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Diagnosis flu virus written in the diagnostic form and pills Stock Photo

RFPYDGNA–Diagnosis flu virus written in the diagnostic form and pills

Orthomyxovirus, illustration. Stock Photo

RFPKNRR5–Orthomyxovirus, illustration.

Computer generated 3D model, showing a cross-section of the green RNP spirals, blue hemagglutinin, red neuraminidase, and purple m2 ion channels that constitute the structure of the Influenza A Virus (Orthomyxovirus family) image courtesy CDC/Douglas Jordan, 2009. () Stock Photo

RMPGYP65–Computer generated 3D model, showing a cross-section of the green RNP spirals, blue hemagglutinin, red neuraminidase, and purple m2 ion channels that constitute the structure of the Influenza A Virus (Orthomyxovirus family) image courtesy CDC/Douglas Jordan, 2009. ()

Orthomyxovirus, Influenza Virus, TEM Stock Photo

RMHRJRBH–Orthomyxovirus, Influenza Virus, TEM

Conceptual image of the influenza causing flu virus. The flu is a respiratory illness caused by infection of the Influenza virus Stock Photo

RFE81AYG–Conceptual image of the influenza causing flu virus. The flu is a respiratory illness caused by infection of the Influenza virus

Transmission electron micrograph (TEM) of influenza C virus. Stock Photo

RM2BE0J6N–Transmission electron micrograph (TEM) of influenza C virus.

Group of H5N1 virus with glassy view. Stock Photo

RFDCG39J–Group of H5N1 virus with glassy view.

Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, Limoges hospital, France. Stock Photo

RMER3EGK–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, Limoges hospital, France.

Conceptual image of influenza causing flu. Stock Photo

RFDNDX0N–Conceptual image of influenza causing flu.

medically accurate illustration of some viruses Stock Photo

RFF6178A–medically accurate illustration of some viruses

Word flu viris written in chalk on a blackboard black next to a stethoscope, conceptual image Stock Photo

RFPXD390–Word flu viris written in chalk on a blackboard black next to a stethoscope, conceptual image

RFEJ9KC1–H1N1 Virus Alert Concept

Flu virus concept of common illness in winter, medicines and remedies against this habitual illness Stock Photo

RFPXD3AC–Flu virus concept of common illness in winter, medicines and remedies against this habitual illness

RMFYKBW7–H1N1 Virus Alert Concept

Stethoscope on notebook and pencil with flu virus h1 n1 words as Stock Photo

RFPXD3B1–Stethoscope on notebook and pencil with flu virus h1 n1 words as

Close-up photograph of a jade green and blue tinted sample of Influenza A Virus (Orthomyxovirus family) on a red ground, image courtesy CDC/FA Murphy, 1976. () Stock Photo

RMPGYP5Y–Close-up photograph of a jade green and blue tinted sample of Influenza A Virus (Orthomyxovirus family) on a red ground, image courtesy CDC/FA Murphy, 1976. ()

Flu virus, medicines and syringes as concept of ordinary treatment health Stock Photo

RFPXD3B8–Flu virus, medicines and syringes as concept of ordinary treatment health

Adult Woman, Precaution mask for Swine Flu, H1N1 Stock Photo

RMDFY4RM–Adult Woman, Precaution mask for Swine Flu, H1N1

Influenza A virus subtype H1N1. An orthomyxovirus witg glycoproteins, hemagglutinin and neuraminidase and causes Spanish flu, swine flu. Viral cell. Stock Vector

RF2JRCDY6–Influenza A virus subtype H1N1. An orthomyxovirus witg glycoproteins, hemagglutinin and neuraminidase and causes Spanish flu, swine flu. Viral cell.

Small Girls in a garden with Precaution masks for Swine Flu, H1N1 Stock Photo

RMDFBM87–Small Girls in a garden with Precaution masks for Swine Flu, H1N1

RFPKNRR2–Orthomyxovirus, illustration.

Protection from Swine flu, Concept Stock Photo

RMDFYE5K–Protection from Swine flu, Concept

RMAR4P90–Test tubes

White fronted Goose Anser erythropus victim of H5N1 bird flu, Black Sea Stock Photo

RMA4KTKJ–White fronted Goose Anser erythropus victim of H5N1 bird flu, Black Sea

Transmission electron micrograph (TEM) of influenza A virus. Stock Photo

RM2BE0J6R–Transmission electron micrograph (TEM) of influenza A virus.

