Immunoglobulin Collection (#2)

Antibodies, artwork C013 / 8800
Antibodies. Computer artwork of antibody, or immunoglobulin, molecules. These y-shaped molecules have two arms that can bind to specific antigens, for instance viral or bacterial proteins

Antibodies, artwork C013 / 7792
Antibodies. Computer artwork of antibody, or immunoglobulin, molecules. These y-shaped molecules have two arms that can bind to specific antigens, for instance viral or bacterial proteins

Antibodies, artwork C013 / 7791
Antibodies. Computer artwork of antibody, or immunoglobulin, molecules. These y-shaped molecules have two arms that can bind to specific antigens, for instance viral or bacterial proteins

Antibodies, artwork C013 / 4683
Antibodies. Computer artwork of antibody, or immunoglobulin, molecules. The y-shaped molecules have two arms that can bind to specific antigens, for instance viral or bacterial proteins

Viral recognition by antibodies, artwork C013 / 4722
Viral recognition by antibodies. Computer artwork of rabies (family Rhabdoviridae) virus particles (virions, pink) being identified by monoclonal antibodies (Y-shaped, blue)

Computer graphics of immunoglobin (IgG)
Computer graphics image of antibodies moving along an artery. Antibodies, special blood proteins, are synthesised in lymphoid tissue in response to the presence of a particular antigen

White blood cells. Computer artwork of B lymphocytes, or B cells, each containing an antibody molecule. B cells mature in the bone marrow

Sketch of 3 antibodies, computer artwork. An antibody, also known as an immunoglobulin, is an assembly of proteins that allows the immune system to identify

Immunoglobulin G antibodies, TEM
Immunoglobulin G antibody molecules, coloured transmission electron micrograph (TEM). IgG is the most abundant human immunoglobulin, and is found in all body fluids

Antibodies
Antibody, computer artwork. An antibody, also known as an immunoglobulin, is an assembly of proteins that allows the immune system to identify and neutralise foreign objects in the body

Antibody, artwork

Antibodies attacking flu virus, artwork

Immune system, artwork
Immune system. Computer artwork showing how T-cells (right), antibodies (Y-shaped) and antigen-presenting cells (APC, left) interact during an immune response

Antibodies and their antigen. Computer model showing the molecular structure of two anti-P-glycoprotein antibodies (upper left and right) and the P-glycoprotein (blue) to which they respond

Immunoglobulin pentamer, artwork
Immunoglobulin pentamer, computer artwork. Immunoglobulin (Ig) proteins, also known as antibodies, are gamma globulin proteins that are part of the mammalian immune system

Immunoglobulin crystals, light micrograph
Immunoglobulin crystals, polarised light micrograph. Immunoglobulins, or antibodies, are a type of globulin protein that are produced by B cells (a type of white blood cell)

B domain of staphylococcal protein A
B domain of Staphylococcus aureus protein A, molecular model. Protein A is a surface factor found on the membrane of S. aureus bacteria

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"Unleashing the Power of Immunoglobulin: Unveiling the Mighty Defenders" Immunoglobulins, also known as antibodies, are remarkable proteins produced by plasma cells in our immune system. These tiny warriors play a crucial role in safeguarding our health against various pathogens and diseases. In this captivating image captured through Transmission Electron Microscopy (TEM), we witness the Foot-and-mouth disease virus F006 / 9556 being targeted by an Immunoglobulin G antibody molecule C016 / 4462. This conceptual representation showcases how antibodies attach to harmful bacteria, effectively neutralizing and eliminating them. Zooming into the microscopic world of human B-cells, we observe their intricate structure responsible for producing these powerful immunoglobulins. Their tireless efforts ensure that our bodies are equipped with a diverse arsenal of defense mechanisms. Another conceptual image portrays an antibody attaching itself to a bacterium, illustrating its ability to recognize and eliminate specific threats with precision and efficiency. This visual depiction highlights the extraordinary specificity exhibited by immunoglobulins. Further exploration reveals microscopic views of human antibodies interacting with red blood cells – a testament to their constant vigilance in protecting us from harm. The complexity and elegance displayed in these images emphasize the intricate dance between our immune system's components. Not limited to bacterial foes alone, immunoglobulins also combat viral intruders like H5N1 virus alongside red blood cells and white blood cells as seen under high magnification microscopy. Witnessing this battle on such a minuscule scale reminds us of the relentless fight occurring within our bodies every day. Additionally, we encounter natural killer cells injecting toxins into bacteria - yet another awe-inspiring display of immunity at work. These specialized cells act swiftly against invaders, reinforcing our defenses when needed most.