Show:
Cell Parts
prokaryotes VS eukaryotes plant VS animal
Iso, Hypo,Hypertonic
active VS passive transport endocytosis VS exocytosis
100

Golgi apparatus

organelle active in synthesis, modification, sorting, and secretion of cell products

100

Prokaryote cell

No internal membrane; no nucleus

100

Isotonic

Equal solute concentration

100

Active transport

Metabolic energy; against concentration gradient

200

Lysosome

Digestive organelle where macromolecules are hydrolyzed

200

Eukaryote

Membrane-enclosed nucleus; cytoplasm contains organelles

200

Hypertonic 

in solute concentration > the cell's surroundings

200

Passive transport

No energy; along with concentration gradient

300

Peroxisome

Produces hydrogen peroxide as a by-product and converts it to water
300

Plant cell

Rigid cell walls; plastids; large vacuoles; no centrioles

300

Hypotonic

in solute concentration < the cell's surroundings

300

Exocytosis

Materials exit cell; membrane surface increases

400

Endoplasmic Reticulum

Network of membranous sacs and tubes; active in membrane synthesis and other synthetic and metabolic processes
400

Animal cell

no cell wall; no chloroplast; small vacuoles

400

Plasmolysis

hypertonic solution; water moves out; cell membrane splits from cell wall

400

Endocytosis

Materials enter cell; membrane surface are decreases

500

Vacuole

Storage, breakdown of waste products,and hydrolysis of macromolecules

500

Cell size

Small prokaryotic cells carry out enough metabolic reactions in order to stay alive and reproduce. Larger eukaryotic cells are able to do many more functions.

500

Turgor Pressure

Hypotonic solution; water moves in; pressure against cell wall

500

Facilitated diffusion

Specific transport proteins move solutes across membrane; down concentration gradient; passive transport