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Adenovirus Collection

Background imageAdenovirus Collection: Adenovirus, artwork

Adenovirus, artwork
Adenovirus. Computer artwork of an adenovirus, showing the surface structure of the viruss outer protein coat (capsid). Adenoviruses are known to infect humans

Background imageAdenovirus Collection: Adenovirus particle F005 / 0701

Adenovirus particle F005 / 0701
Adenovirus particle serotype 3, computer model. This virus most commonly causes respiratory disease in humans, but can also cause genitourinary diseases and gastroenteritis

Background imageAdenovirus Collection: Adenovirus penton base protein F006 / 9542

Adenovirus penton base protein F006 / 9542
Adenovirus penton base protein, molecular model. This protein molecule is a subunit called a penton, forming the vertices of the capsid of this adenovirus

Background imageAdenovirus Collection: Adenovirus, artwork F007 / 8077

Adenovirus, artwork F007 / 8077
Adenovirus, computer artwork

Background imageAdenovirus Collection: Adenovirus, artwork F007 / 7891

Adenovirus, artwork F007 / 7891
Adenovirus, computer artwork

Background imageAdenovirus Collection: Adenovirus, artwork F007 / 7944

Adenovirus, artwork F007 / 7944
Adenovirus, computer artwork

Background imageAdenovirus Collection: Adenovirus, artwork F007 / 7830

Adenovirus, artwork F007 / 7830
Adenovirus, computer artwork

Background imageAdenovirus Collection: Adenovirus penton base protein F006 / 9572

Adenovirus penton base protein F006 / 9572
Adenovirus penton base protein, molecular model. This protein molecule is a subunit called a penton, forming the vertices of the capsid of this adenovirus

Background imageAdenovirus Collection: Adenovirus fibre shaft protein F006 / 9473

Adenovirus fibre shaft protein F006 / 9473
Adenovirus fibre shaft protein, molecular model. This protein forms part of the shaft of the fibres or spikes by which adenoviruses attach to receptors on cells during the infection process

Background imageAdenovirus Collection: Adenovirus, artwork C016 / 8960

Adenovirus, artwork C016 / 8960
Adenovirus. Computer artwork showing the external protein structure of an adenovirus particle. Adenoviruses are the largest viruses not to have a protein coat covering their capsid

Background imageAdenovirus Collection: Adenovirus, artwork C016 / 8961

Adenovirus, artwork C016 / 8961
Adenovirus. Computer artwork showing the external protein structure of an adenovirus particle. Adenoviruses are the largest viruses not to have a protein coat covering their capsid

Background imageAdenovirus Collection: Adenovirus particles, artwork C016 / 8963

Adenovirus particles, artwork C016 / 8963
Adenovirus particles. Computer artwork showing the external protein structure of adenovirus particles. Adenoviruses are the largest viruses not to have a protein coat covering their capsid

Background imageAdenovirus Collection: Human adenovirus 36, artwork C016 / 8966

Human adenovirus 36, artwork C016 / 8966
Human adenovirus 36. Computer artwork of human adenovirus 36 (HAdV-36), showing the surface structure of the viruss outer protein coat (capsid)

Background imageAdenovirus Collection: Adenovirus particles, artwork C016 / 8965

Adenovirus particles, artwork C016 / 8965
Adenovirus particles. Computer artwork showing the external protein structure of adenovirus particles. Adenoviruses are the largest viruses not to have a protein coat covering their capsid

Background imageAdenovirus Collection: Adeno-associated virus C016 / 8959

Adeno-associated virus C016 / 8959
Adeno-associated virus, computer artwork. Adeno- associated viruses (aVs) are the smallest known viruses to infect humans. They do not cause diseases, and only provoke a mild immune response

Background imageAdenovirus Collection: Adenovirus, artwork C016 / 8962

Adenovirus, artwork C016 / 8962
Adenovirus. Computer artwork showing the external protein structure of an adenovirus particle. Adenoviruses are the largest viruses not to have a protein coat covering their capsid

Background imageAdenovirus Collection: Adenovirus particles, artwork C016 / 8964

Adenovirus particles, artwork C016 / 8964
Adenovirus particles. Computer artwork showing the external protein structure of adenovirus particles. Adenoviruses are the largest viruses not to have a protein coat covering their capsid

Background imageAdenovirus Collection: Adeno-associated virus C016 / 8958

Adeno-associated virus C016 / 8958
Adeno-associated virus, computer artwork. Adeno- associated viruses (aVs) are the smallest known viruses to infect humans. They do not cause diseases, and only provoke a mild immune response

Background imageAdenovirus Collection: TATA box-binding protein complex C014 / 0879

TATA box-binding protein complex C014 / 0879
TATA box-binding protein complex

Background imageAdenovirus Collection: Adeno-associated virus capsid

Adeno-associated virus capsid, molecular model. The capsid is a protein shell that encloses the virus genetic information

