Cell Structure and Function Chapter 4
Chapter 4 Vocabulary Cell Mitochondrion Cell theory Endoplasmic reticulum Plasma membrane Golgi apparatus Cytoplasm Lysosome Nucleus Microtubule Prokaryote Microfilament Eukaryote Cilium Phospholipid bilayer Centriole Nuclear envelope Cell wall Nucleolus Central vacuole Ribosome Plastid
The History of Cell Biology
The Discovery of Cells All living things are made up of one or more cells Cell – the simplest unit that can perform all of life’s processes The use of microscopes allowed scientists to see cells for the first time
The Discovery of Cells Hooke Leeuwenhoek English scientist, 1665 Early light microscope Observed cork cells Coined the term “cell” Leeuwenhoek First to observe living cells “animalcules” = protists
The Cell Theory Came about 150 years after Hooke and Leeuwenhoek Developed by scientists Schleiden, Schwann, and Virchow CELL THEORY: All living organisms are composed of one or more cells. Cells are the basic units of structure and function in an organism. Cells come only from the reproduction of existing cells.
Self Quiz What are the three parts of cell theory? Who discovered the first cells? What were they? What invention was important in the discovery of cells?
Introduction to Cells
Cell Diversity Diverse in shape, size, organization A cell’s function influences its physical features
Cell Shape Cell shape reflects function
Cell Size Surface area – to – volume ratio Limits the size of the cell Relationship of the cell’s outer surface area to its volume
Cell Size Materials needed by cell and waste produced pass in and out of the surface Surface area must be big enough to allow materials to enter and leave cell quickly This is why most cells are microscopic
Two Types of Cells Prokaryotes – lack a nucleus and membrane-bound organelles Ex. Bacteria Eukaryotes – have a nucleus and membrane-bound organelles Ex. Plants, Birds, Mammals
Prokaryotic Cell
Eukaryotic Cell
Prokaryotes Lack a nucleus Genetic information is DNA Genetic information concentrated in a part of the cell called a nucleoid
Eukaryotes Have a nucleus Have membrane-bound organelles Organelles – well-defined, intracellular bodies that perform specific functions for the cell Generally larger than prokaryotes
Cellular Organization Cells are grouped based on their function Groups of cells took specific roles
Cellular Organization CELLS Tissue – a group of similar cells and their products that carry out a specific function Organ – groups of tissues that perform a particular job in an organism Organ system – a group of organs that accomplish related tasks
Self Quiz What is the difference between prokaryotes and eukaryotes? What types of organisms are prokaryotes? What types of organisms are eukaryotes? Why are cells so small?
Basic Parts of a Cell All cells have: An outer boundary Plasma membrane Inner substance Cytoplasm Control region Nucleus (in eukaryotes)
Plasma Membrane (Cell Membrane) Only allows certain molecules to enter or leave the cell Separates internal metabolic reactions from the external environment Allows cells to excrete waste Cell can interact with environment
Plasma Membrane (Cell Membrane) Membrane lipids Membrane proteins Fluid mosaic model
Membrane Lipids Cell membrane made primarily of phospholipids Hydrophilic phosphate head Hydrophobic fatty acid tails Called the phospholipid bilayer
Membrane Proteins Cell membrane contains proteins Integral proteins – embedded Peripheral proteins – lie only on one side of the membrane
Membrane Proteins Play important roles in transporting molecules into the cell. Channels Pores Transport sites Chemical messenger attachment site
Fluid Mosaic Model Phospholipid bilayer behaves more like a fluid than a solid. Can move like a boat on the ocean Pattern “mosaic” constantly changes
Self Quiz What is the role of the cell membrane? What is a phospholipid composed of? How does the phospholipid bilayer work?
Nucleus Houses and protects the cell’s genetic information DNA Site where DNA is transcribed to RNA
Nucleus Nuclear envelope – double membrane that surrounds the nucleus. Nuclear pores – provide passageways for RNA and other materials
Nucleus Nucleolus – a denser area of the nucleus The site where DNA is concentrated when making ribosomal RNA Ribosomes – organelles made of protein and RNA that direct protein synthesis in the cytoplasm
Mitochondria Mitochondria – tiny organelles that transfer energy from organic molecules to ATP ATP powers most cell chemical reactions “powerhouse” of the cell Inner and outer phospholipid membrane Folds in the inner membrane called cristae
Ribosomes Responsible for building protein Made up of protein and RNA molecules Made up of subunits Large subunit Small subunit
Self Quiz What is the role of the nucleus? Why are mitochondria so important? Why is it important for mitochondria to have many folds? What is the structure of a ribosome? What do they do?
Activity Why is your organelle the best? Come up with an argument for why your organelle would be the most important in the cell. What does it do? Why is it important? Could the cell function without it?
Endoplasmic Reticulum (ER) System of membranous tubes and sacs called cisternae Functions as an intercellular highway Allows molecules to move from one part of the cell to another Two types: Rough ER Smooth ER
Rough ER System of interconnected, flattened sacs Covered with ribosomes Produces phospholipids and proteins Ex. Digestive enzymes
Smooth ER Has smooth appearance Lacks ribosomes Builds lipids, such as cholesterol Forms an interconnected network with the rough ER
Golgi Apparatus System of flattened, membranous sacs Vesicles move through the Golgi Vesicle contents is modified Proteins get “address labels” and get directed to other parts of the cell
Vesicles Small, spherically shaped sacs Several types present in the cell Perform various roles Classified by their content
Types of Vesicles Lysosomes Peroxisomes Glyoxysomes Endosomes Food vacuoles Contractile vacuoles
Vesicles Vesicle Type Functions Lysosomes Contain digestive enzymes; break down unused large molecules Peroxisomes Neutralize free radicals; break down toxins in the body and kill bacteria Glyoxysomes Break down stored fats in seeds Endosomes Engulf material to take to the lysosomes to digest Food vacuoles Store nutrients Contractile vacuoles Contract to expel excess water from a cell
Cytoskeleton Network of thin tubes and filaments in cytosol Gives shape to cell Like tent poles Acts as tracks for movement around cell Composed of Microtubules Microfilaments Intermediate filaments
Microtubules Hollow tubes Made of protein called tubulin Radiate out from centrosome Hold organelles in place Maintain cell shape
Microfilaments Long threads of protein called actin Contribute to cell movement Ex. Contraction of muscle cells
Cilia and Flagella Hair-like structures that extend from the surface of the cell Assist in movement Cilia are short and numerous Flagella are longer and less common
Self Quiz What are the different types of vesicles? What do they do? What is the difference between the rough ER and smooth ER? What roles do microtubules and microfilaments play in the cell? What is the role of the Golgi apparatus?
Plant Cells
Plant Cells Plant cells have some structures not found in animal cells Cell wall Central vacuole Plastids
Cell Wall Cell wall – a rigid layer that lies outside the cell membrane Contains cellulose, a carbohydrate Plants have primary and sometimes secondary cell walls
Central Vacuole Central vacuole – a large fluid filled organelle that stores water, enzymes, metabolic wastes, and other materials A large reservoir Can make up 90% of the plant cell’s volume
Plastids Plastids – organelles surrounded by a double membrane Contain their own DNA (like mitochondria) Several types Chloroplasts Chromoplasts Leucoplasts
Chloroplasts Use light energy to make carbohydrates from carbon dioxide and water Contains thylakoids, flattened membranous sacs Thylakoids contain chlorophyll Chlorophyll – absorbs light and captures light energy for the cell
control region
Eukaryotic Cells include Both of which have Nucleus Which have Cell wall