests for Influenza-B. Important: When ordering, for instance, 100µg of antibody, you will receive 50µg of each antibody type (totaling 100µg).

Shipped with Ice Packs

Cat. No.

BT8559

Appearance

Provided as two vials containing a sterile, filtered solution that is clear and colorless.

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Norovirus Group-I Paired Antibody

Mouse Anti Norovirus Group-I Paired

This product consists of two antibodies targeting the Norovirus Group I nuclear protein. These antibodies, one for capture and one for conjugation, are specifically designed for use in lateral flow assays to detect Norovirus I antigen in stool samples. The capture antibody functions by coating the assay surface, while the conjugating antibody is linked to colloidal gold for detection.
Important: When placing an order, for example, for 100µg of antibody, you will receive 50µg of each antibody type (totaling 100µg).

Shipped with Ice Packs

Cat. No.

BT8618

Appearance

The product is supplied as two separate vials containing a clear, colorless solution that has been sterile filtered.

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SARS Nucleocapsid Monoclonal

SARS-Nucleocapsid, Monoclonal Antibody

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Cat. No.

BT9971

Appearance

The product appears as a sterile, filtered, white lyophilized (freeze-dried) powder.

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SARS Nucleocapsid PT3851

Mouse Anti SARS Nucleocapsid Clone PT3851

The SARS Nucleoprotein antibody, clone PT3851, exhibits specificity for the nucleocapsid protein of SARS-CoV and demonstrates recognition of the SARS-CoV-2 nucleoprotein in ELISA assays.

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Cat. No.

BT10039

Appearance

The product is provided as a sterile filtered liquid.

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SARS Spike Monoclonal

SARS-Spike protein, Monoclonal Antibody

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Cat. No.

BT10129

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CoV Spike Porcine

Mouse Anti Porcine Coronavirus Spike Monoclonal

Shipped with Ice Packs

Cat. No.

BT5659

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CoV Spike Porcine, PTT1E11

Mouse Anti Porcine Coronavirus Spike Monoclonal, clone PTT1E11

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Cat. No.

BT5744

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HBsAg Antibody

Hepatitis-B Surface , Mouse antibody

Shipped with Ice Packs

Cat. No.

BT6633

Appearance

Sterile filtered solution.

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HBsAg Paired Antibody

Mouse Anti Hepatitis B Surface Antigen Paired

A paired monoclonal antibody set has been developed for HBsAg antigen lateral flow immunoassay product. When ordering a quantity of antibody, for example 100µg, you will receive 50µg of each antibody for a total of 100µg.

Shipped with Ice Packs

Cat. No.

BT6711

Appearance

Two vials containing sterile, filtered, clear, and colorless solution.

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Introduction

Definition and Classification

Monoclonal antibodies (mAbs) are laboratory-produced molecules engineered to serve as substitute antibodies that can restore, enhance, or mimic the immune system’s attack on cells. They are designed to bind to antigens that are generally more specific than polyclonal antibodies. Anti-viral monoclonal antibodies are a subset of mAbs specifically designed to target and neutralize viruses. These antibodies can be classified based on their source (e.g., murine, chimeric, humanized, or fully human) and their mechanism of action (e.g., neutralizing vs. non-neutralizing).

Biological Properties

Anti-viral monoclonal antibodies exhibit several key biological properties:

Expression Patterns: These antibodies are typically produced in mammalian cell lines such as CHO (Chinese Hamster Ovary) cells, which allow for proper folding and post-translational modifications.
Tissue Distribution: Once administered, mAbs distribute throughout the body, with a significant presence in the bloodstream and tissues where the targeted virus is likely to be found.

Biological Functions

The primary biological functions of anti-viral monoclonal antibodies include:

Immune Response: They enhance the immune response by binding to viral antigens and marking them for destruction by immune cells.
Pathogen Recognition: These antibodies recognize and bind to specific viral proteins, preventing the virus from entering host cells and replicating.

Modes of Action

Anti-viral monoclonal antibodies operate through several mechanisms:

Binding Partners: They bind to viral surface proteins, such as the spike protein of SARS-CoV-2, blocking the virus from attaching to host cell receptors.
Downstream Signaling Cascades: Upon binding to the virus, these antibodies can trigger downstream signaling pathways that lead to the activation of immune cells and the destruction of the virus.

Regulatory Mechanisms

The expression and activity of anti-viral monoclonal antibodies are tightly regulated:

Transcriptional Regulation: The genes encoding these antibodies are often placed under the control of strong promoters to ensure high levels of expression in production cell lines.
Post-Translational Modifications: These antibodies undergo various post-translational modifications, such as glycosylation, which are crucial for their stability and function.

Applications

Anti-viral monoclonal antibodies have a wide range of applications:

Biomedical Research: They are used to study viral infections and the immune response to these infections.
Diagnostic Tools: mAbs are employed in diagnostic assays to detect the presence of viruses in clinical samples.
Therapeutic Strategies: These antibodies are used as treatments for viral infections, either alone or in combination with other antiviral agents.

Role in the Life Cycle

Throughout the life cycle, anti-viral monoclonal antibodies play crucial roles:

Development: During development, these antibodies can be used to study the immune response to viral infections and to develop vaccines.
Aging and Disease: In aging populations and individuals with compromised immune systems, mAbs can provide passive immunity and help control viral infections.