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Monoclonal Antibodies

Other Monoclonal Antibodies

Anti Human Lymphocyte

Anti Mouse Cytokine

Anti Human Cytokine

Anti Mouse Lymphocyte

Anti-GST Monoclonal

Anti Viral Monoclonal

Anti Human Heat Shock Protein

Anti Human Enzyme

Product List

RAB7A Antibody

Mouse Anti Human RAB7A, Member RAS Oncogene Family

Shipped with Ice Packs

Cat. No.

BT30178

Source

Appearance

Sterile filtered colorless solution.

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RAC2 Antibody

Ras-Related C3 Botulinum Toxin Substrate 2, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30337

Source

Appearance

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RALA Antibody

V-ral Simian Leukemia Viral Oncogene Homolog A, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30362

Source

Appearance

Sterile filtered colorless solution.

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RANBP3 Antibody

RAN Binding Protein 3, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30388

Source

Appearance

Sterile filtered colorless solution.

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RASSF1A Antibody

Ras association domain-containing protein 1, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30421

Source

Appearance

Sterile Filtered clear solution.

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RUVBL1 Antibody

RuvB-Like 1, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30451

Source

Appearance

Sterile filtered colorless solution.

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s100A11 Antibody

S100 Calcium Binding Protein A11, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30482

Source

Appearance

Sterile filtered colorless solution.

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s100A4 Antibody

S100 Calcium Binding Protein A4, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30519

Source

Appearance

Sterile filtered colorless solution.

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SAR1B Antibody

GTP-Binding Protein SAR1B, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30553

Source

Appearance

Sterile Filtered colorless solution.

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SBDS Antibody

Shwachman-Bodian-Diamond Syndrome, Mouse Anti Human

Shipped with Ice Packs

Cat. No.

BT30565

Source

Appearance

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Showing 241 to 250 of 270 results

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 produced by identical immune cells that are all clones of a unique parent cell. Monoclonal antibodies can be classified based on their source and structure:

Murine mAbs: Derived from mouse cells.
Chimeric mAbs: Contain both human and mouse components.
Humanized mAbs: Mostly human, with only small mouse-derived components.
Human mAbs: Fully human antibodies.

Biological Properties

Monoclonal antibodies exhibit several key biological properties:

Protein Sequence: Identical protein sequences and antigen-binding sites.
Expression Patterns: Produced by B lymphocytes and expressed in hybridoma cells.
Tissue Distribution: Can be designed to target specific tissues or cells, such as cancer cells.

Biological Functions

Monoclonal antibodies play crucial roles in the immune system:

Pathogen Recognition: Bind to specific antigens on pathogens, marking them for destruction.
Immune Response: Enhance the immune system’s ability to fight infections and diseases.
Therapeutic Functions: Used in treating various diseases, including cancer, autoimmune disorders, and infectious diseases.

Modes of Action

Monoclonal antibodies interact with other molecules and cells through various mechanisms:

Binding Partners: Bind to specific antigens on target cells.
Downstream Signaling Cascades: Trigger immune responses by activating immune cells and complement systems.
Effector Functions: Engage Fc receptors on immune cells, leading to cell-mediated cytotoxicity.

Regulatory Mechanisms

The expression and activity of monoclonal antibodies are tightly regulated:

Transcriptional Regulation: Controlled by specific transcription factors that regulate the expression of antibody genes.
Post-Translational Modifications: Undergo modifications such as glycosylation, which can affect their stability and function.

Applications

Monoclonal antibodies have a wide range of applications in biomedical research and medicine:

Diagnostic Tools: Used in assays to detect specific antigens in samples.
Therapeutic Strategies: Employed in the treatment of cancers, autoimmune diseases, and infectious diseases.
Biomedical Research: Serve as tools to study cellular processes and disease mechanisms.

Role in the Life Cycle

Monoclonal antibodies play roles throughout the life cycle:

Development: Used in prenatal diagnostics and treatments.
Aging: Help manage age-related diseases such as cancer and Alzheimer’s.
Disease: Provide targeted therapies for various diseases, improving patient outcomes.