Mr. Karns Biology Viruses.

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Presentation transcript:

Mr. Karns Biology Viruses

19–2 Viruses

What Is a Virus? What Is a Virus? Viruses are particles of nucleic acid, protein, and in some cases, lipids. Viruses can reproduce only by infecting living cells.

Viruses differ widely in terms of size and structure. What Is a Virus? Viruses differ widely in terms of size and structure. All viruses enter living cells and use the infected cell to produce more viruses.

What is the structure of a virus? What Is a Virus? What is the structure of a virus?

What Is a Virus? Sketch these 3 shapes T4 Bacteriophage Tobacco Mosaic Virus Influenza Virus RNA DNA Head RNA Capsid Tail sheath Tail fiber Membrane envelope Surface proteins Capsid proteins Viruses come in a wide variety of sizes and shapes. A typical virus is composed of a core of either DNA or RNA, which is surrounded by a protein coat, or capsid. Photo Credits: l. ©M.Wurtz/Biozentrum, University of Basel/Science Photo Library/Photo Researchers, Inc. m. ©Dr. O. Bradfute/Peter Arnold, Inc. r. ©National Institute for Biological Standards and Control, England/Photo Researchers, Inc.

A capsid is the virus’s protein coat. What Is a Virus? A typical virus is composed of a core of DNA or RNA surrounded by a protein coat. A capsid is the virus’s protein coat.

The host cell may makes copies of the virus, and be destroyed. What Is a Virus? Capsid proteins bind to receptors on the cell surface and “trick” the cell into allowing it inside. Once inside, viral genes are expressed and the cell transcribes and translates them into viral capsid proteins. The host cell may makes copies of the virus, and be destroyed.

Most viruses are highly specific to the cells they infect. What Is a Virus? Most viruses are highly specific to the cells they infect. Viruses that infect bacteria are called bacteriophages.

How do viruses cause infection? Viral Infection How do viruses cause infection?

Viral Infection Viral Infection Once the virus is inside the host cell, two different processes may occur. Some viruses replicate immediately, killing the host cell. Others replicate, but do not kill the host cell immediately.

Bacteriophage injects DNA into bacterium Viral Infection Bacteriophage injects DNA into bacterium Bacteriophage DNA forms a circle Lytic Infection Lysogenic Infection DNA takes over the cell Prophase incorporates in Host DNA Uses the cell machinery to build new virus parts Viral DNA is copied along with bacterial DNA Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection. Cell lysis or budding takes place Can stay Lysogenic or can be triggered to go Lytic

Viral Infection Lytic Infection In a lytic infection, a virus enters a cell, makes copies of itself, and causes the cell to burst.

First, the bacteriophage injects DNA into a bacterium. Viral Infection First, the bacteriophage injects DNA into a bacterium. The bacteriophage DNA forms a circle.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Viral Infection Lysogenic Infection Other viruses cause lysogenic infections in which a host cell makes copies of the virus indefinitely. In a lysogenic infection, a virus integrates its DNA into the DNA of the host cell, and the viral genetic information replicates along with the host cell's DNA.

A lysogenic infection begins the same way as a lytic infection. Viral Infection A lysogenic infection begins the same way as a lytic infection. The bacteriophage injects DNA into a bacterium. The bacteriophage DNA forms a circle. The viral DNA embedded in the host's DNA is called a prophage.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Viral Infection Bacteriophage may infect cells in two ways: lytic infection and lysogenic infection.

Retroviruses Retroviruses contain RNA as their genetic information. When retroviruses infect cells, they make a DNA copy of their RNA. This DNA is inserted into the DNA of the host cell.

The virus that causes AIDS is a retrovirus. Retroviruses A retrovirus’ genetic information is copied backward—from RNA to DNA. This requires a reverse transcriptase enzyme, which allows for reverse transcription. The virus that causes AIDS is a retrovirus. Retroviruses have a very high mutation rate, almost once every generation! This makes them dangerous for us.

Viruses and Living Cells Viruses must infect a living cell in order to grow and reproduce. They take advantage of the host’s respiration, nutrition, and all other functions of living things.

Viruses and Living Cells Viruses have many of the characteristics of living things. After infecting living cells, viruses can reproduce, regulate gene expression, and even evolve.

Viruses and Living Cells Because viruses are dependent on living things, it seems likely that viruses developed after living cells. The first viruses may have evolved from genetic material of living cells. Viruses have continued to evolve over billions of years.

19–2

Viruses that contain RNA as their genetic information are known as 19–2 Viruses that contain RNA as their genetic information are known as prions. oncoviruses. retroviruses. bacteriophage.

The first type of virus to be studied was the bacteriophage. 19–2 The first type of virus to be studied was the bacteriophage. tobacco mosaic virus. influenza virus. AIDS virus.

Which of the following statements about viruses is true? 19–2 Which of the following statements about viruses is true? Viruses appear similar to bacteria when studied with a light microscope. Viruses display the essential characteristics of living things. Viruses can reproduce independently if they contain DNA. Viruses cannot reproduce unless they infect a living cell.

neither a lytic nor a lysogenic infection. retroviral infection. 19–2 A virus integrates its DNA into the DNA of the host cell but remains inactive for a while in a lytic infection. a lysogenic infection. neither a lytic nor a lysogenic infection. retroviral infection.

Retroviruses are considered unique because 19–2 Retroviruses are considered unique because they have RNA in their capsid and not DNA. they have DNA in their capsid and not RNA. after infection of a host cell, their RNA makes DNA. after infection of a host cell, their DNA makes RNA.

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