Viruses do not grow or develop in a host organism like bacteria do. Instead, they replicate by hijacking the host cell's machinery to make more virus particles.
Viruses grow and develop within a host organism by attaching to host cells, injecting their genetic material, and hijacking the host cell's machinery to replicate themselves. This process can lead to the destruction of the host cell and the spread of the virus to other cells in the organism.
Viruses grow and develop by infecting host cells and using their machinery to replicate. They can mutate and evolve over time, leading to new strains and variations.
A virus grows and develops within a host organism by attaching to host cells, entering them, and using the host's cellular machinery to replicate itself. This process can lead to the virus spreading throughout the host's body and causing infection.
Viruses do not "grow", much less use sunlight and carbon dioxide to develop. That is what plants do. Viruses enter a host cell, intergrate their DNA with its, and the host cell "builds" more parts of the virus, which assemble in masses, explode out of the cell, and go on to infect new host cells.
Yes, a virus can grow and replicate within a host organism by hijacking the host's cellular machinery to produce more virus particles.
Viruses grow and develop within a host organism by attaching to host cells, injecting their genetic material, and hijacking the host cell's machinery to replicate themselves. This process can lead to the destruction of the host cell and the spread of the virus to other cells in the organism.
Viruses grow and develop by infecting host cells and using their machinery to replicate. They can mutate and evolve over time, leading to new strains and variations.
A virus grows and develops within a host organism by attaching to host cells, entering them, and using the host's cellular machinery to replicate itself. This process can lead to the virus spreading throughout the host's body and causing infection.
Viruses do not "grow", much less use sunlight and carbon dioxide to develop. That is what plants do. Viruses enter a host cell, intergrate their DNA with its, and the host cell "builds" more parts of the virus, which assemble in masses, explode out of the cell, and go on to infect new host cells.
The answer to this question is a host! A host could be a host cell which a virus uses to reproduce and create more viruses to get you sick!
Picture the host as the viruses brain and heart.. Once the virus leaves the host it dies. In other words the host gives it life.
Yes, a virus can grow and replicate within a host organism by hijacking the host's cellular machinery to produce more virus particles.
FALSE Although viruses can multiply, they do so differently than organisms. Viruses can multiply only when they are inside a living cell. The organism that a virus enters and multiplies inside is called a host. A host is an organism that provides a source of energy for a virus or another organism. A virus acts like parasite, an organism that lives on or in a host and causes it harm. Almost all viruses destroy the cells in which they multiply CREDIT FROM: NORTH CAROLINA 8TH GRADE PRENTICE HALL SCIENCE EXPLORER
Viruses require a host cell to replicate and reproduce. They inject their genetic material into the host cell where it instructs the cell to make new virus particles.
Viruses need a host cell to replicate and multiply because they lack the cellular machinery for these processes. By hijacking the host cell's machinery, viruses can produce more viral particles and continue their infectious cycle. This allows viruses to thrive and spread within a host organism.
An obligate intracellular microorganism, such as viruses and some bacteria like Chlamydia, can only replicate and survive within the cells of a host organism. They lack the necessary cellular machinery to carry out essential functions outside of a host cell.
Viruses can adapt through mutations in their genetic material, allowing them to evolve and develop new characteristics. This can occur during replication inside host cells or through recombination with other viruses. Adaptation enables viruses to overcome immune responses, change host range, or develop resistance to antiviral treatments.