Virology — MCQs
On this page
Which gene of the hepatitis B virus has the longest coding sequence?
How many segments of RNA does the Influenza virus have?
Which gene of Hepatitis B virus (HBV) is most commonly associated with mutations causing antiviral drug resistance?
Which of the following statements about viruses is false?
Macrophage tropic strains of HIV use which co-receptor?
Exanthema subitum is caused by which virus?
The gene encoding cholera toxin is carried on -
Which virus is primarily responsible for causing Ebola virus disease, a type of hemorrhagic fever?
Smallpox belongs to which genus of poxviruses?
Which virus is known for its brick-shaped morphology?
Virology Indian Medical PG Practice Questions and MCQs
Question 1351: Which gene of the hepatitis B virus has the longest coding sequence?
- A. P gene (Correct Answer)
- B. X gene
- C. S gene
- D. C gene
Explanation: ***P gene*** - The **P gene** (polymerase gene) encodes the viral **reverse transcriptase**, which is crucial for replicating the HBV genome. - This enzyme is very large and complex, requiring the **longest coding sequence** to accommodate all its functional domains. *X gene* - The **X gene** encodes the **HBx protein**, which is a transcriptional transactivator and plays a role in hepatocarcinogenesis. - It has a relatively **short coding sequence** compared to the P gene. *S gene* - The **S gene** encodes the **surface antigens (HBsAg)**, which are involved in viral entry and immune evasion. - It has a **shorter coding sequence** than the P gene, as it primarily codes for structural proteins. *C gene* - The **C gene** encodes the **core protein (HBcAg)**, which forms the viral nucleocapsid, and the **HBeAg**. - Its coding sequence is also **shorter** than that of the P gene, reflecting its role in structural and regulatory functions.
Question 1352: How many segments of RNA does the Influenza virus have?
- A. 5 segments of single-stranded RNA
- B. 8 segments of double-stranded DNA
- C. 8 segments of single-stranded DNA
- D. 8 segments of single-stranded RNA (Correct Answer)
Explanation: ***8 segments of single-stranded RNA*** - The **Influenza virus** is characterized by its segmented genome, which consists of **eight distinct negative-sense single-stranded RNA (ssRNA)** molecules. - This segmentation is crucial for its high mutation rate and ability to undergo **antigenic shift** and **antigenic drift**, leading to new strains. *5 segments of single-stranded RNA* - This option is incorrect because the Influenza virus specifically has **eight segments**, not five. - While it is a single-stranded RNA virus, the number of segments is a key characteristic. *8 segments of double-stranded DNA* - This option is incorrect as Influenza is an **RNA virus**, not a DNA virus, and its genetic material is single-stranded, not double-stranded. - No known influenza viruses have a **double-stranded DNA genome**. *8 segments of single-stranded DNA* - This option is incorrect because Influenza is an **RNA virus**, not a DNA virus. - Its genetic material is composed of **RNA**, specifically negative-sense single-stranded RNA.
Question 1353: Which gene of Hepatitis B virus (HBV) is most commonly associated with mutations causing antiviral drug resistance?
- A. X gene
- B. S gene
- C. C gene
- D. P gene (Correct Answer)
Explanation: ***P gene*** - The **P gene** (polymerase gene) of HBV encodes the viral reverse transcriptase which is essential for viral replication. - Mutations in the P gene can lead to **antiviral drug resistance**, particularly to nucleos(t)ide analogues. *X gene* - The **X gene** encodes the X protein (HBx), a **transcriptional transactivator** involved in viral replication and pathogenesis. - While important for viral function, it is not the primary target for antiviral therapy, and mutations are less frequently associated with drug resistance. *S gene* - The **S gene** encodes the **surface antigens (HBsAg)**, which are crucial for viral entry and immune evasion. - Mutations in the S gene can lead to **vaccine escape mutants** or alter HBsAg detection, but not directly responsible for antiviral resistance. *C gene* - The **C gene** encodes the **core protein (HBcAg)** and the precore protein (HBeAg). - These proteins are involved in **viral particle assembly** and immune modulation, but mutations in this gene are not typically associated with resistance to antiviral drugs.
Question 1354: Which of the following statements about viruses is false?
- A. Viruses contain nucleic acid.
- B. Viruses lack mitochondria.
- C. Viruses are capable of independent motility. (Correct Answer)
- D. Viruses lack ribosomes.