Destruction of bird flu virus. 3D illustration of an avian influenza H5N8 virus particle. Conceptual image for influenza treatment and prevention. Thi Stock Photo

RF2PGRTKG–Destruction of bird flu virus. 3D illustration of an avian influenza H5N8 virus particle. Conceptual image for influenza treatment and prevention. Thi

RMER3EGT–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, Limoges hospital, France.

RFDNDX0T–Conceptual image of influenza causing flu.

RFF61788–medically accurate illustration of some viruses

Negative-stained Transmission Electron Micrograph (TEM) showing you a number of Influenza A virions. Influenza A virus causes influenza in birds and some mammals, and is the only species of influenza virus A. Influenza virus A is a genus of the Orthomyxoviridae family of viruses. Strains of all subtypes of influenza A virus have been isolated from wild birds, although disease is uncommon. Some isolates of influenza A virus cause severe disease both in domestic poultry and, rarely, in humans. Occasionally, viruses are transmitted from wild aquatic birds to domestic poultry, and this may cause a Stock Photo

RM2BE0JC4–Negative-stained Transmission Electron Micrograph (TEM) showing you a number of Influenza A virions. Influenza A virus causes influenza in birds and some mammals, and is the only species of influenza virus A. Influenza virus A is a genus of the Orthomyxoviridae family of viruses. Strains of all subtypes of influenza A virus have been isolated from wild birds, although disease is uncommon. Some isolates of influenza A virus cause severe disease both in domestic poultry and, rarely, in humans. Occasionally, viruses are transmitted from wild aquatic birds to domestic poultry, and this may cause a

Hen in a farmyard in Normandy France Stock Photo

RMACB6RC–Hen in a farmyard in Normandy France

Woman, Precaution mask for Swine Flu, H1N1 Stock Photo

RMDFYGAJ–Woman, Precaution mask for Swine Flu, H1N1

RFADWNT6–Micro Biotech II

RFPKNRR3–Orthomyxovirus, illustration.

RMAR4P93–Test tubes

RMA4KTKM–White fronted Goose Anser erythropus victim of H5N1 bird flu, Black Sea

Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat. Embedded in Stock Photo

RF2ND664R–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat. Embedded in

Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, France. Stock Photo

RMER3EH1–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, France.

RFDNDX0X–Conceptual image of influenza causing flu.

RMHRH9Y7–Influenza virus, TEM

RMACB6R8–Hen in a farmyard in Normandy France

A woman at community water tap with mask, India Stock Photo

RMDE40NC–A woman at community water tap with mask, India

RFADWNT1–Micro Biotech II

RFPKNRR4–Orthomyxovirus, illustration.

RMAR4P76–Close up of a syringe

RMA4KTKP–White fronted Goose Anser erythropus victim of H5N1 bird flu, Black Sea

RF2ND672G–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat. Embedded in

RMER3EH0–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, Limoges hospital, France.

RFDNDX0M–Conceptual image of influenza causing flu.

RMHRH9Y6–Influenza virus, TEM

RMACB6RB–Hen in a farmyard in Normandy France

RMDFBN82–Woman, Precaution mask for Swine Flu, H1N1

RFPKNRR7–Orthomyxovirus, illustration.

Scientist holding a test tube Stock Photo

RMAR4P8C–Scientist holding a test tube

Red-breasted goose victim of H5N1 bird flu, Black Sea Stock Photo

RMA4KTFT–Red-breasted goose victim of H5N1 bird flu, Black Sea

RF2ND65FJ–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat. Embedded in

RMER3EGR–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, France.

RFDNDX0P–Conceptual image of influenza causing flu.

Microscopic view of blood cells with virus. Stock Photo

RFE81B0W–Microscopic view of blood cells with virus.

RMHRH9Y8–Influenza virus, TEM

Microscopic view of H5N1 virus with red blood cells and white blood cells. Stock Photo

RFD9NW7N–Microscopic view of H5N1 virus with red blood cells and white blood cells.

Hens in a farmyard in Normandy France Stock Photo

RMACB6R9–Hens in a farmyard in Normandy France

Influenza virus, glassy look. Stock Photo

RFD9NT12–Influenza virus, glassy look.

A woman at community water tap with mask, H1N1, India Stock Photo

RMDEKD4W–A woman at community water tap with mask, H1N1, India

RFDCG39F–Group of H5N1 virus with glassy view.

RFPKNRR8–Orthomyxovirus, illustration.

RMAR4P74–Laboratory worker

Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (blue). Embe Stock Photo

RF2P8AXE7–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (blue). Embe

RMER3EGN–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, France.

RMHRH9W0–Influenza Virus

RMACB6RD–Hen in a farmyard in Normandy France

Young couple in a garden with Precaution mask for Swine Flu, H1N1 Stock Photo

RMDDB9TT–Young couple in a garden with Precaution mask for Swine Flu, H1N1

RFDCG39D–Group of H5N1 virus with glassy view.

