Eukaryotic Cells
Granum
(Only Plant Cells) a stack of chlorophyll-containing thylakoids in a chloroplast
Chloroplast
(Only Plant Cells) carries out photosynthesis, producing sugars
Central Vacuole
(Only Plant Cells) large, fluid-filled sac that stores metabolites and helps maintain turgor pressure
Cell Wall
(Only Plant Cells) outer surface that shapes, supports, and protects cell
Centrioles
(Only in Animal Cells) short cylinders of microtubules
Lysosome
(Only in Animal Cells) vesicle that digests macromolecules and even cell parts
Centrosome
Animal Cells: microtubule organizing center that contains a pair of centrioles Plant Cells: microtubule organizing center (lacks centrioles)
Plasma Membrane
Animal Cells: outer surface that regulates entrance and exit of molecules Plant Cells: surrounds cytoplasm, and regulates entrance and exit of molecules
Ribosomes
Animal Cells: particles that carry out protein synthesis Plant Cells: carry out protein synthesis
Nucleolus
Animal Cells: region that produces subunits of ribosomes Plant Cells: produces subunits of ribosomes
Nucleus
Animal and Plant Cells: command center of cell
Chromatin
Animal and Plant Cells: diffuse threads containing DNA and protein
Nuclear Envelope
Animal and Plant Cells: double membrane with nuclear pores that encloses nucleus
Smooth ER
Animal and Plant Cells: lacks ribosomes, synthesizes lipid molecules
Mitochondrion
Animal and Plant Cells: organelle that carries out cellular respiration, producing ATP molecules
Nuclear Pore
Animal and Plant Cells: permits passage of proteins into nucleus and ribosomal subunits out of nucleus
Golgi Apparatus
Animal and Plant Cells: processes, packages, and secretes modified proteins
Endoplasmic Reticulum
Animal and Plant Cells: protein and lipid metabolism
Cytoplasm
Animal and Plant Cells: semifluid matrix outside nucleus that contains organelles
Rough ER
Animal and Plant Cells: studded with ribosomes that synthesize proteins
Signal Peptide
Binding of a ribosome to the endoplasmic reticulum occurs only if the protein being synthesized by a ribosome begins with a sequence of amino acids (called a signal peptide)
Eukaryotic Cells
One of the three different types of cells that exist in nature; Eukaryotes have a nucleus and are compartmentalized. Membranes create internal spaces that divide the labor necessary to conduct life functions. Ex: Animal and Plant cells
Prokaryotic Cells
One of the three different types of cells that exist in nature; Prokaryotes (lack a membrane-enclosed nucleus) as a group are one of the most abundant and diverse life-forms on Earth, and they are present in great numbers in the air, water, and soil, as well as living in and on other organisms.
Endosymbiotic Theory
The scientific evidence that shows the relationship that the mitochondria and chloroplasts, two energy-related organelles, arose when a large eukaryotic cell engulfed independent prokaryotes.
Microtubules
Type of Cytoskeleton Animal Cells:protein cylinders that move organelles Plant Cells: protein cylinders that aid movement of organelles
Actin Filaments
Type of Cytoskeleton Animal and Plant Cells: protein fibers that play a role in cell division and shape
Intermediate Filaments
Type of Cytoskeleton Animal and Plant Cells: protein fibers that provide stability of shape
Cytoskeleton
Vesicles move around by means of this, an extensive network or lattice of protein fibers, which also maintains cell shape and assists with cell movement.
Organelles
The compartments of a eukaryotic cell-it carries out specialized functions that together allow the cell to be more efficient and successful. Nearly all organelles are surrounded by a membrane with embedded proteins, many of which are enzymes.
Vesicle
small membrane-bounded sac that stores and transports substances
Polyribosome
string of ribosome simultaneously synthesizing same protein