Explanation: ***Viruses are capable of independent motility.*** - Viruses are **acellular infectious agents** and lack the cellular machinery required for independent movement or motility. - They rely on host cell processes or environmental factors for their dissemination and entry into cells. *Viruses lack ribosomes.* - Viruses are **obligate intracellular parasites**; they lack ribosomes and other cellular organelles necessary for protein synthesis. - They hijack the host cell's ribosomes and metabolic machinery to replicate their genetic material and produce viral proteins. *Viruses lack mitochondria.* - Viruses lack mitochondria, as they are **not capable of generating their own ATP** through cellular respiration. - They depend on the host cell's energy-generating systems to provide the ATP required for their replication cycle. *Viruses contain nucleic acid.* - All viruses contain a **nucleic acid genome**, which can be either DNA or RNA. - This genetic material carries the instructions for viral replication and is enclosed within a protein coat called a **capsid**.
Question 1355: Macrophage tropic strains of HIV use which co-receptor?
- A. CCR5 (Correct Answer)
- B. CXCR4
- C. CCR3
- D. CCR2
Explanation: ***CCR5*** - **Macrophage-tropic** HIV strains, also known as **R5 strains**, primarily use the **CCR5 co-receptor** to enter target cells. - These strains are typically involved in the **initial infection** and transmission of HIV. - CCR5-tropic viruses are usually the **predominant strains transmitted** during sexual transmission. *CXCR4* - **T-cell-tropic** HIV strains, or **X4 strains**, preferentially utilize the **CXCR4 co-receptor** for cell entry. - These strains are associated with a **more rapid decline in CD4+ T-cell counts** during later stages of HIV infection. - Emergence of X4 strains is linked to **disease progression**. *CCR3* - While a chemokine receptor, **CCR3** is not a primary co-receptor used by common HIV strains for entry into macrophages or T cells. - CCR3 is primarily involved in **eosinophil chemotaxis** and allergic responses. *CCR2* - **CCR2** is another chemokine receptor but is **not a major co-receptor** for HIV entry. - While some laboratory-adapted strains may show minor usage, it is not clinically significant for macrophage-tropic HIV strains.
Question 1356: Exanthema subitum is caused by which virus?
- A. HHV-6 (Correct Answer)
- B. HCV
- C. HPV
- D. HIV
Explanation: ***HHV-6*** - **Human Herpesvirus 6 (HHV-6)** is the primary cause of **exanthema subitum**, also known as **roseola infantum**. - This viral infection typically affects young children and is characterized by a **high fever** followed by a **maculopapular rash** once the fever subsides. *HIV (Human Immunodeficiency Virus)* - HIV causes **acquired immunodeficiency syndrome (AIDS)**, a condition characterized by a progressive failure of the immune system. - While HIV can cause various skin manifestations, it is not responsible for **exanthema subitum**. *HCV (Hepatitis C Virus)* - HCV is the primary cause of **hepatitis C**, a liver disease that can lead to chronic liver inflammation, cirrhosis, and liver cancer. - Skin manifestations associated with HCV are generally different from exanthema subitum, such as **porphyria cutanea tarda** or **lichen planus**. *HPV (Human Papillomavirus)* - HPV is a group of viruses that cause **warts** (papillomas) and can lead to certain types of **cancers**, including cervical cancer. - It does not cause **exanthema subitum**.
Question 1357: The gene encoding cholera toxin is carried on -
- A. Chromosomal DNA
- B. Extrachromosomal plasmid
- C. Bacteriophage (Correct Answer)
- D. Transposon
Explanation: ***Bacteriophage*** - The gene encoding **cholera toxin (ctxA and ctxB)** is carried on the genome of a **lysogenic bacteriophage** known as CTXf. - This phage integrates its DNA into the *Vibrio cholerae* chromosome, allowing for toxin production. *Chromosomal DNA* - While the **phage DNA (containing the cholera toxin gene)** integrates into the *Vibrio cholerae* chromosome, the toxin itself is **not directly encoded by the core bacterial chromosomal DNA** but by the integrated phage DNA. - Many bacterial virulence factors are encoded on the main chromosome, but cholera toxin is a specific exception. *Extrachromosomal plasmid* - **Plasmids** are extrachromosomal DNA molecules that can carry virulence genes, but the cholera toxin gene is **not typically found on a plasmid** in *Vibrio cholerae*. - Examples of plasmid-encoded toxins include some enterotoxins in *E. coli*. *Transposon* - **Transposons** are "jumping genes" that can move within and between DNA molecules, but they are generally **mobile genetic elements** that carry genes, not the direct source of the cholera toxin gene. - While transposons can sometimes contribute to the movement of virulence genes, the cholera toxin gene specifically originates from a bacteriophage.
