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Bacteriophage illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Bacteriophage illustration
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Human papilloma virus (HPV) particle illustration HPV particles (virions) consist of a protein capsid enclosing DNA (deoxyribonucleic acid) the gen
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Rabies virus illustration The Rabies virus belongs to the Rhabdoviridae family It has a bullet-like shape and is enveloped with a protein coat whi
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Illustration of a herpesvirus particle Each particle consists of a DNA (deoxyribonucleic acid) genome surrounded by an icosahedral capsid which is i
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Illustration of an adenovirus particle Adenoviruses are medium-sized nonenveloped (without an outer lipid bilayer) viruses with characteristic fibr
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Human-infecting viruses illustration
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Human-infecting viruses illustration
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Bacteriophage T4 structure illustration
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Monkeypox virus particle TEMMonkeypox virus particle coloured transmission electron micrograph (TEM) Monkeypox is a poxvirus that was identified
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Bacteriophage T4 structure illustration
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Phage therapy conceptual illustration
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Phage therapy conceptual illustration
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Phage therapy conceptual illustration
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Illustration of the various components of the human immunodeficiency virus (HIV) that could be targeted by a vaccine HIV attacks CD4 T-lymphocyte wh
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HIV particle illustration HIV (human immunodeficiency virus) causes AIDS (acquired immune deficiency syndrome) The virus consists of an RNA (ribonu
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T4 bacteriophage illustration by TUMEGGYSCIENCE PHOTO LIBRARY
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T4 bacteriophage illustration by TUMEGGYSCIENCE PHOTO LIBRARY
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Rabies virus nucleoprotein-RNA (ribonucleic acid) complex molecular model Shown are the rabies virus nucleoproteins (blue magenta) which form the
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Monkeypox virus particle TEMMonkeypox virus particle coloured transmission electron micrograph (TEM) Monkeypox is a poxvirus that was identified
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Rabies virus nucleoprotein-RNA (ribonucleic acid) complex molecular model Shown are the rabies virus nucleoproteins (blue magenta) which form the
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Adeno-associated virus serotype 4 (AAV4) capsid molecular model The adeno-associated viruses (AAVs) can package and deliver foreign DNA (deoxyribonu
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Adeno-associated virus serotype 4 (AAV4) capsid molecular model The adeno-associated viruses (AAVs) can package and deliver foreign DNA (deoxyribonu
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Bacteriophage Qbeta capsid molecular model Qbeta is a positive-strand RNA (ribonucleic acid) virus which infects bacteria that have F-pili most com
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Bacteriophage Qbeta capsid molecular model Qbeta is a positive-strand RNA (ribonucleic acid) virus which infects bacteria that have F-pili most com
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Human enterovirus D68 capsid molecular model The capsid consist of the viral proteins 1 (purple) 2 (white) 3 (cyan) and 4 (hidden) by LAGUNA DES
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Human enterovirus D68 capsid molecular model The capsid consist of the viral proteins 1 (purple) 2 (white) 3 (cyan) and 4 (hidden) by LAGUNA DES
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Illustration showing the structure of the immature Zika virus capsid (protein coat) Zika virus is an RNA (ribonucleic acid) virus from the Flavivirid
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Illustration of a cross-section of a human rotavirus revealing its inner structure The RNA (ribonucleic acid) in the centre of the virus is double-st
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False colour transmission electron micrograph of the bullet-shaped rabies virus a member of the Rhabdoviridae family The virus has a protein coat or
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Illustration of a cross-section of a human rotavirus revealing its inner structure The RNA (ribonucleic acid) in the centre of the virus is double-st
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Illustration of a cross-section of a human rotavirus revealing its inner structure The RNA (ribonucleic acid) in the centre of the virus is double-st
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Illustration of a rotavirus with a complete half and a cross-sectioned half revealing its inner structure The RNA (ribonucleic acid) in the centre of
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Illustration of a cross-section of a human rotavirus revealing its inner structure The RNA (ribonucleic acid) in the centre of the virus is double-st
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Rotavirus structure illustration Rotaviruses are human pathogens and are responsible for diarrhoeal diseases especially in infants and young childr
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Illustration of a rotavirus revealing its inner structure layer by layer This virus is pathogenic to humans and can cause several diarrhoeal diseases
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Illustration of a rotavirus revealing its inner structure layer by layer This virus is pathogenic to humans and can cause several diarrhoeal diseases
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Varicella zoster virus particles illustration
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Varicella zoster virus particles illustration
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Computer artwork of a rubella virus the causative agent of German measles It consists of a lipoprotein coat or capsid (yellow) and a core containing
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Varicella zoster virus particles illustration
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Varicella zoster virus particles illustration
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Varicella zoster virus particle illustration
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Echovirus3 capsid complexed with 6D10 fab illustration
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Echovirus3 capsid complexed with 6D10 Fab illustration
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Echovirus3 capsid complexed with 6D10 Fab illustration
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Echovirus3 capsid complexed with 6D10 fab illustration
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Staphylococcus phage Andhra capsid illustration
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Staphylococcus phage Andhra capsid illustration
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Computer artwork of a rubella virus the causative agent of German measles It consists of a lipoprotein coat or capsid (yellow) and a core containing
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Jumbo phage empty capsid hexamers illustration
