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Immune Collection

"Unlocking the Power of Immunity: Exploring the Intricate World Within" Delving into the microscopic world

Background imageImmune Collection: TEM of human macrophage

TEM of human macrophage

Background imageImmune Collection: Coloured SEM of a white blood cell (lymphocyte)

Coloured SEM of a white blood cell (lymphocyte)
Lymphocyte blood cell. Coloured scanning electron micrograph (SEM) of a lymphocyte, a common type of white blood cell. Characteristic of this rounded cell are the long microvilli which project

Background imageImmune Collection: Neutrophil cell trapping bacteria, SEM

Neutrophil cell trapping bacteria, SEM
Neutrophil cell trapping bacteria. Coloured scanning electron micrograph (SEM) of bacteria (rod-shaped) being trapped by a neutrophil cell

Background imageImmune Collection: Sleeping Beauty - 6

Sleeping Beauty - 6
Beauty - and everyone else in the palace, human or animal - fall asleep under the witchs spell: only she and her familiars, cat and crow, are immune

Background imageImmune Collection: Macrophage engulfing bead

Macrophage engulfing bead
Illustration based on a scanning electron micrograph of a human macrophage phagocytosing (engulfing) a latex bead. Macrophages are monocytes from circulating blood that have migrated to tissues

Background imageImmune Collection: NEW YORK ATTACKED

NEW YORK ATTACKED
America should not think she is immune from attack : as technology advances, Germany will be able to destroy New York by 1930 Date: 1918

Background imageImmune Collection: Ufo / Hopkinsville / 1955

Ufo / Hopkinsville / 1955
At the Sutton Farm near Hopkinsville eight adults and three children were terrorised by small glowing aliens who were immune to gun shots

Background imageImmune Collection: Immunoglobulin G antibody molecule C016 / 4462

Immunoglobulin G antibody molecule C016 / 4462
Immunoglobulin G antibody molecule. Computer artwork of a model of the secondary structure of immunoglobulin G (IgG). This is the most abundant immunoglobulin and is found in all body fluids

Background imageImmune Collection: The smallpox scare. Vaccinating passengers to France. Vaccination in progress at Messrs

The smallpox scare. Vaccinating passengers to France. Vaccination in progress at Messrs, Cooks head office in Berkeley St. 17 April 1929

Background imageImmune Collection: LM of a field of red and white blood cells

LM of a field of red and white blood cells
Light micrograph of a sample of normal human blood, showing numerous erythrocytes (red blood cells) and four leucocytes (white blood cells) with purple-stained, lobed nuclei

Background imageImmune Collection: Tofacitinib rheumatoid arthritis drug F007 / 0196

Tofacitinib rheumatoid arthritis drug F007 / 0196
Tofacitinib rheumatoid arthritis drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), oxygen (red) and nitrogen (blue)

Background imageImmune Collection: Tofacitinib rheumatoid arthritis drug F007 / 0195

Tofacitinib rheumatoid arthritis drug F007 / 0195
Tofacitinib rheumatoid arthritis drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), oxygen (red) and nitrogen (blue)

Background imageImmune Collection: Antibody molecule F007 / 0109

Antibody molecule F007 / 0109
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Antibody molecule F007 / 0107

Antibody molecule F007 / 0107
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Antibody molecule F007 / 0104

Antibody molecule F007 / 0104
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Antibody molecule F007 / 0105

Antibody molecule F007 / 0105
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Antibody molecule F007 / 0103

Antibody molecule F007 / 0103
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Antibody molecule F007 / 0102

Antibody molecule F007 / 0102
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Antibody molecule F007 / 0101

Antibody molecule F007 / 0101
Antibody molecule. Crystal structure of a monoclonal immunoglobulin (IgG2a). IgG antibodies are composed of 2 long heavy chains and 2 shorter light chains

Background imageImmune Collection: Blood cells, illustration C018 / 0802

Blood cells, illustration C018 / 0802
Blood cells. All cellular blood components originate from the same cell, the haematopoietic stem cell. The stem cell differentiates into two types of progenitor cells

Background imageImmune Collection: Immunoglobulin G antibody molecule C015 / 6789