Question 1358: Which virus is primarily responsible for causing Ebola virus disease, a type of hemorrhagic fever?
- A. Ebola virus (Correct Answer)
- B. Phlebovirus
- C. West Nile virus
- D. None of the options
Explanation: ***Ebola virus*** - The disease is named after the **Ebola River** in Congo, where it was first identified. - The **Ebola virus** is a member of the **Filoviridae family**, known for causing severe hemorrhagic fevers. *West Nile virus* - This virus is primarily transmitted by **mosquitoes** and causes **West Nile fever**, which can lead to neurological disease. - It does not cause the hemorrhagic fever associated with Ebola virus disease. *Phlebovirus* - **Phlebovirus** is a genus of viruses that includes several species capable of causing **encephalitis** or **febrile illness** with headache and myalgia. - While some can cause hemorrhagic fevers, it is not the primary agent for the disease specifically known as **Ebola virus disease**. *None of the options* - This option is incorrect because the **Ebola virus** is indeed listed as an option and is the correct pathogen responsible for Ebola virus disease.
Question 1359: Smallpox belongs to which genus of poxviruses?
- A. Leporipoxvirus
- B. Orthopoxvirus (Correct Answer)
- C. Capripoxvirus
- D. Parapoxvirus
Explanation: ***Orthopoxvirus*** - **Smallpox** (caused by the **variola virus**) is a classic member of the Orthopoxvirus genus. - This genus includes other human pathogens like **monkeypox** and vaccinia virus (used in the smallpox vaccine). *Parapoxvirus* - This genus includes viruses like **Orf virus** (causing contagious pustular dermatitis in sheep and goats) and pseudocowpox virus. - These viruses typically cause milder, localized lesions and are morphologically distinct from orthopoxviruses. *Capripoxvirus* - This genus includes viruses primarily affecting livestock, such as **lumpy skin disease virus**, sheep pox virus, and goat pox virus. - They cause systemic infections and skin lesions in their respective animal hosts and are not associated with human disease like smallpox. *Leporipox virus* - This genus includes viruses that primarily infect rabbits and hares, such as **myxoma virus** and fibroma virus. - These viruses typically cause tumors or severe systemic disease in their rabbit hosts and are not known to infect humans.
Question 1360: Which virus is known for its brick-shaped morphology?
- A. Chickenpox
- B. Smallpox (Correct Answer)
- C. CMV
- D. EBV
Explanation: ***Smallpox*** - The **variola virus**, responsible for smallpox, is a type of **poxvirus** which characteristically exhibits a **brick-shaped** or ovoid morphology. - This distinctive shape is due to its **large, complex virion structure** containing a dumbbell-shaped core. *Chickenpox* - Chickenpox is caused by the **varicella-zoster virus (VZV)**, which is a member of the **herpesviridae family**. - Herpesviruses are typically **spherical** with an icosahedral capsid. *CMV* - **Cytomegalovirus (CMV)** is another member of the **herpesviridae family**, sharing the characteristic **spherical shape** with an icosahedral capsid. - Its morphology is not brick-shaped. *EBV* - **Epstein-Barr virus (EBV)** is also a **herpesvirus** and thus possesses a **spherical, icosahedral capsid morphology**. - Its structure is distinct from the brick-shaped poxviruses.
Practice by Chapter
Virus Structure and Classification
Practice Questions
Viral Replication
Practice Questions
Pathogenesis of Viral Infections
Practice Questions
DNA Viruses: Herpesviruses
Practice Questions
DNA Viruses: Poxviruses and Adenoviruses
Practice Questions
Hepatitis Viruses
Practice Questions
RNA Viruses: Orthomyxoviruses
Practice Questions
RNA Viruses: Paramyxoviruses
Practice Questions
Enteroviruses and Rhinoviruses
Practice Questions
Arboviruses
Practice Questions
HIV and Retroviruses
Practice Questions
Oncogenic Viruses
Practice Questions
Want unlimited practice?
Get full access to all questions, explanations, and performance tracking.
Start For Free