USA 2 Prep

Cell Theory more Organelles

Organelles & Homeostasis

Cells: Plant, Animal, & Prokaryotes

Photosynthesis

Cellular Respiration

100

The three main statements of cell theory.

All living things are made of cells, cells are the basic unit of structure and function, and all cells come from pre-existing cells.

100

This organelle is known as the “powerhouse of the cell.”

What is the mitochondrion?

100

Plant cells have this structure outside the plasma membrane that animal cells do not.

What is the cell wall?

100

The two main reactants of photosynthesis.

What are water and carbon dioxide?

100

Light energy excites electrons in chlorophyll, powering ATP and NADPH production, which fuel glucose synthesis.

What is ATP?

200

These small structures make proteins.

What are ribosomes?

200

This organelle packages and ships proteins.

What is the Golgi apparatus?

200

Which type of cell lacks a nucleus?

What is a prokaryotic cell?

200

The green pigment in chloroplasts that absorbs sunlight.

What is chlorophyll?

200

Identify the reactants of aerobic respiration.

Glucose and oxygen.

300

This organelle converts sunlight into chemical energy in plant cells.

What is the chloroplast?

300

Compare the functions of ribosomes and lysosomes.

Ribosomes make proteins; lysosomes break down waste and old organelles.

300

Name two structures present in plant cells but not in animal cells.

Chloroplasts and a cell wall (or large central vacuole).

300

Identify the two main products of photosynthesis.

Oxygen and glucose.

300

Name one product of anaerobic respiration in humans.

Lactic acid (and ATP).

400

This organelle digests waste, damaged organelles, and invaders.

What is the lysosome?

400

Explain how the cell membrane maintains homeostasis.

It regulates the movement of substances in and out of the cell.

400

Compare the DNA in prokaryotic cells and eukaryotic cells.

Prokaryotic DNA is circular and free-floating; eukaryotic DNA is linear and in a nucleus.

400

Explain the role of stomata and guard cells in photosynthesis.

They regulate gas exchange, allowing CO₂ in and O₂ out.

400

Contrast aerobic and anaerobic respiration in terms of ATP yield.

Aerobic produces ~36 ATP per glucose; anaerobic produces only 2 ATP.

500

Compare the roles of the rough ER and smooth ER. Which microscopes cannot view living specimens and why

Rough ER makes proteins (with ribosomes attached), while smooth ER makes lipids and detoxifies substances.

500

Differentiate between passive and active transport with an example of each.

Passive (diffusion, osmosis—no energy); Active (endocytosis, protein pumps—requires energy).

500

Explain how specialized structures in prokaryotes and eukaryotes are related to function.

Prokaryotes’ simple structure allows rapid reproduction; eukaryotes’ organelles allow compartmentalization and complex functions.

500

How does light energy drive the process of photosynthesis?

Light energy excites electrons in chlorophyll, powering ATP and NADPH production, which fuel glucose synthesis.

500

Explain how photosynthesis and cellular respiration are interdependent.

Photosynthesis produces glucose and oxygen, which are used in respiration; respiration produces CO₂ and water, which are used in photosynthesis.