Immunoglobulin G antibody molecule C015 / 6789
Immunoglobulin G antibody molecule. Computer artwork of a model of the secondary structure of immunoglobulin G (IgG). This is the most abundant immunoglobulin and is found in all body fluids

Background imageImmune Collection: Macrophage feeding bacteria, artwork C017 / 8247

Macrophage feeding bacteria, artwork C017 / 8247
Computer artwork of a macrophage (blue), ingesting a bacterium (red), a process known as phagocytosis. The nucleus is depicted in green

Background imageImmune Collection: Immunoglobulin G antibody molecule C016 / 4456

Immunoglobulin G antibody molecule C016 / 4456
Immunoglobulin G antibody molecule. Computer artwork of a model of the secondary structure of immunoglobulin G (IgG). This is the most abundant immunoglobulin and is found in all body fluids

Background imageImmune Collection: Antigen presentation, SEM C016 / 3105

Antigen presentation, SEM C016 / 3105
Antigen presentation. Coloured scanning electron micrograph (SEM) showing the interaction between a macrophage (blue) and a T helper lymphocyte (Th cell, yellow)

Background imageImmune Collection: Antigen presentation, SEM C016 / 3104

Antigen presentation, SEM C016 / 3104
Antigen presentation. Coloured scanning electron micrograph (SEM) showing the interaction between a macrophage (brown) and a T helper lymphocyte (Th cell, red)

Background imageImmune Collection: False colour TEM of a single neutrophil

False colour TEM of a single neutrophil
False-colour transmission electron micrograph (TEM) of a single neutrophil, the most common type of white blood cell. A prominent feature of a neutrophil is its multi-lobed nucleus (in red)

Background imageImmune Collection: Colour TEM of B-lymphocyte blood cell

Colour TEM of B-lymphocyte blood cell

Background imageImmune Collection: False colour TEM of a single basophil

False colour TEM of a single basophil
False-colour transmission electron micrograph (TEM) of a single basophil, a type of white blood cell. Basophils are the least common of the white cells

Background imageImmune Collection: Coloured TEM of a basophil white blood cell

Coloured TEM of a basophil white blood cell
Polynuclear basophil. Coloured Transmission Electron Micrograph (TEM) of a basophil white blood cell. This basophil has one bi-lobed nucleus (yellow, lower centre) and a second nucleus at upper left

Background imageImmune Collection: False-colour SEM of human T-lymphocytes

False-colour SEM of human T-lymphocytes
False-colour scanning electron micrograph (SEM) of human T-lymphocytes. They are white blood cells, & one of the component cell types of the human immune system

Background imageImmune Collection: Immune response

Immune response. Fluorescent light micrograph of T lymphocytes (red) surrounding glial cells. Glial cells are support cells for neurons (nerve cells)

Background imageImmune Collection: SEM of human lymphocytes & erythrocytes

SEM of human lymphocytes & erythrocytes
False-colour scanning electron micrograph (SEM) of human blood, showing a number of spherical, yellow lymphocytes, the smallest type of white blood cells

Background imageImmune Collection: TEM of eosinophil, type of white blood cell

TEM of eosinophil, type of white blood cell

Background imageImmune Collection: Electron micrograph of B-lymphocyte blood cell

Electron micrograph of B-lymphocyte blood cell
B-lymphocyte. Coloured scanning electron micrograph of a B-lymphocyte white blood cell. The cells surface is covered with tiny ridges and projections called microvilli

Background imageImmune Collection: White blood cell response

White blood cell response
White blood cell movement. Computer-enhanced confocal light micrograph of white blood cells (red) moving through the intact walls of a blood vessel, a process known as diapedesis

Background imageImmune Collection: TEM of human plasmocyte

TEM of human plasmocyte
False-colour transmission electron micrograph (TEM) of a human plasmocyte (plasma cell). Plasmocytes are mature B-lymphocytes (white blood cells)

Background imageImmune Collection: White blood cells and platelets

White blood cells and platelets
White blood cells & platelets. Coloured scanning electron micrograph (SEM) of a group of white blood cells (leucocytes) and activated platelets in human blood

Background imageImmune Collection: Illustration based on SEM of a single T-lymphocyte

Illustration based on SEM of a single T-lymphocyte
Illustration based on a scanning electron micrograph of a single T-lymphocyte, a class of white blood cell. The T-cell develops in the thymus & is a key component of the immune system involved in

