A) Ganciclovir – inhibits DNA polymerase after phosphorylation by viral kinase B) Acyclovir – requires viral thymidine kinase for activation C) Foscarnet – directly inhibits viral DNA polymerase without prior phosphorylation D) Cidofovir – incorporates into DNA after diphosphate conversion E) Brivudine – inhibits viral thymidine kinase Answer: C – VZV retinitis in advanced HIV can be acyclovir-resistant due to thymidine kinase mutations. Foscarnet does not require viral TK; it directly blocks DNA polymerase. Acyclovir (B) would fail if TK-deficient. Ganciclovir (A) requires viral kinase (UL97 for CMV; VZV TK less efficient). Brivudine (E) also requires TK. 3. Gram-Positive Cocci – Subtle Differentiation A blood culture from a patient with subacute bacterial endocarditis grows catalase-negative, gram-positive cocci in chains. The organism is bile-esculin positive, grows in 6.5% NaCl, and produces a yellow pigment on blood agar. Which additional test confirms the species, and what is the key virulence factor?
A) Trophozoite – glycolysis via hexose monophosphate shunt B) Schizont – proteolysis of hemoglobin C) Hypnozoite – dormant stage in hepatocytes with slow metabolic rate D) Gametocyte – anaerobic respiration E) Merozoite – pentose phosphate pathway only Answer: C – P. vivax and P. ovale form hypnozoites in the liver, causing relapse months after primary infection. They are metabolically dormant but survive. Primaquine targets them. The 48-hour periodicity is tertian malaria. 7. Virology – Unusual Latency Which DNA virus is correctly paired with its primary site of latency AND a unique reactivation trigger that does NOT involve immunosuppression? jawetz microbiology mcq
A) Lipid A-mediated cytokine storm B) IgA protease secretion C) Polysaccharide capsule that inhibits complement deposition D) Exotoxin A-mediated ADP-ribosylation of EF-2 E) M protein-mediated antiphagocytosis Answer: C – The organism is Haemophilus influenzae type b (requires X and V factors). Its polyribosylribitol phosphate (PRP) capsule is the major virulence factor for invasive disease (meningitis, epiglottitis). IgA protease (B) facilitates mucosal colonization but not invasion. Exotoxin A is from Pseudomonas . M protein is from Strep. pyogenes . 2. Antiviral Pharmacology A patient with HIV (CD4 count 180) on tenofovir, emtricitabine, and dolutegravir develops progressive outer retinal necrosis. PCR of vitreous fluid is positive for varicella-zoster virus (VZV). Which drug added to current ART would be most appropriate, and what is its mechanism? Ganciclovir (A) requires viral kinase (UL97 for CMV;
A) Eikenella corrodens + Staphylococcus aureus – beta-lactamase protects both B) Fusobacterium nucleatum + Streptococcus anginosus – succinic acid and short-chain fatty acids inhibit phagocyte function C) Prevotella melaninogenica + Peptostreptococcus – hyaluronidase and collagenase D) Capnocytophaga + Streptococcus mitis – endotoxin synergy E) Bacteroides fragilis + Enterococcus faecalis – capsule and superoxide dismutase Answer: B – Fusobacterium + Streptococcus (especially S. anginosus group) is classic synergistic necrotizing infection (e.g., Lemierre’s, human bite). Fusobacterium produces succinic acid and short-chain fatty acids that impair neutrophil killing. Eikenella (A) is slow-growing, not typically rapid necrosis. B. fragilis + Enterococcus seen in intra-abdominal but not rapid 24h necrosis from human bite. Eikenella (A) is slow-growing
A 45-year-old with a history of recurrent otitis media develops meningitis. CSF Gram stain shows small pleomorphic Gram-negative rods. The isolate requires X and V factors for growth. Which of the following virulence mechanisms is most directly associated with this organism’s ability to cause invasive disease?