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Jumbo phage empty capsid hexamers illustration
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Echovirus 11 capsid molecular model The image shows the Echovirus 11 capsid (green yellow-brown) with the receptor decay-accelerating factor CD55 (
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Echovirus 11 capsid illustration
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Bacteriophage phiCjT23 major capsid protein molecular model The image shows the trimeric major capsid protein P5 from bacteriophage phiCjT23 a lipi
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Bacteriophage phiCjT23 capsid protein illustration
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Bacteriophage phiCjT23 capsid molecular model The image shows the capsid of PhiCjT23 a lipid-containing ssDNA temperate bacteriophage which infects
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Bacteriophage phiCjT23 capsid molecular model The image shows the capsid of PhiCjT23 a lipid-containing ssDNA temperate bacteriophage which infects
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JC Polyoma virus capsid protein complex illustration
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Computer artwork of a rubella virus the causative agent of German measles It consists of a lipoprotein coat or capsid (yellow) and a core containing
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JC Polyoma virus capsid protein complex illustration
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Bacteriophage SU10 tail and bottom part illustration
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Bacteriophage SU10 tail part illustration
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Bacteriophage SU10 tail part illustration
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Bacteriophage SU10 tail and bottom part illustration
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Zika virus capsid with antibody molecular model The image shows the capsid envelope proteins (light blue dark blue purple) and the light (red) and
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Zika virus capsid with antibody illustration
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Coxsackievirus capsid subdomain complex illustration
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Coxsackievirus A21 capsid subdomain complexed with mouse polyclonal antibody pAbC-1 molecular model The image shows the glycoproteins VP1 (red) VP2
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BParamyxovirusb Transmission electron micrograph (TEM) of paramyxovirus ribonuclear protein helices (red strands) These helices contain the viral
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Ralstonia GP4 phage capsid molecular model GP4 a Ralstonia solanacearum phage is a short-tailed phage which infects Ralstonia solanacearum a soil
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Ralstonia GP4 phage capsid molecular model GP4 a Ralstonia solanacearum phage is a short-tailed phage which infects Ralstonia solanacearum a soil
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Chaetoceros socialis RNA virus 1 capsid molecular model
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Chaetoceros socialis RNA virus 1 capsid molecular model
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Leishmania RNA virus capsid molecular model
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Tick-borne encephalitis virus Kuutsalo-14 molecular model The image shows the western subtype virus capsid which is composed of the envelope protein
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Leishmania RNA virus capsid molecular model The image shows the leishmania virus capsid formed by the major capsid proteins by LAGUNA DESIGNSCIEN
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Tick-borne encephalitis virus Kuutsalo-14 molecular model
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Coxsackievirus 5 capsid molecular model The image shows the coxsackievirus B5 capsid consisting of three genome polyproteins by LAGUNA DESIGNSCIE
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Computer artwork of a rubella virus the causative agent of German measles It consists of a lipoprotein coat or capsid (yellow) and a core containing
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Coxsackievirus 5 capsid molecular model The image shows the coxsackievirus B5 capsid consisting of three genome polyproteins by LAGUNA DESIGNSCIE
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Coxsackievirus B3 capsid molecular model The image shows the capsid consisting of the four capsid proteins VP1 (blue-green) VP2 (red) VP3 (yellow)
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Getah virus capsid molecular model The image shows the capsid of the Getah virus a mosquito-borne arbovirus in the Alphavirus genus It has been kn
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Getah virus capsid molecular model
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Coxsackievirus B3 capsid molecular model The image shows the capsid consisting of the four capsid proteins VP1 (blue-green) VP2 (red) VP3 (yellow)
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Vesicular stomatitis virus particle molecular model Vesicular stomatitis virus (VSV) is a negative-strand RNA virus with a non-segmented genome clo
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Potato leafroll virus N-terminal readthrough domain molecular model The image shows the three chains of the minor capsid protein P3-RTD by LAGUNA
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Vesicular stomatitis virus particle molecular model Vesicular stomatitis virus (VSV) is a negative-strand RNA virus with a non-segmented genome clo
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Potato leafroll virus N-terminal readthrough domain molecular model The image shows the three chains of the minor capsid protein P3-RTD by LAGUNA
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Computer artwork of a rubella virus the causative agent of German measles It consists of a lipoprotein coat or capsid (yellow) and a core containing
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Sulfolobus monocaudavirus SMV1 capsid molecular model The image shows the reconstruction of the archaeal spindle-shaped Sulfolobus monocaudavirus SM
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Sulfolobus monocaudavirus SMV1 capsid molecular model The image shows the reconstruction of the archaeal spindle-shaped Sulfolobus monocaudavirus SM
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Tobacco mosaic virus capsid molecular model
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Tobacco mosaic virus capsid molecular model
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Hepatitis B virus particles TEM
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West Nile virus structure (WNV) protein envelope nucleocapsid positive-sense single-stranded RNA The west nile virus can cause encephalitis in hu
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West Nile virus particles illustration The west nile virus can cause encephalitis in humans It is transmitted by mosquitoes by TUMEGGYSCIENCE PH
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West Nile virus structure illustration
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Illustration of the taxonomy tree for the Reoviridae virus family Virions with a known reconstructed structure (via cryogenic-electron microscopy or
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BRubella virusesb Coloured Transmission Electron Micrograph (TEM) of a section through a human cell infected with Irubellai viruses the causativ
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