Background imageAdenovirus Collection: Tinted TEM of adenovirus

Tinted TEM of adenovirus
False colour transmission electron micrograph of an Adeno virus, cause of infection to the upper respiratory tract, the symptoms of which resemble a common cold

Background imageAdenovirus Collection: Adenovirus particles and bacterium, TEM

Adenovirus particles and bacterium, TEM
Adenovirus particles and bacterium. Coloured transmission electron micrograph (TEM) of adenovirus particles (green) with a gut bacterium (orange)

Background imageAdenovirus Collection: False-colour TEM of an Adenovirus

False-colour TEM of an Adenovirus

Background imageAdenovirus Collection: TEM of adenovirus particles

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

Background imageAdenovirus Collection: Adenovirus, TEM

Adenovirus, TEM

Background imageAdenovirus Collection: Computer graphic image of an adenovirus particle

Computer graphic image of an adenovirus particle

Background imageAdenovirus Collection: False-colour SEM of adenoviruses on red blood cell

False-colour SEM of adenoviruses on red blood cell
False-colour scanning electron micrograph (SEM) of a group of adenoviruses (yellow) on the surface of a red blood cell of a chicken

Background imageAdenovirus Collection: Coloured TEM of three adenoviruses

Coloured TEM of three adenoviruses
Adenoviruses. Coloured transmission electron micrograph (TEM) of three adenovirus particles. Each virus has an icosahedral (20-sided) outer protein coat, or capsid (yellow)

Background imageAdenovirus Collection: Adeno-associated virus, TEM

Adeno-associated virus, TEM
Adeno-associated virus. Coloured transmission electron micrograph (TEM) of particles of an unidentified adeno-associated virus (aV, green). A helper adenovirus (orange) is also seen

Background imageAdenovirus Collection: Adenovirus

Adenovirus. Computer artwork of an adenovirus, showing the surface structure of the viruss outer protein coat (capsid). Adenoviruses are known to infect humans

Background imageAdenovirus Collection: Adenovirus structure, artwork

Adenovirus structure, artwork
Adenovirus structure. Computer artwork showing the external protein structure of a human adenovirus (HadV) particle

Background imageAdenovirus Collection: Adenovirus particle, TEM

Adenovirus particle, TEM
Adenovirus particle, coloured transmission electron micrograph (TEM)

Background imageAdenovirus Collection: Virus types, artwork

Virus types, artwork

Background imageAdenovirus Collection: Sigma1 protein molecule, artwork

Sigma1 protein molecule, artwork
Molecular representation of the 3 chain crystal structure of Reovirus Attachment Protein Sigma1 Trimer. Reovirus attaches to cellular receptors with the sigma1 protein, a fiber-like molecule

Background imageAdenovirus Collection: Adenovirus particles, TEM

Adenovirus particles, TEM
Adenovirus particles. Coloured transmission electron micrograph (TEM) of adenovirus particles

Background imageAdenovirus Collection: Human embryonic kidney cells, SEM

Human embryonic kidney cells, SEM
Human embryonic kidney cells. Coloured scanning electron micrograph (SEM) of human embryonic kidney (HEK) cells in culture


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EDITORS COMMENTS

Adenovirus, a microscopic marvel of nature, captivates scientists and artists alike with its intricate beauty. From the elegant artwork depicting its structure to the detailed images captured by transmission electron microscopy (TEM), this virus never fails to astound. One such masterpiece showcases Adenovirus penton base protein F006 / 9542, revealing the complex architecture that enables this virus to invade host cells. Its counterpart, Adenovirus fibre shaft protein F006 / 9473, stands tall like a sentinel guarding against immune defenses. Artwork F007 / 8077 and F007 / 7891 capture different facets of Adenovirus's essence. The former portrays an ethereal dance of viral particles while the latter unveils their symmetrical arrangement in perfect harmony. These illustrations bring forth both scientific accuracy and artistic flair. Even Cricket paralysis virus particle finds its place among these captivating visuals. Its unique structure adds diversity to our understanding of viruses as it shares similarities with Adenovirus yet possesses distinctive features. Intriguingly, artwork C016 / 8960 presents another perspective on Adenovirus—a glimpse into its mysterious world where it interacts with host cells during infection. This imaginative portrayal sparks curiosity about the intricacies hidden within this tiny entity. The TEM image showcasing Adenovirus particle F005 / 0701 further emphasizes its remarkable complexity—each component meticulously arranged for optimal efficiency in hijacking cellular machinery for replication. As we delve deeper into studying these mesmerizing entities, we uncover more secrets held by proteins like Adenovirus penton base protein F006/9572—an essential player in viral entry and escape from immune surveillance. Admiring these breathtaking depictions reminds us that science can be art itself—a fusion of creativity and knowledge that inspires wonderment at every turn. Whether through meticulous TEM imaging or imaginative renderings, exploring adenoviruses reveals a world of beauty hidden within the microscopic realm.

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