Biology, asked by jogdandsonu37, 9 months ago

Can two types of virus make a different kind of virus?explain please too important ​

Answers

Answered by nightfury27
15

no absolutely not

only virus are mutate to produce different one

Answered by varshavnair2007
1

ANSWER- A virus is a submicroscopic infectious agent that replicates only inside the living cells of an organism.[1] Viruses infect all types of life forms, from animals and plants to microorganisms, including bacteria and archaea.[2] Since Dmitri Ivanovsky's 1892 article describing a non-bacterial pathogen infecting tobacco plants, and the discovery of the tobacco mosaic virus by Martinus Beijerinck in 1898,[3] more than 6,000 virus species have been described in detail,[4] of the millions of types of viruses in the environment.[5] Viruses are found in almost every ecosystem on Earth and are the most numerous type of biological entity.[6][7] The study of viruses is known as virology, a subspeciality of microbiology.

When infected, a host cell is forced to rapidly produce thousands of identical copies of the original virus. When not inside an infected cell or in the process of infecting a cell, viruses exist in the form of independent particles, or virions, consisting of: (i) the genetic material, i.e. long molecules of DNA or RNA that encode the structure of the proteins by which the virus acts; (ii) a protein coat, the capsid, which surrounds and protects the genetic material; and in some cases (iii) an outside envelope of lipids. The shapes of these virus particles range from simple helical and icosahedral forms to more complex structures. Most virus species have virions too small to be seen with an optical microscope as they are one hundredth the size of most bacteria.

The origins of viruses in the evolutionary history of life are unclear: some may have evolved from plasmids—pieces of DNA that can move between cells—while others may have evolved from bacteria. In evolution, viruses are an important means of horizontal gene transfer, which increases genetic diversity in a way analogous to sexual reproduction.[8] Viruses are considered by some biologists to be a life form, because they carry genetic material, reproduce, and evolve through natural selection, although they lack the key characteristics such as cell structure that are generally considered necessary criteria for life. Because they possess some but not all such qualities, viruses have been described as "organisms at the edge of life",[9] and as self-replicators.[10]

Viruses spread in many ways. One transmission pathway is through disease-bearing organisms known as vectors: for example, viruses are often transmitted from plant to plant by insects that feed on plant sap, such as aphids; and viruses in animals can be carried by blood-sucking insects. Influenza viruses are spread by coughing and sneezing. Norovirus and rotavirus, common causes of viral gastroenteritis, are transmitted by the faecal–oral route, passed by hand-to-mouth contact or in food or water. The infectious dose of norovirus required to produce infection in humans is less than 100 particles.[11] HIV is one of several viruses transmitted through sexual contact and by exposure to infected blood. The variety of host cells that a virus can infect is called its "host range". This can be narrow, meaning a virus is capable of infecting few species, or broad, meaning it is capable of infecting many.[12]

Viral infections in animals provoke an immune response that usually eliminates the infecting virus. Immune responses can also be produced by vaccines, which confer an artificially acquired immunity to the specific viral infection. Some viruses, including those that cause AIDS, HPV infection, and viral hepatitis, evade these immune responses and result in chronic infections. Several antiviral drugs have been developed.

Contents

1 Etymology

2 History

3 Origins

4 Microbiology

4.1 Life properties

4.2 Structure

4.2.1 Giant viruses

4.3 Genome

4.3.1 Genome size

4.4 Genetic mutation

4.5 Replication cycle

4.6 Genome replication

4.7 Cytopathic effects on the host cell

4.8 Dormant and latent infections

4.9 Host range

5 Classification

5.1 ICTV classification

5.2 Baltimore classification

6 Role in human disease

6.1 Epidemiology

6.2 Epidemics and pandemics

6.3 Cancer

6.4 Host defence mechanisms

6.5 Prevention and treatment

6.5.1 Vaccines

6.5.2 Antiviral drugs

7 Infection in other species

7.1 Animal viruses

7.2 Plant viruses

7.3 Bacterial viruses

7.4 Archaeal viruses

8 Role in aquatic ecosystems

9 Role in evolution

10 Applications

10.1 Life sciences and medicine

10.1.1 Virotherapy

10.2 Materials science and nanotechnology

10.3 Synthetic viruses

10.4 Weapons

11 See also

12 References

12.1 Notes

12.2 Bibliography

13 External links

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