BIOL 1201 Final Exam Review II

Gene Expression and Regulation

Cell Signaling

Hormones & Endocrine system

Neurons and Nervous System

Sensory & Motor Mechanisms

100

The trp operon is an example of a __________ operon, turned off when tryptophan is abundant.

Repressible

100

Which of the following is true of G protein-coupled receptors (GPCRs)?
A. They phosphorylate proteins directly
B. They form dimers upon ligand binding
C. They use second messengers to relay signals
D. They bind DNA directly

C. they use second messengers to relay signals

100

__________________ feedback loops help maintain homeostasis by counteracting changes from a set point.

Negative

100

The refractory period ensures that action potentials only travel in ________ direction along the axon.

one

100

The _______________ ear contains the cochlea, responsible for converting sound waves to nerve signals.

inner

200

Which of the following occurs due to DNA methylation?
A. Increased transcription
B. Decreased transcription
C. Enhanced mRNA stability
D. Increased histone acetylation

B. Decreased transcription

200

Second messengers such as ____________ and ___________ are crucial in many intracellular signaling pathways.

cAMP and Ca2+

200

Water-soluble hormones require _____________________ to transmit their signal inside the cell.

Membrane receptors

200

What is the immediate result of Na⁺ influx during an action potential?
A. Repolarization
B. Hyperpolarization
C. Depolarization
D. Resting potential maintenance

C. Depolarization

200

Which receptor type is primarily responsible for detecting mechanical pressure?
A. Chemoreceptor
B. Mechanoreceptor
C. Thermoreceptor
D. Photoreceptor

B. Mechanoreceptor

300

What would happen to the lac operon if lactose is present but the repressor is mutated and cannot bind the operator?
A. The operon will stay off
B. The operon will be expressed
C. CRP will bind and repress the operon
D. RNA polymerase cannot bind

B. The operon will be expressed

300

Which step in a signal transduction pathway most often amplifies the signal?
A. Ligand binding
B. G protein activation
C. Phosphorylation cascade
D. Transcriptional response

C. Phosphorylation cascade

300

Which hormone helps regulate calcium levels by increasing uptake in bones?
A. Calcitonin
B. Parathyroid hormone (PTH)
C. Aldosterone
D. Glucagon

A. Calcitonin

300

Which part of the neuron receives incoming signals from other neurons?

a. axon

b. axon terminal

c. dendrites

d. myelin sheath

C. Dendrites

300

Which structure in the retina is responsible for high-acuity color vision?
A. Optic nerve
B. Rod cells
C. Fovea
D. Iris

C. Fovea

400

In eukaryotes, gene regulation at the transcription level often involves enhancers binding_________________________.

Transcription Factors

400

Intracellular receptors typically act as ________________________ when bound to steroid hormones.

Transcription factors

400

A person with hypersecretion of cortisol may have dysfunction in which part of the hormone cascade?
A. Posterior pituitary
B. Anterior pituitary
C. Adrenal medulla
D. Thyroid gland

B. Anterior pituitary

400

At a chemical synapse, neurotransmitters are released from the ________________ of the presynaptic neuron.

Axon terminal

400

In skeletal muscle contraction, Ca²⁺ binds to ______________, which exposes binding sites on actin.

Troponin

500

Describe how alternative splicing can increase protein diversity from a single gene.

Alternative splicing allows different combinations of exons to be joined together from the same pre-mRNA, producing multiple distinct proteins from a single gene.

500

Compare signal transduction through RTKs versus GPCRs.

RTKs dimerize and phosphorylate target proteins; GPCRs activate G proteins and second messengers.

500

Explain how the hypothalamus and anterior pituitary interest to control hormone cascades.

The hypothalamus releases releasing hormones that stimulate the pituitary to release tropic hormones affecting other glands.

500

Briefly describe the steps involved in transmitting an action potential along a neuron's axon.

The neuron is first depolarized when voltage-gated Na⁺ channels open and Na⁺ enters. This depolarization triggers nearby channels to open, propagating the signal down the axon. K⁺ channels then open to repolarize the membrane. In myelinated axons, the signal "jumps" between nodes of Ranvier in a process called saltatory conduction.

500

Describe the sliding filament model of muscle contraction and the role of ATP.

Myosin binds actin and pulls it; ATP detaches and resets myosin for further contraction.