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Human palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X75 when printed Stock Photo
RM2DF7R0CHuman palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X75 when printed
Scanning electron micrograph diatom Stock Photo
RFF3H83PScanning electron micrograph diatom
Hodgkin's lymphoma, light micrograph Stock Photo
RFD1P691Hodgkin's lymphoma, light micrograph
Reflected light micrograph of varied carpet beetle (Anthrenus verbasci), pictured area is about 1.5mm wide Stock Photo
RFK1K1TYReflected light micrograph of varied carpet beetle (Anthrenus verbasci), pictured area is about 1.5mm wide
Mitochondrion in Bat Pancreas Cell, TEM Stock Photo
RMT81RY9Mitochondrion in Bat Pancreas Cell, TEM
micrograph plant root tip tissue cell Stock Photo
RFCXD8D6micrograph plant root tip tissue cell
Diatoms, Gomphonema geminatum Stock Photo
RMHF99N4Diatoms, Gomphonema geminatum
Ant photographed under a microscope. Black garden ant. Light micrograph of a black garden worker ant (Lasius niger). Worker ants are sterile, wingless Stock Photo
RMKPA8H0Ant photographed under a microscope. Black garden ant. Light micrograph of a black garden worker ant (Lasius niger). Worker ants are sterile, wingless
Zea stem, maize stem, cross section, 20X light micrograph. Stem of the plant Zea mays, under the light microscope. Stock Photo
RF2M640C1Zea stem, maize stem, cross section, 20X light micrograph. Stem of the plant Zea mays, under the light microscope.
Colorized scanning electron micrograph of a T lymphocyte. Stock Photo
RFHG65C6Colorized scanning electron micrograph of a T lymphocyte.
Electron micrograph of equine adenovirus. Stock Photo
RMECWX3PElectron micrograph of equine adenovirus.
Transmission electron Micrograph of the Ebola Virus Hemorrhagic Fever RNA Virus Stock Photo
RMP67WN3Transmission electron Micrograph of the Ebola Virus Hemorrhagic Fever RNA Virus
Scanning electron microscope (SEM) micrograph showing spider's silk, including thread, hydrogel and nano-fibril silk types, at a magnification of 1500x, 2016. Stock Photo
RMKW4HC7Scanning electron microscope (SEM) micrograph showing spider's silk, including thread, hydrogel and nano-fibril silk types, at a magnification of 1500x, 2016.
Transmission electron micrograph (TEM) of the Sin Nombre virus (SNV), which are members of the genus Hantavirus, within the Stock Photo
RME5R34KTransmission electron micrograph (TEM) of the Sin Nombre virus (SNV), which are members of the genus Hantavirus, within the
Light Micrograph (LM) of a transverse section of a stem of a Palm, magnification x12 Stock Photo
RMBRC1HRLight Micrograph (LM) of a transverse section of a stem of a Palm, magnification x12
Scanning electron micrograph of Mycobacterium tuberculosis bacteria, which cause TB. Stock Photo
RME8KR8JScanning electron micrograph of Mycobacterium tuberculosis bacteria, which cause TB.
