AP BIO - Unit #4 Quiz Practice

Cell Communication

Types of signaling

Signal Transduction

Cell Cycle

Feedback and homeostasis

100

Why cells must communicate

Coordinating cell activities

100

This type of signaling requires physical contact between cells.

Direct contact signaling.

100

The first stage of cell signaling, when a ligand binds to a receptor.

Reception

100

The growth and reproductive cycle of a eukaryotic cell.

The cell cycle.

100

A feedback mechanism that counteracts change to maintain stability.

Negative feedback.

200

This allows unicellular organisms to detect and respond to changes in their environment.

Cell signaling.

200

This type of signaling acts on nearby target cells.

Paracrine signaling.

200

The stage of signaling involving a series of intracellular relay steps.

Transduction

200

The phase of the cell cycle during which DNA is replicated.

S phase

200

A feedback mechanism that amplifies change to complete a process.

Positive feedback.

300

This determines whether a cell will respond to a signaling molecule.

The presence of a specific receptor.

300

This type of signaling uses neurotransmitters across synapses.

Synaptic signaling.

300

The final stage of cell signaling that produces a cellular action.

Response

300

A possible result when checkpoints fail and apoptosis does not occur.

Uncontrolled cell division (cancer).

300

Sweating to cool the body is an example of this type of feedback.

Negative feedback.

400

This bacterial communication method depends on population density.

Quorum sensing.

400

This type of signaling involves hormones traveling through the bloodstream.

Endocrine signaling.

400

A second messenger produced from ATP in the epinephrine pathway.

cAMP

400

Control points that ensure critical events are completed before cell cycle progression.

Checkpoints

400

Oxytocin release during childbirth is an example of this type of feedback.

Positive feedback.

500

This coordinated behavior can result from quorum sensing in bacteria.

Biofilm formation or toxin production.

500

A cell releases a chemical that affects only nearby cells in the same tissue.

Paracrine signaling

500

Enzymes that add phosphate groups to proteins.

Protein kinases.

500

Protein complexes that regulate progression through the cell cycle.

Cyclin-Cdk complexes.

500

The primary reason negative feedback is essential in living systems.

Maintenance of homeostasis.