Background imageImmune Collection: Coloured TEM of a section through an eosinophil

Coloured TEM of a section through an eosinophil
False colour transmission electron micrograph of a section through an eosinophil, a type of white blood cell. Eosinophils possess a large bilobed nucleus (left)

Background imageImmune Collection: False-colour TEM of a human lymphocyte

False-colour TEM of a human lymphocyte
False-colour transmission electron micrograph (TEM) of a single human lymphocyte, the smallest of the white blood cells. The large

Background imageImmune Collection: Coloured SEM of B-lymphocyte white blood cells

Coloured SEM of B-lymphocyte white blood cells
B-lymphocyte. Coloured Scanning Electron Microgr- aph of a group of B-lymphocyte white blood cells. The cell surfaces are covered with tiny ridges and projections called microvilli

Background imageImmune Collection: White blood cells

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

Background imageImmune Collection: Coloured TEM of a T-lymphocyte white blood cell

Coloured TEM of a T-lymphocyte white blood cell

Background imageImmune Collection: False-col TEM of a lymphocyte

False-col TEM of a lymphocyte
False-colour transmission electron micrograph (TEM) of a lymphocyte, a type of white blood cell involved in the bodys specific immune response

Background imageImmune Collection: Immunofluorescent LM of natural killer blood cells

Immunofluorescent LM of natural killer blood cells
Natural killer cell. Immunofluorescent light micrograph of human Natural Killer (NK) cells. The nucleus of each cell is blue, with the cytoplasm proteins stained green, yellow and red

Background imageImmune Collection: SEM of two polymorphonuclear white blood cells

SEM of two polymorphonuclear white blood cells
White blood cells. Scanning electron micrograph of two polymorphonuclear white blood cells (leucocytes). These cells, also known as neutrophils or polymorphs are involved in protecting the body

Background imageImmune Collection: Lymph node, light micrograph

Lymph node, light micrograph
Lymph node. Coloured light micrograph of a section through a lymph node. A lymph node filters pathogens from lymph fluid, a watery liquid that surrounds the tissues of the body

Background imageImmune Collection: High endothelial venule, TEM

High endothelial venule, TEM
High endothelial venule. Coloured transmission electron micrograph (TEM) of the tall cuboidal endothelial cells (upper layer) lining a high endothelial venule (HEV)

Background imageImmune Collection: Lymph node, SEM

Lymph node, SEM
Lymph node. Coloured scanning electron micrograph (SEM) of a freeze fracture section through a lymph node, showing part of the medullary sinus

Background imageImmune Collection: Lymph node

Lymph node
Illustration of a sectioned, whole human lymph node. Lymph nodes are encapsulated, kidney shaped structures that are usually located at intervals along lymph vessels

Background imageImmune Collection: Artwork showing lymph nodes in the neck

Artwork showing lymph nodes in the neck
Lymph nodes. Artwork showing the position of lymph nodes (green) in the neck. Lymph nodes are part of the lymphatic system, which helps protect against diseases and infections

Background imageImmune Collection: Coloured LM of a follicle of a human lymph node

Coloured LM of a follicle of a human lymph node
Lymphoid follicle. Coloured light micrograph (LM) of a section through a follicle of a human lymph node. The follicle contains B-cells and antibodies, parts of the immune system

Background imageImmune Collection: Artwork illustrating human lymphatic sytem

Artwork illustrating human lymphatic sytem
Artwork illustrating the human lymphatic system, a network of vessels that carries lymph (water, proteins, electrolytes) from the tissue fluids to the bloodstream

Background imageImmune Collection: Macrophage engulfing bacteria, artwork

Macrophage engulfing bacteria, artwork
Macrophage engulfing bacteria. Computer artwork of a macrophage white blood cell (pink) engulfing bacteria (blue). This process is called phagocytosis

Background imageImmune Collection: Macrophages and tuberculosis vaccine

Macrophages and tuberculosis vaccine. Fluorescence light micrograph of macrophage (red, outlined in black) white blood cells that have phagocytosed (engulfed) Mycobacterium bovis bacteria (pink)

Background imageImmune Collection: Macrophage ingesting debris, SEM

Macrophage ingesting debris, SEM
Macrophage ingesting cell debris at the site of a wound, coloured scanning electron micrograph (SEM). Macrophages are a type of large white blood cell that are part of the bodys immune system