Human Cardiac Muscle Micrograph Stock Photo
RMFCRW62Human Cardiac Muscle Micrograph
Electron micrograph of a cross section of mitochondria in cardiac muscle tissue Stock Photo
RMPYJPH0Electron micrograph of a cross section of mitochondria in cardiac muscle tissue
Ebola virus Makona. Scanning electron micrograph of Ebola virus Makona (rendered red) from the West African epidemic shown on the surface of Vero cells (blue).Scientists speculated that the genetic diversity of the circulating Makona strain of virus (EBOV-Makona) would result in more severe disease and more transmissibility than prior strains, but using two different animal models scientists determined that certain mutations stabilised early during the epidemic and did not alter Ebola disease presentation or outcome. Credit: National Institute of Allergy and Infectious Diseases, NIH Stock Photo
RM2K5E6YWEbola virus Makona. Scanning electron micrograph of Ebola virus Makona (rendered red) from the West African epidemic shown on the surface of Vero cells (blue).Scientists speculated that the genetic diversity of the circulating Makona strain of virus (EBOV-Makona) would result in more severe disease and more transmissibility than prior strains, but using two different animal models scientists determined that certain mutations stabilised early during the epidemic and did not alter Ebola disease presentation or outcome. Credit: National Institute of Allergy and Infectious Diseases, NIH
Human palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X75 when printed Stock Photo
RM2DF7PYJHuman palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X75 when printed
Transmission electron micrograph of a single virus particle, or virion, of measles virus Stock Photo
RFHNW750Transmission electron micrograph of a single virus particle, or virion, of measles virus
Blastocyst embryo, light micrograph Stock Photo
RFDP4PYABlastocyst embryo, light micrograph
Dark field micrograph of collembola (springtail) 'spring', horizontal filed of view is about 0.24mm (50x objective magnification) Stock Photo
RM2BRW6W0Dark field micrograph of collembola (springtail) 'spring', horizontal filed of view is about 0.24mm (50x objective magnification)
Transmission Electron Micrograph (TEM) showing Toxoplasma cyst. Toxoplasma is a parasitic protozoan that causes the disease Toxoplasmosis. Magnification unknown. Stock Photo
RM2BE0GP5Transmission Electron Micrograph (TEM) showing Toxoplasma cyst. Toxoplasma is a parasitic protozoan that causes the disease Toxoplasmosis. Magnification unknown.
micrograph plant root tip tissue cell Stock Photo
RFCXD89Nmicrograph plant root tip tissue cell
Cross polarized lighting example, photomicrograph of a mineral section Stock Photo
RMGD893NCross polarized lighting example, photomicrograph of a mineral section
Microscopic view of the Ebola virus. Colorized scanning electron micrograph of filamentous Ebola virus particles attached to and budding from a chronically infected VERO E6 cell. Stock Photo
RME6JJKDMicroscopic view of the Ebola virus. Colorized scanning electron micrograph of filamentous Ebola virus particles attached to and budding from a chronically infected VERO E6 cell.
Radish root, cross section under light microscope. Transverse section through the root of the Raphanus sativus plant. Micrograph at 8X magnification. Stock Photo
RF2M451F0Radish root, cross section under light microscope. Transverse section through the root of the Raphanus sativus plant. Micrograph at 8X magnification.
Scanning electron micrograph of a human neutrophil ingesting MRSA. Stock Photo
RFECF1CAScanning electron micrograph of a human neutrophil ingesting MRSA.
Electron micrograph of equine adenovirus. Stock Photo
RMECWX3WElectron micrograph of equine adenovirus.
Transmission electron Micrograph of the Ebola Virus Hemorrhagic Fever RNA Virus Stock Photo
RMP67WN2Transmission electron Micrograph of the Ebola Virus Hemorrhagic Fever RNA Virus
Scanning electron microscope (SEM) micrograph showing spider's silk, at a magnification of 2500x, 2016. Stock Photo
RMKW4HBMScanning electron microscope (SEM) micrograph showing spider's silk, at a magnification of 2500x, 2016.
Coloured scanning electron micrograph (SEM) of methicillin-resistant Staphylococcus aureus (MRSA) bacteria. Stock Photo
RMEHN71HColoured scanning electron micrograph (SEM) of methicillin-resistant Staphylococcus aureus (MRSA) bacteria.
Light Micrograph (LM) of a transverse section of a Helianthus stem, magnification x 18 Stock Photo
RMBRC1FTLight Micrograph (LM) of a transverse section of a Helianthus stem, magnification x 18
Colorized transmission electron micrograph of Middle East respiratory syndrome coronavirus particles. Stock Photo
RME8KR0KColorized transmission electron micrograph of Middle East respiratory syndrome coronavirus particles.
