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That's what retroviruses do. They use the host cell's reverse transcriptase enzyme to manufacture DNA from the virus' RNA

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Viral rna uses the normal processes of a cell to manufactor what?

Viral RNA uses the normal processes of a cell to manufacture more viruses.


Viral RNA uses the normal process of a cell to manufacture?

Viral RNA hijacks the host cell's machinery to replicate and produce viral proteins. It uses the cell's resources and machinery, such as ribosomes and enzymes, to make copies of itself and assemble new viral particles. This process can ultimately lead to the destruction of the host cell.


What two processes are directed by viral genes that are activated inside the host cell?

Replication and assembly of new viral particles are processes directed by viral genes that are activated inside the host cell. The viral genes hijack the host cell machinery to produce more virus particles and assemble them before releasing them to infect other cells.


What is the process in which viral infections results in cancer?

Viral infections can lead to cancer by integrating viral DNA into the host cell's genome, causing mutations that disrupt normal cell growth control mechanisms. Some viruses can also promote inflammation, which can create an environment conducive to cancer formation. Additionally, viral proteins may interfere with key cellular processes, leading to uncontrolled cell division and tumor formation.


Where do viral particles get the materials for the protein - and nucleic acid - synthesis that they need to perform?

To carry out their Viral processes they 'utilize' the resources of The Host Cell.


What forces cells to make more viruses?

Cells are forced to make more viruses primarily through the process of viral replication. When a virus infects a host cell, it hijacks the cell's machinery, redirecting resources to produce viral components instead of the cell's normal functions. This manipulation often leads to the synthesis of viral proteins and genetic material, ultimately assembling new virus particles that are released to infect additional cells. The viral takeover of the host's cellular processes is essential for the virus's propagation and survival.


What is the process in which viral capsids are removed within the infected cell?

After a virus enters a host cell and releases its genetic material, the viral capsid is broken down or degraded by the cell's enzymes. The capsid proteins are typically recycled or used by the cell for its own processes. This allows the viral genetic material to be released and begin replicating inside the host cell.


What does scientists mean when they state viruses hijack the cell?

When scientists say that viruses "hijack" a cell, they mean that viruses invade host cells and take control of the cell's machinery to replicate themselves. Once inside, a virus can manipulate the cell's processes to produce viral components instead of the cell's normal functions, effectively using the cell as a factory for making new viruses. This process often disrupts the normal activities of the cell and can lead to cell damage or death.


How do Viral infections reproduce?

It has to have a host cell to reproduce then it kills that cell becausethere are so many viral disease in side the host cell. The Viral disease will continue you to kill host cell until you get an antibiotic


Can a virus make ATP?

Viruses use energy in the form of ATP to function. All living things will need ATP so as to function in a normal manner.


What life processes can a virus do in a living cell?

Replication of self using materials and energy of the invaded living cell ("reproduction"), along with viral mutations.


What are unable to destroy viral invaders that enter a normal cell and multiply within the cell?

Normal cells are unable to destroy viral invaders because viruses hijack the cellular machinery to replicate themselves, making it difficult for the immune system to detect them. Additionally, viruses often employ various mechanisms to evade immune responses, such as altering their surface proteins or inhibiting the host's antiviral pathways. As a result, the immune system may not recognize the infected cell as a threat until after significant viral replication occurs.