Unlike a primary pathogen, this type of organism only causes disease when the host's immune system is weakened or it enters an unusual part of the body

This specialized protein complex, often found in Gram-negative bacteria, acts like a tiny syringe to inject effector proteins directly into the host-cell cytoplasm

Some individuals are naturally resistant to HIV infection because they possess a mutation in this specific co-receptor

This term describes the ability of pathogenic fungi to switch between a mold form in the environment and a yeast form inside the host

Antibiotics achieve this by targeting biological features unique to bacteria, such as the cell wall or 30S ribosomes, while leaving host cells unharmed

This bacterium survives the harsh, acidic environment of the stomach by producing urease to create a local alkaline environment and burrowing into the mucus layer

This viral evolution process, common in influenza, involves the sudden "shift" of antigens, often leading to pandemics

This bacterium escapes the phagosome and enters the host cytoplasm by producing proteins that disrupt the phagosomal membrane

Pathogens like the plague bacterium use these organisms—often insects—to bypass the skin's epithelial barrier and enter the bloodstream

one where only the microbe benefits

HORIZONTAL GENE TRANSFER WITH BACTERIOPHAGES

Viruses rely on these host-cell motor proteins to travel along tracks to reach specific destinations within the cell

Many intracellular bacteria, like Shigella and Listeria, hijack this host protein to create "tails" for movement through the cytoplasm

Pathogens like HPV and H. pylori are clinically significant not just for infection, but because they can eventually cause this chronic condition