Pipetting of sample into Petri dish containing cell micrograph Stock Photo
RF2HCBPRWPipetting of sample into Petri dish containing cell micrograph
Scanning electron micrograph of a freshwater amphipod (Hyalella sp) Stock Photo
RFHNX6MPScanning electron micrograph of a freshwater amphipod (Hyalella sp)
a marine diatom:Licmophora flabellata, from the Tyrrhenian sea, a photo-micrograph in interference contrast Stock Photo
RFM9MF85a marine diatom:Licmophora flabellata, from the Tyrrhenian sea, a photo-micrograph in interference contrast
Human palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X30 when printed Stock Photo
RM2DF7R06Human palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X30 when printed
Micrograph of Paragonimus westermani termatode egg Stock Photo
RFF3H872Micrograph of Paragonimus westermani termatode egg
Kidney cancer, computer illustration and light micrograph. Stock Photo
RF2CP4CX0Kidney cancer, computer illustration and light micrograph.
Dark field light micrograph of Lactarius rubrilacteus (bleeding milkcap) mushroom spores, pictured area is about 120 microns wide Stock Photo
RMMBNRWKDark field light micrograph of Lactarius rubrilacteus (bleeding milkcap) mushroom spores, pictured area is about 120 microns wide
Scanning electron micrograph of neutrophil ingesting methicillin-resistant Staphylococcus aureus bacteria. Methicillin-resistant Staphylococcus aureus (MRSA) is a bacterium responsible for several difficult-to-treat infections in humans. It is also called multidrug-resistant Staphylococcus aureus and oxacillin-resistant Staphylococcus aureus (ORSA). MRSA is any strain of Staphylococcus aureus that has developed resistance to beta-lactam antibiotics, which include penicillins and cephalosporins. Strains unable to resist these antibiotics are classified as methicillin-sensitive Staphylococcus au Stock Photo
RM2BE0HA8Scanning electron micrograph of neutrophil ingesting methicillin-resistant Staphylococcus aureus bacteria. Methicillin-resistant Staphylococcus aureus (MRSA) is a bacterium responsible for several difficult-to-treat infections in humans. It is also called multidrug-resistant Staphylococcus aureus and oxacillin-resistant Staphylococcus aureus (ORSA). MRSA is any strain of Staphylococcus aureus that has developed resistance to beta-lactam antibiotics, which include penicillins and cephalosporins. Strains unable to resist these antibiotics are classified as methicillin-sensitive Staphylococcus au
Onion epidermus micrograph Stock Photo
RFEJCA31Onion epidermus micrograph
Coprinus toadstool darkfield micrograph showing gills Stock Photo
RMDA8AGBCoprinus toadstool darkfield micrograph showing gills
A transmission electron micrograph of COVID-19, novel coronavirus, an apoptotic cell heavily infected with SARS-COV-2 virus particles, isolated from a patient sample at the NIAID Integrated Research Facility March 19, 2020 in Fort Detrick, Maryland. Stock Photo
RF2B89B3GA transmission electron micrograph of COVID-19, novel coronavirus, an apoptotic cell heavily infected with SARS-COV-2 virus particles, isolated from a patient sample at the NIAID Integrated Research Facility March 19, 2020 in Fort Detrick, Maryland.
Zea root tip, under the light microscope. Longitudinal section through the tip of a maize plant root, Zea mays. Light micrograph at 8X magnification. Stock Photo
RF2M43140Zea root tip, under the light microscope. Longitudinal section through the tip of a maize plant root, Zea mays. Light micrograph at 8X magnification.
Scanning electron micrograph of HIV particles infecting a human H9 T cell. Stock Photo
RFECF1N3Scanning electron micrograph of HIV particles infecting a human H9 T cell.
Scanning electron micrograph of Leptospira bacteria. Stock Photo
RMECWY46Scanning electron micrograph of Leptospira bacteria.
A composite of images of the monkeypox virus. An optimised and enhanced unique composite version of six scanning electron micrograph images, Credit: NIAID Stock Photo
RM2M31C3TA composite of images of the monkeypox virus. An optimised and enhanced unique composite version of six scanning electron micrograph images, Credit: NIAID
Scanning electron microscope (SEM) micrograph showing spider's silk, at a magnification of 1500x, 2016. Stock Photo
RMKW4HBWScanning electron microscope (SEM) micrograph showing spider's silk, at a magnification of 1500x, 2016.
Coloured scanning electron micrograph (SEM) of methicillin-resistant Staphylococcus aureus (MRSA) bacteria. Stock Photo
RMEHN70RColoured scanning electron micrograph (SEM) of methicillin-resistant Staphylococcus aureus (MRSA) bacteria.
