Micro Biology Collection (page 8)

Respiratory syncytial virus, TEM
Respiratory syncytial virus (RSV) particles, coloured transmission electron micrograph (TEM). This pneumovirus, a type of paramyxovirus

Mesenchymal stem cell, SEM
Influenza virus. Computer artwork of an influenza (flu) virus. The virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat

Hepatitis A viruses, TEM
Hepatitis A viruses. Coloured transmission electron micrograph (TEM) of hepatitis A viruses, a cause of liver inflammation. Hepatitis A is transmitted through infected food or drink

Cucumber mosaic virus with antibodies
Cucumber mosaic virus (CMV) with antibody fragments attached, computer model. This image was created using molecular modelling software and data from cryo-electron microscopy

Coloured TEM of a cluster of influenza viruses

TEM of adenovirus particles
Transmission electron micrograph of Adeno viruses, cause of infection to the upper respiratory tract, the symptoms of which resemble a common cold

Immature West Nile virus, molecular model
Immature West Nile virus. Computer model showing the molecular structure of the protein coat (capsid) of an immature West Nile virus particle

HIV particles exiting a cell. Computer artwork of HIV (human immunodeficiency virus) particles exiting a T-lymphocyte (white blood cell). HIV causes AIDS (acquired immune deficiency syndrome)

Astrovirus particles, TEM
Astrovirus particles. Coloured transmission electron micrograph (TEM) of a cluster of astrovirus particles (purple). These are small viruses, measuring approximately 28 nanometres in diameter

Cluster of influenza viruses
Influenza virus. Computer manipulation of Transmission Electron Micrograph (TEM) of a cluster of five spherical-shaped influenza (flu) viruses

SARS virus particles, TEM
SARS virus particles. Coloured transmission electron micrograph (TEM) of two SARS virus particles (green). Severe acute respiratory syndrome (SARS)

AIDS virus particles, computer artwork
HIV particles, computer artwork. HIV (human immunodeficiency virus) causes AIDS (acquired immune deficiency syndrome). The outer layer of the virus particle is a membrane envelope (black)

Influenzavirus A, TEM
Influenzavirus A. Coloured transmission electron micrograph (TEM) of the influenza A virus, which can infect multiple species and is the most virulent human pathogen of the three influenza types

Norwalk virus particles, computer artwork. This small virus consists of an RNA (ribonucleic acid) core surrounded by a protein capsid (multicoloured)

Hepatitis B viruses, TEM
Hepatitis B viruses. Coloured transmission elect- ron micrograph (TEM) of hepatitis B viruses (large lime green circles), a cause of liver inflamm- ation

Colour TEM of a cluster of five influenza viruses
Influenza virus. Coloured transmission electron micrograph of a cluster of five spherical-shaped influenza (flu) viruses. Each virus is made up of a core of ribonucleic acid (RNA, not seen here)

Influenzavirus C, TEM
Influenzavirus C. Coloured transmission electron micrograph (TEM) of the influenza C virus, which is the cause of influenza (flu) in humans and pigs

Bacteriophage phi29, computer model
Bacteriophage phi29. Cross section computer model of phi29 created using UCSF Chimera molecular modelling software and data from cryo-electron microscopy

Infectious bursal disease virus particle. Computer model of the capsid of the infectious bursal disease virus (Avibirnavirus sp. IBDV)

E. coli culture
MODEL RELEASED. E. coli culture. Microbiologist holding a petri dish containing a culture of Escherichia coli bacteria. E. coli bacteria are normal inhabitants of the gut

Pseudomonas culture
MODEL RELEASED. Pseudomonas culture. Microbiologist holding a petri dish containing a culture of Pseudomonas aeruginosa bacteria. This bacteria are normal inhabitants of the human intestine

Listeria indentification
MODEL RELEASED. Listeria identification. Microbiologist holding a an Analytical Profile Index (API) test panel. This is a method used to identify bacteria based on biochemical reactions between

Whooping cough antibiotic research

E. coli food poisoning
MODEL RELEASED. E. coli food poisoning. Composite image of a microbiologist holding a petri dish containing a culture of Escherichia coli bacteria and a sandwich. E

Testing sputum for lung diseases. Image 3 of 3. Researcher applying sputum (mucus coughed up from the lungs) from a patient to a glass slide

Bacterial contamination test. Ultraviolet (UV) light being used to reveal bacterial contamination. At right, a laboratory workers hand has been placed under a UV light source (pink)

Biology research

Bacterial research

Campylobacter food poisoning
MODEL RELEASED. Campylobacter food poisoning. Composite image of a microbiologist holding a petri dish containing a culture of Campylobacter sp. bacteria and cooked chicken. Campylobacter sp

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Microbiology is a fascinating field that delves into the intricate world of microscopic organisms. From budding yeast cells to calcareous phytoplankton, these tiny beings hold immense importance in our ecosystem. Take a closer look through the lens of a scanning electron microscope (SEM), and you'll be amazed by their intricate structures. One such example is the avian flu virus, which can cause devastating outbreaks among bird populations. Its unique shape and composition are revealed under SEM, highlighting its potential threat to both animals and humans alike. Diatoms, another group of microorganisms, showcase stunning beauty when observed through SEM. Their delicate silica shells form intricate patterns that resemble works of art. These diatoms play a crucial role in marine ecosystems as primary producers. E. coli bacteria, often associated with foodborne illnesses, reveal their rod-shaped structure under SEM. Understanding their morphology helps scientists develop strategies to combat infections caused by this notorious bacterium. The PSCI2A-00015 embryonic stem cell captured under SEM demonstrates its incredible regenerative capabilities. This versatile cell type holds great promise for future medical advancements and treatments. Salmonella bacteria also come into focus under SEM, displaying their flagella-covered surface responsible for motility and infection transmission. Studying these pathogens aids in developing effective prevention measures against salmonellosis. Intriguingly colored TEM images unveil Yersinia pestis bacteria responsible for causing deadly diseases like bubonic plague throughout history. Unveiling their detailed structure allows researchers to better understand how they function within host organisms. Another captivating diatom species reveals itself through SEM imaging - showcasing nature's artistic side once again. These single-celled algae contribute significantly to global carbon fixation while providing habitats for countless aquatic creatures. Candida fungus captures attention with its filamentous appearance when viewed at high magnification using SEM techniques. This opportunistic pathogen can cause various infections in humans ranging from mild oral thrush to life-threatening systemic infections.