Background imageImmune Collection: Macrophage cell, TEM

Macrophage cell, TEM
Macrophage. Coloured transmission electron micrograph (TEM) of a macrophage cell. The cells nucleus is bright green. Mitochondria (green) in the cells cytoplasm produce energy for the cell

Background imageImmune Collection: Neutrophils and anthrax bacteria, SEM

Neutrophils and anthrax bacteria, SEM
Neutrophils and anthrax bacteria. Coloured scanning electron micrograph (SEM) of neutrophil white blood cells (yellow) and Bacillus anthracis bacteria (orange)

Background imageImmune Collection: Neutrophil and trapped bacteria, TEM

Neutrophil and trapped bacteria, TEM
Neutrophil and trapped bacteria. Coloured transmission electron micrograph (TEM) of Neisseria gonorrhoeae bacteria (blue) trapped by a neutrophil (orange), a type of white blood cell

Background imageImmune Collection: Macrophage and tuberculosis vaccine, TEM

Macrophage and tuberculosis vaccine, TEM
Macrophage and tuberculosis vaccine. Coloured transmission electron micrograph (TEM) of phagocytosed (engulfed) Mycobacterium bovis bacteria (purple) in a macrophage (green) white blood cell

Background imageImmune Collection: Macrophage white blood cell, SEM

Macrophage white blood cell, SEM
Macrophage. Coloured scanning electron micrograph (SEM) of a macrophage white blood cell at the site of a skin wound. Macrophages are cells of the bodys immune system

Background imageImmune Collection: Macrophage engulfing tuberculosis vaccine

Macrophage engulfing tuberculosis vaccine. Coloured scanning electron micrograph (SEM) of a macrophage white blood cell engulfing Mycobacterium bovis bacteria (yellow)

Background imageImmune Collection: Neutrophil cell and bacteria, SEM

Neutrophil cell and bacteria, SEM
Neutrophil cell and bacteria. Coloured scanning electron micrograph (SEM) of bacteria (rod-shaped) and part of a neutrophil cell (lower left)

Background imageImmune Collection: Macrophage cell engulfing bacteria, TEM

Macrophage cell engulfing bacteria, TEM
Macrophage cell engulfing bacteria. Coloured transmission electron micrograph (TEM) of bacteria (centre, rod-shaped) inside a macrophage cell

Background imageImmune Collection: Monocyte white blood cells, SEM

Monocyte white blood cells, SEM
Monocytes. Coloured scanning electron micrograph (SEM) of monocyte white blood cells. These are the largest white blood cells, and are formed in bone marrow

Background imageImmune Collection: Immunofluorescent LM of an active macrophage

Immunofluorescent LM of an active macrophage
Active macrophage. Immunofluorescent light micrograph of an active macrophage white blood cell producing the enzyme inducible nitric oxide synthetase (iNOS, red)

Background imageImmune Collection: Immunofluorescent LM of active macrophages

Immunofluorescent LM of active macrophages
Active macrophages. Immunofluorescent light micrograph of active macrophage white blood cells producing cytokine proteins. The cells have multiple nuclei (blue)

Background imageImmune Collection: Coloured SEM of a monocyte in a blood capillary

Coloured SEM of a monocyte in a blood capillary
Monocyte. Coloured Scanning Electron Micrograph (SEM) of a monocyte (macrophage) in a blood capillary of the " zona reticularis" of the adrenal gland

Background imageImmune Collection: SEM of immune system phagocyte ingesting bacteria

SEM of immune system phagocyte ingesting bacteria
Phagocytic immune response. Scanning electron micrograph of a polymorphonuclear white blood cell (leucocyte) attacking Bacillus cereus bacteria

Background imageImmune Collection: False-colour SEM of a macrophage & lymphocyte

False-colour SEM of a macrophage & lymphocyte
Macrophage in contact with a lymphocyte. False- colour scanning electron micrograph (SEM) of a macrophage (gold) in contact with a lymphocyte, a type of white blood cell

Background imageImmune Collection: Coloured EM of macrophage with engulfed Legionella

Coloured EM of macrophage with engulfed Legionella
Coloured transmission electron micrograph (TEM) of a human lung macrophage which has engulfed the bacteria Legionella pneumophila