Light Micrograph (LM) of a transverse section of an aerial root of a Pandanus sp., magnification x30 Stock Photo
RMBRC1G7Light Micrograph (LM) of a transverse section of an aerial root of a Pandanus sp., magnification x30
Colorized transmission electron micrograph showing particles of Middle East respiratory syndrome coronavirus that emerged in Stock Photo
RME8KR11Colorized transmission electron micrograph showing particles of Middle East respiratory syndrome coronavirus that emerged in
Pipetting of sample into Petri dish containing cell micrograph Stock Photo
RF2HCBPRTPipetting of sample into Petri dish containing cell micrograph
Micrograph of diatom Stock Photo
RFDC20KGMicrograph of diatom
Representation Of Electron Micrograph Stock Photo
RFWRX45JRepresentation Of Electron Micrograph
Human palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X30 when printed Stock Photo
RM2DF7R08Human palatine tonsil section showing circular lymphoid follicles and secretory gland. Light micrograph, haematoxylin eosin stain. X30 when printed
Transmission electron micrograph showing a measles virus particle, or virion Stock Photo
RFHNW751Transmission electron micrograph showing a measles virus particle, or virion
Kidney cancer, computer illustration and light micrograph. Stock Photo
RF2CP4CX9Kidney cancer, computer illustration and light micrograph.
Bright field light micrograph of nylon fibers Stock Photo
RMRKBGAPBright field light micrograph of nylon fibers
Scanning Elctron Micrograph (SEM) of Pseudomonas aeruginosa, a versatile gram-negative bacterium that grows in soil, marshes, and coastal marine habitats, as well as on plant and animal tissues. Pseudomonas aeruginosa is rod-shaped bacterium that can cause disease in plants and animals, including humans. A species of considerable medical importance, P. aeruginosa is a multidrug resistant pathogen recognised for its ubiquity, its intrinsically advanced antibiotic resistance mechanisms, and its association with serious illnesses, hospital-acquired infections such as ventilator-associated pneumon Stock Photo
RM2BE0JA2Scanning Elctron Micrograph (SEM) of Pseudomonas aeruginosa, a versatile gram-negative bacterium that grows in soil, marshes, and coastal marine habitats, as well as on plant and animal tissues. Pseudomonas aeruginosa is rod-shaped bacterium that can cause disease in plants and animals, including humans. A species of considerable medical importance, P. aeruginosa is a multidrug resistant pathogen recognised for its ubiquity, its intrinsically advanced antibiotic resistance mechanisms, and its association with serious illnesses, hospital-acquired infections such as ventilator-associated pneumon
micrograph of stomach tissue Stock Photo
RFEHGNT3micrograph of stomach tissue
Tilia sp. Lime root TS stained section showing structure. Darkfield photomicrograph. Micrograph Stock Photo
RMFHK9FPTilia sp. Lime root TS stained section showing structure. Darkfield photomicrograph. Micrograph
A transmission electron micrograph of COVID-19, novel coronavirus, an apoptotic cell heavily infected with SARS-COV-2 virus particles, isolated from a patient sample at the NIAID Integrated Research Facility March 18, 2020 in Fort Detrick, Maryland. Stock Photo
RF2B89B24A transmission electron micrograph of COVID-19, novel coronavirus, an apoptotic cell heavily infected with SARS-COV-2 virus particles, isolated from a patient sample at the NIAID Integrated Research Facility March 18, 2020 in Fort Detrick, Maryland.
Tendon, section, 20X light micrograph. Piece of sinew, stained with hematoxylin and eosin, under the microscope. Stock Photo
RF2M4BCFXTendon, section, 20X light micrograph. Piece of sinew, stained with hematoxylin and eosin, under the microscope.
Scanning electron micrograph of just-divided HeLa cells. Zeiss Merlin HR-SEM. Stock Photo
RFECF1N7Scanning electron micrograph of just-divided HeLa cells. Zeiss Merlin HR-SEM.
Transmission electron micrograph of an Ebola virus virion. Stock Photo
RMECWX24Transmission electron micrograph of an Ebola virus virion.