RFPKNRR6–Orthomyxovirus, illustration.

Culture of the flu virus in an egg Stock Photo

RMAR4P07–Culture of the flu virus in an egg

Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (purple). Em Stock Photo

RF2P8AXDY–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (purple). Em

RMER3EGM–Cells culture examination, manipulations in P3 laboratory, Biology and Research Center in University Hospital Health, Limoges hospital, France.

Woman receiving vaccination. Stock Photo

RME5RXDK–Woman receiving vaccination.

RMHRH9W1–Influenza Virus

Ducks in a field in Normandy France Stock Photo

RMACB6R7–Ducks in a field in Normandy France

Article on Swine flu in Marathi, Regional language newspaper Stock Photo

RMDEKCBP–Article on Swine flu in Marathi, Regional language newspaper

RFDCG396–Group of H5N1 virus with glassy view.

A black swarm of H5N1 avian flu viruses are attacked by antibodies. Stock Photo

RFD9NW94–A black swarm of H5N1 avian flu viruses are attacked by antibodies.

RFPKNRR0–Orthomyxovirus, illustration.

RFDNDX0R–Conceptual image of influenza causing flu.

Antibodies and flu viruses. Illustration of antibodies (pink) attacking influenza virus particles (brown). The antibodies bind to the hemagglutinin protein, which contains the antigenic site of the virus. This binding by the antibodies prevents the virus particles from binding to the surface of human cells. Influenza is in the orthomyxovirus group of viruses. It infects the respiratory tract and causes fever, aching muscles, a sore throat and feelings of fatigue. New strains of the virus develop rapidly, and can cause epidemics. Stock Photo

RFFXP677–Antibodies and flu viruses. Illustration of antibodies (pink) attacking influenza virus particles (brown). The antibodies bind to the hemagglutinin protein, which contains the antigenic site of the virus. This binding by the antibodies prevents the virus particles from binding to the surface of human cells. Influenza is in the orthomyxovirus group of viruses. It infects the respiratory tract and causes fever, aching muscles, a sore throat and feelings of fatigue. New strains of the virus develop rapidly, and can cause epidemics.

Conceptual biomedical illustration of the Influenza virus on surface. Stock Photo

RF2JAJN5J–Conceptual biomedical illustration of the Influenza virus on surface.

Illustration showing the structure of an influenza (flu) virus. At the virus's core are ribonucleoprotein particles that include the viral RNA (ribonu Stock Photo

RF2C9JBY9–Illustration showing the structure of an influenza (flu) virus. At the virus's core are ribonucleoprotein particles that include the viral RNA (ribonu

RMAR4P81–Scientist holding a test tube

RFKG56RD–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (blue). Embedded in the coat are surface proteins (spikes). There are two types of surface protein, hemagglutinin (purple) and neuraminidase (orange), and each exists in several subtypes. Both surface proteins are associated with the pathogenicity of a virus. Hemagglutinin binds to host cells, allowing the virus to enter them and replicate. Neuraminidase allows the new particles to exit the host after replication.

RF2P8AXDK–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (purple). Em

RME5RXDN–Woman receiving vaccination.

RMHRH9W2–Influenza Virus

RMACB6R4–Ducks in a field in Normandy France

RMDFBM7C–Article on Swine flu in Marathi, Regional language newspaper

RF2JAJN5Y–Conceptual biomedical illustration of the Influenza virus on surface.

RMAR4P12–Culture of the flu virus in an egg

Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (orange). Embedded in the coat are surface proteins (spikes). There are two types of surface protein, hemagglutinin (purple) and neuraminidase (green), and each exists in several subtypes. Both surface proteins are associated with the pathogenicity of a virus. Hemagglutinin binds to host cells, allowing the virus to enter them and replicate. Neuraminidase allows the new particles to exit the host after replication. Stock Photo

RFKG56RF–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat (orange). Embedded in the coat are surface proteins (spikes). There are two types of surface protein, hemagglutinin (purple) and neuraminidase (green), and each exists in several subtypes. Both surface proteins are associated with the pathogenicity of a virus. Hemagglutinin binds to host cells, allowing the virus to enter them and replicate. Neuraminidase allows the new particles to exit the host after replication.

RF2ND660J–Flu viruses, computer illustration. Each virus consists of a core of RNA (ribonucleic acid) genetic material surrounded by a protein coat. Embedded in

RME5RXD6–Man wearing a face mask.

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Orthomyxovirus Stock Photos and Images

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