Rna Virus Collection (#6)

Influenza virus particles. Computer artwork of influenza (flu) virus particles. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat

Coloured TEM of a single Beijing influenza virus
Influenza virus. Coloured transmission electron micrograph (TEM) of a single Beijing influenza virus. The virus consists of a core of ribonucleic acid (RNA)

Influenza virus. Coloured transmission electron micrograph (TEM) of an influenza virus, a cause of human influenza (flu). This virus belongs to the orthomyxovirus class of RNA (ribonucleic acid)

Budding HIV particles, TEM
Budding HIV particles. Coloured transmission electron micrograph (TEM) of HIV particles (blue and yellow) budding from the membrane of the host cell (orange)

Artwork representation of the influenza virus

F / col TEM of Hong Kong flu virus
F/col TEM of Hong Kong flu virus

False colour TEM of an influenza virion
False-colour transmission electron micrograph (TEM) of a single virion (particle) of the influenza virus. The influenza virus belongs to the orthomyxovirus class of RNA viruses

Budding HIV particle, computer artwork
Budding HIV particle. Computer artwork of an HIV (human immunodeficiency virus) particle (green) exiting a T-lymphocyte (a type of white blood cell, lower left)

False-colour TEM of budding influenza viruses
False-colour transmission electron micrograph (TEM) of a row of virions (virus particles) of the influenza virus, budding from the surface of an infected cell

Paramyxovirus, TEM
Paramyxovirus. Transmission electron micrograph (TEM) of paramyxovirus ribonuclear protein helices (red strands). These helices contain the viral genetic material, ribonucleic acid (RNA)

Norwalk virus capsid protein. Molecular model showing the secondary structure of the capsid protein from a norwalk virus particle

HIV particles, computer artwork. HIV (human immunodeficiency virus) causes AIDS (acquired immune deficiency syndrome). The virus consists of an RNA genome

Ebola virus particles, computer artwork. This thread-like RNA (ribonucleic acid) virus is the cause of ebola haemorrhagic fever in humans

Ebola virus particle, computer artwork. This thread-like RNA (ribonucleic acid) virus is the cause of ebola haemorrhagic fever in humans

Rhinovirus particles, computer artwork. This virus consists of a protein capsid (multicoloured), enclosing an RNA (ribonucleic acid) genome

Ebola virus and blood cells. Computer artwork of Ebola viruses particles (yellow) attacking a human white blood cell. Red blood cells are also seen

West Nile virus, TEM
West Nile virus particles. Coloured transmission electron micrograph (TEM) of West Nile virus (WNV) particles (green) next to a host cell (red)

Coloured TEM of respiratory syncytial (RSV) virus
Respiratory syncytial virus. Coloured transmission electron micrograph of respiratory syncytial viruses (RSV s). The RSV is a paramyxovirus

False-col TEM of rotavirus particles
False-colour transmission electron micrograph (TEM) of virions (virus particles) of the rotavirus. Individual virions consist of a protein capsid surrounding a core of double-stranded RNA

False-col TEM of polio virus particles
False-colour transmission electron micrograph (TEM) of numerous virions (virus particles) of the polio virus, the causative agent of poliomyelitis

Coloured TEM of parainfluenza virus particles

TEM of rotavirus particles
False-colour transmission electron micrograph (TEM) of virions (virus particles) of the rotavirus. Individual virions consist of a protein capsid (orange & green)

Ebola viruses, artwork
Ebola viruses, computer artwork

HIV infection, conceptual artwork
HIV infection, conceptual computer artwork. HIV (human immunodeficiency virus) particle superimposed on a human silhouette

HIV virus particle, artwork
HIV virus particle, computer artwork. Each particle (virion) consists of RNA (ribonucleic acid) contained within a capsid and an envelope covered in glycoprotein spikes

HIV virus particles, artwork
HIV virus particles, computer artwork. Each particle (virion) consists of RNA (ribonucleic acid) contained within a capsid and an envelope covered in glycoprotein spikes

Influenza virus, artwork

Influenza, computer artwork. Influenza (flu) virus (yellow, bottom) in the bloodstream

Avian influenza virus, computer artwork
Avian influenza (flu) virus, computer artwork

Retrovirus replication, artwork
Retrovirus replication. Computer artwork a retrovirus disassembling after infecting a cell. The virus sheds the cell membrane (blue)

Retrovirus genome replication, artwork
Retrovirus genome replication. Computer artwork showing the replication and expression of retroviral RNA (ribonucleic acid)

Retrovirus budding from a cell, artwork
Retrovirus budding from a cell. Computer artwork showing a retrovirus assembling in, and budding from, a host cell. The viral RNA (ribonucleic acid)

Retrovirus entering a cell, artwork
Retrovirus entering a cell. Computer artwork of the first stage of retrovirus infecting a cell. Molecules on the surface of the virus interact with receptors on the cell membrane(blue line)

Cell infected with HIV, electronic image
Experts of the Ivanovsky Virusology Institute [USSR Academy of Medical Sciences] have made this electronic image of a cell infected with the AIDS virus

Ebola virus, molecular model
Ebola virus. Molecular model showing the structure of an ebola virus. It consists of a ribonucleic acid (RNA) genome (orange) within a protein nucleocapsid (white blobs)

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RNA viruses are a diverse group of infectious agents that have captured the attention of scientists and researchers worldwide. From the intricate structure of HIV particles to the menacing Norovirus particles observed under a transmission electron microscope (TEM), these tiny entities hold immense significance in our understanding of viral diseases. Influenza, one of the most well-known RNA viruses, has been depicted through computer artwork, showcasing its complex architecture and highlighting its ability to mutate rapidly. TEM images further reveal the true face of influenza virus particles, resembling miniature spheres with spikes protruding from their surface. Hepatitis C viruses also fall into this category, as revealed by TEM imaging. These minute structures can wreak havoc on liver cells and cause chronic infections if left untreated. The artistic representation of rotavirus particle emphasizes its distinctive wheel-like shape, which is responsible for causing severe diarrhea in young children. Molecular models depicting rhinovirus alongside antibodies shed light on potential therapeutic strategies against common colds caused by this RNA virus. Similarly, an SEM image showcases an HIV-infected macrophage - a key player in spreading this deadly virus throughout the body. The captivating artwork capturing infectious bronchitis virus (IBV) highlights how RNA viruses can affect not only humans but also animals like poultry. L-A virus and Coxsackievirus are two more examples that demonstrate the wide range of hosts susceptible to RNA viral infections. As we delve deeper into studying these enigmatic entities known as RNA viruses, we uncover their remarkable adaptability and ability to exploit host cells for replication. Understanding their mechanisms will undoubtedly pave the way for novel treatments and preventive measures against these relentless adversaries that continue to challenge human health globally.