A composite of images of the monkeypox virus. An optimised and enhanced unique composite version of six scanning electron micrograph images, Credit: NIAID Stock Photo
RM2M31C62A composite of images of the monkeypox virus. An optimised and enhanced unique composite version of six scanning electron micrograph images, Credit: NIAID
Scanning electron microscope (SEM) micrograph showing spider's silk, at a magnification of 5000x, 2016. Stock Photo
RMKW4HBHScanning electron microscope (SEM) micrograph showing spider's silk, at a magnification of 5000x, 2016.
Coloured scanning electron micrograph (SEM) of methicillin-resistant Staphylococcus aureus (MRSA) bacteria. Stock Photo
RMEHN71FColoured scanning electron micrograph (SEM) of methicillin-resistant Staphylococcus aureus (MRSA) bacteria.
Light Micrograph (LM) of a transverse section of a stem of a Marrow (Cucurbita sp.), magnification x12 Stock Photo
RMBRC1FDLight Micrograph (LM) of a transverse section of a stem of a Marrow (Cucurbita sp.), magnification x12
Colorized transmission electron micrograph showing particles of Middle East respiratory syndrome coronavirus that emerged in Stock Photo
RME8KR8NColorized transmission electron micrograph showing particles of Middle East respiratory syndrome coronavirus that emerged in
Pipetting of sample into Petri dish containing cell micrograph Stock Photo
RF2HCBPRRPipetting of sample into Petri dish containing cell micrograph
Micrograph of a leaf Stock Photo
RFDC20N1Micrograph of a leaf
Color enhanced scanning electron micrograph of Agrobacterium tumefaciens which causes crown gall disease in a wide range of plan Stock Photo
RMANHA6FColor enhanced scanning electron micrograph of Agrobacterium tumefaciens which causes crown gall disease in a wide range of plan
Micrograph. Cilliated ephitelium of gill. Transversal section. Stock Photo
RFRKK898Micrograph. Cilliated ephitelium of gill. Transversal section.
Scanning electron micrograph of a true bug (hemiptera) Stock Photo
RFHNX6MBScanning electron micrograph of a true bug (hemiptera)
Kidney cancer, computer illustration and light micrograph. Stock Photo
RF2CP4CXKKidney cancer, computer illustration and light micrograph.
Midge larva (Chironomidae) head, light micrograph Stock Photo
RM2JD7GJXMidge larva (Chironomidae) head, light micrograph
This scanning electron micrograph (SEM) depicted a number of red blood cells found enmeshed in a fibrinous matrix on the luminal surface of an indwelling vascular catheter; Magnified 2858x. Note the biconcave cytomorphologic shape of each erythrocyte, which increases the surface area of these hemoglobin-filled cells, thereby, promoting a greater degree of gas exchange, which is their primary function in an in vivo setting. In their adult phase, these cells possess no nucleus. What appears to be irregularly-shaped chunks of debris, are actually fibrin clumps, which when inside the living organi Stock Photo
RM2BE0H23This scanning electron micrograph (SEM) depicted a number of red blood cells found enmeshed in a fibrinous matrix on the luminal surface of an indwelling vascular catheter; Magnified 2858x. Note the biconcave cytomorphologic shape of each erythrocyte, which increases the surface area of these hemoglobin-filled cells, thereby, promoting a greater degree of gas exchange, which is their primary function in an in vivo setting. In their adult phase, these cells possess no nucleus. What appears to be irregularly-shaped chunks of debris, are actually fibrin clumps, which when inside the living organi
science micrograph plant root Stock Photo
RFCXD974science micrograph plant root
Dragon fly nymph mouthparts, darkfield micrograph Stock Photo
RMDARBFYDragon fly nymph mouthparts, darkfield micrograph
Microscopic view of the Ebola virus. Colorized scanning electron micrograph of filamentous Ebola virus particles attached to and budding from a chronically infected VERO E6 cell. Stock Photo
RME6JJKCMicroscopic view of the Ebola virus. Colorized scanning electron micrograph of filamentous Ebola virus particles attached to and budding from a chronically infected VERO E6 cell.