Background imageImmune Collection: Immunofluorescent LM of macrophage in brain tissue

Immunofluorescent LM of macrophage in brain tissue
Immunofluorescent Light Micrograph of a macrophage within brain tissue. Macrophages found in nervous tissue are termed microglia

Background imageImmune Collection: SEM of a macrophage cell moving over a surface

SEM of a macrophage cell moving over a surface
Scanning electron micrograph (SEM) of a macrophage cell moving over a surface. Wandering macrophages are monocytes from circulating blood that function to defend the body against invasion by foreign

Background imageImmune Collection: False-colour SEM of Kupffer cell in liver

False-colour SEM of Kupffer cell in liver

Background imageImmune Collection: False-colour SEM of macrophage in liver

False-colour SEM of macrophage in liver
Macrophage in liver: false-colour scanning electron micrograph (SEM) of a reticuloendothelial cell (a type of macrophage) within a fenestrated capillary of the liver (blue)

Background imageImmune Collection: Macrophage engulfs bacteria

Macrophage engulfs bacteria
Artwork of a macrophage blood cell phagocyting some green, rod-shaped bacteria. Macrophages derive from monocytes (white blood cells)

Background imageImmune Collection: Illustration showing alveoli in the human lung

Illustration showing alveoli in the human lung
Illustration based on a scanning electron micrograph of macrophages fixed to the surface of alveoli (air sacs) in the human lung

Background imageImmune Collection: MRSA being cultured in a Petri dish

MRSA being cultured in a Petri dish
Conceptual computer illustration of MRSA bacteria being cultured in a Petri dish. Methicillin-resistant Staphylococcus aureus (MRSA)

Background imageImmune Collection: Macrophage cells, TEM

Macrophage cells, TEM
Macrophage cells, coloured transmission electron micrograph (TEM). The cell nuclei are purple. Mitochondria (dark pink ovals) in the cytoplasm produce energy for the cell

Background imageImmune Collection: The entrance to a captured German dug-out

The entrance to a captured German dug-out
The staircase and entrance to a German dug-out captured by the British army during the Somme offensive in July 1916. Such shelters were often highly elaborate

Background imageImmune Collection: Clown fish (Amphiprion ocellaris) swimming in Magnificent anemone - Aquariumgalicia Reboredo

Clown fish (Amphiprion ocellaris) swimming in Magnificent anemone - Aquariumgalicia Reboredo Galicia Spain
MAB-267 Clown fish (Amphiprion ocellaris) swimming in Magnificent anemone Aquariumgalicia Reboredo Galicia, Spain Heteractis magnifica Mark Boulton Please note that prints are for personal display



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"Unlocking the Power of Immunity: Exploring the Intricate World Within" Delving into the microscopic world, a TEM image reveals the intricate structure of human macrophages, our immune system's frontline defenders. A mesmerizing Coloured SEM showcases a white blood cell, or lymphocyte, in action as it tirelessly patrols our body for invaders. In this modern-day fairy tale twist, "Sleeping Beauty - 6, " we witness how our immune system springs into action during slumber to protect us from harm. Witnessing an incredible feat of defense, a macrophage engulfs a bead with precision and efficiency, highlighting its role as an essential immune cell. The collaboration between white blood cells and platelets forms an unbreakable shield against pathogens that dare to threaten our well-being. Peering through the lens of a TEM microscope once again unveils the remarkable beauty and complexity of macrophage cells in their battle against infection. Reflecting on history's conquests and colonies in South America during the 16th century through an ancient lithographic map reminds us how immunity played a pivotal role in shaping civilizations. Breaking news alert. "New York Attacked" serves as a stark reminder that bolstering our immune defenses is crucial now more than ever before. Unexplained phenomena captured on film: The Hopkinsville UFO incident of 1955 raises questions about extraterrestrial encounters while reminding us to stay vigilant against unknown threats to our health. Zooming in on Immunoglobulin G antibody molecule C016 / 4462 reveals its vital role as one of nature's superheroes fighting off infections within our bodies' defense mechanisms. The smallpox scare lingers throughout history; here we see passengers being vaccinated before traveling to France—a testament to humanity's resilience when faced with deadly diseases.

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