Fish blood, smear, 80X light micrograph. Fish blood erythrocytes with micronucleus, under the light microscope. Stock Photo
RF2M640D8Fish blood, smear, 80X light micrograph. Fish blood erythrocytes with micronucleus, under the light microscope.
Scanning electron micrograph of HIV particles infecting a human T cell. Stock Photo
RFECF1C7Scanning electron micrograph of HIV particles infecting a human T cell.
Transmission electron micrograph of an Ebola virus virion. Stock Photo
RMECWX20Transmission electron micrograph of an Ebola virus virion.
micrograph plant tissue, stem of pumpkin,with green fluorescence Stock Photo
RFD12EX2micrograph plant tissue, stem of pumpkin,with green fluorescence
Scanning electron microscope (SEM) micrograph of a plant root, with soil debris visible, at a magnification of 100x, 2016. Stock Photo
RMKW4HDAScanning electron microscope (SEM) micrograph of a plant root, with soil debris visible, at a magnification of 100x, 2016.
Coloured scanning electron micrograph (SEM) of Staphylococcus epidermidis bacteria embedded in an exopolysaccharide matrix . These Gram-positive cocci (spherical bacteria) are found on human skin. They are usually harmless, but are able to form biofilms o Stock Photo
RMEHN71YColoured scanning electron micrograph (SEM) of Staphylococcus epidermidis bacteria embedded in an exopolysaccharide matrix . These Gram-positive cocci (spherical bacteria) are found on human skin. They are usually harmless, but are able to form biofilms o
Light Micrograph (LM) of a transverse section showing xylem of root of Ranunculus repens (Creeping Buttercup) Stock Photo
RMBRC1DNLight Micrograph (LM) of a transverse section showing xylem of root of Ranunculus repens (Creeping Buttercup)
Scanning electron micrograph of clump of Staphylococcus epidermidis bacteria in extracellular matrix, which connects cells and Stock Photo
RME8KR04Scanning electron micrograph of clump of Staphylococcus epidermidis bacteria in extracellular matrix, which connects cells and
Close-up Of Micrograph Stock Photo
RFWR0WDBClose-up Of Micrograph
Micofilaments, mitochondria, and nuclei in fibroblast cells Stock Photo
RMCXYMFAMicofilaments, mitochondria, and nuclei in fibroblast cells
Microscopic image of brain neurons Stock Photo
RM2A57N1RMicroscopic image of brain neurons
Axons of motor neurons. Photomicrograph. Stock Photo
RM2DF79G4Axons of motor neurons. Photomicrograph.
Scanning electron micrograph of a human bot fly (Diptera: Dermatobia sp.) Stock Photo
RFHNX6M6Scanning electron micrograph of a human bot fly (Diptera: Dermatobia sp.)
Kidney cancer, computer illustration and light micrograph. Stock Photo
RF2CP4CY4Kidney cancer, computer illustration and light micrograph.
Extreme macro shot (micrograph) of a plastic deodorant spray nozzle Stock Photo
RMP83W67Extreme macro shot (micrograph) of a plastic deodorant spray nozzle
This scanning electron micrograph (SEM) depicted a number of red blood cells found enmeshed in a fibrinous matrix on the luminal surface of an indwelling vascular; Magnified 2849x. In this instance, the indwelling catheter was a tube that was left in place creating a patent portal directly into a blood vessel. Note the biconcave cytomorphologic shape of each erythrocyte, which increases the surface area of these hemoglobin-filled cells, thereby, promoting a greater degree of gas exchange, which is their primary function in an in vivo setting. In their adult phase, these cells possess no nucleu Stock Photo
RM2BE0H0HThis scanning electron micrograph (SEM) depicted a number of red blood cells found enmeshed in a fibrinous matrix on the luminal surface of an indwelling vascular; Magnified 2849x. In this instance, the indwelling catheter was a tube that was left in place creating a patent portal directly into a blood vessel. Note the biconcave cytomorphologic shape of each erythrocyte, which increases the surface area of these hemoglobin-filled cells, thereby, promoting a greater degree of gas exchange, which is their primary function in an in vivo setting. In their adult phase, these cells possess no nucleu
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