Biology Unit 4: Cell Structure & Function Plant Cell Animal Cell *This presentation contains copyrighted material.
Discovery of Cells 1600’s Robert Hooke 1820’s: Rene Dutrochet 1830’s: Robert Brown Matthias Schleiden Theodore Schwann Rudulph Virchow Discovery of light microscope Named box-like structures in cork “cells” Cells are found in various parts of organisms All cells have a nucleus All plants are composed of cells All animals are composed of cells All cells come from living cells
Cell Theory Three parts: All living things are made of cells The cell is the basic unit of structure and function in living things All cells come from existing cells
Unicellular Organisms Cell is the organism In terms of numbers > dominate life on Earth Chlamydomonas Euglena Yeast Volvox aureus
Multicellular Organisms Made up of many cells Great variety of organisms All depend on specialized cells Cells develop in different ways to perform different tasks Ex: Red blood cells transport oxygen throughout body Red blood cells
Multicellular Organisms (cont.) Levels of organization Cell - Ex: muscle cell Tissue - group of similar cells perform a particular function Ex: muscle tissue Organ - group of tissues that work together Ex: stomach Organ system - group of organs that work together to perform specific function Ex: digestive system
Muscle cell Smooth muscle tissue Digestive System Stomach
Types of Cells Eukaryotic Prokaryotic Genetic material contained in nucleus Plants, animals, fungi and protists Prokaryotic Genetic material NOT contained in nucleus (*No nucleus*) Bacteria
The Eukaryotic Cell
Cell Structure Like a factory Two major parts: cytoplasm & nucleus Organelles (“little organs”) Act like specialized organs Some structures developed from early prokaryotes Ex: mitochondria & chloroplasts
Cytoplasm Gelatin-like material inside the cell membrane, outside the nucleus Contains organelles Site of most cell activity Factory floor where products are assembled, finished & shipped
Nucleus Nucleus Control center of the cell > boss or CEO Responsible for overall function of factory Determines what proteins will be made Contains hereditary information > DNA
Nucleolus Nucleolus Small, dense region of nucleus Assembly of ribosomes begins here
Nuclear Envelope Nuclear envelope Membrane around nucleus only Has small pores that allow information and ribosomes to move in and out of nucleus Nuclear envelope
Ribosomes Responsible for assembling proteins Workers on assembly line in factory Responds to orders from boss > nucleus Located throughout cytoplasm
Endoplasmic Reticulum Site where lipid components of cell membrane are assembled Also assembles proteins exported from cell Assembly line in factory Two types: Rough ER - appears bumpy due to ribosomes on surface Smooth ER - No ribosomes
Endoplasmic Reticulum
Golgi Apparatus Prepares proteins and other materials for storage or use outside cell Like finishing & packing department in factory Finishing touches put on before ready to leave factory Sorted & stored or shipped outside of cell
Lysosomes Small organelles filled with enzymes Maintenance crew for factory Break down carbs, lipids & proteins for use by cell Remove “junk” - waste and dead material found in cell
Vacuoles Saclike structures that store nutrients water, salts, proteins & carbs Storage rooms of factory
Mitochondria Convert nutrients in food into energy for cell use Local power plant for factory Source of energy
Chloroplasts Capture energy from sunlight and convert it into chemical energy > photosynthesis Solar power source for factory Only in plant cells Chlorophyll > chemical that causes plant cells to be green
Cytoskeleton Network of protein fibers that helps cell maintain its shape Microtubules and microfilaments Support structure of factory (beams & columns that support walls & roof) Also used to move cell membrane
Cell Membrane Phospholipid bilayer Regulates what enters & leaves the cell Like gate into the factory Provides protection & support Gives the cell its shape
Present in plants, algae, fungi and many prokaryotes Cell Wall Outside cell membrane Provides protection & support Present in plants, algae, fungi and many prokaryotes Never in animal cells Plant Cell
Cell Wall (algae)
Cell Wall (bacteria > prokaryote)
Movement Across Cell Boundaries
Diffusion Molecules spread into available space across membrane from area of higher concentration to area of lower concentration without use of energy > passive transport Equilibrium - when concentration is same throughout a system
http://highered. mcgraw-hill http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_diffusion_works.html
Osmosis Diffusion of water through a selectively permeable membrane Membrane allows only certain substances to pass through Type of diffusion - does not require use of energy > passive transport
How Osmosis Works Isotonic - “same strength” Same concentration on both sides Hypertonic - “above strength” Higher concentration outside cell Water leaves, cells shrink Hypotonic - “below strength” Lower concentration outside cell Water comes in, cells swell http://www.tvdsb.on.ca/westmin/science/sbi3a1/Cells/Osmosis.htm
http://highered. mcgraw-hill http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_osmosis_works.html
Facilitated Diffusion Movement of specific molecules across membranes through transport proteins Could not cross without them Does not require use of energy > passive transport
http://highered. mcgraw-hill http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_facilitated_diffusion_works.html
Active Transport Cells move materials in direction opposite diffusion Against concentration difference (gradient) Requires energy Small molecules or ions (K, Ca, Na) carried by transport proteins or “pumps” in membrane
Active Transport (cont.) Larger molecules & clumps of material transported by: Endocytosis - movement of materials into cell through vesicles (pockets) of cell membrane Phagocytosis- “cell eating” Pinocytosis- “cell drinking” Exocytosis - movement of materials out of cell through vesicles
IV. Homeostasis The Cell as an Organism Unicellular organism- organism made up of only one cell Examples: Bacteria Yeast protists- amoeba, diatoms, plasmodium b. Exhibit all 8 features of living things
c. All organisms must maintain homeostasis Defined- relatively constant internal; physical and chemical conditions
B. Multicellular Life 1. Cells in multicellular organisms do not live on their own 2. They are interdependent- need to work together
3. Need to communicate- send and receive signals with each other
4. Cell specialization- different types of cells play different roles Some move- throat lining cells Some react- nerve cells Some produce substances- glandular cells
5. Levels of Organization cells --> tissues --> organs --> organ systems --> organisms a. Tissue – is a group of similar cells that work together to perform a function.
Examples of Tissues Nerve Tissue Nerve Cell
b. Organ – is a group of tissues that work together to do a job.
c. Organ system- is a group of organs that work together to do a certain job.
Examples of organisms Crow Human Amoeba Elephant Bonobo d. Organism – is a living thing that can be made of one or more cells. Crow Human Amoeba Elephant Bonobo
6. Cellular Communication Cells in large organisms communicate by means of chemical signals The signals can either speed up or slow down an activity of the cells that are receiving them Cellular junctions- hold cells together in tight formations that allow for quick signaling Ex: neuromuscular junction
d. Receptor- can be found on or in a cell; a specific protein whose shape fits that of a molecular messenger Ex: Hormones Thyroid Hormone Receptor Thyroid gland is controlled chemically by the pituitary- function: metabolism
Careers that study cells and/or tissues Histologist- tissues/cells Pathologist- infected tissues/cells Oncologist- cancer cells Embryologist- examines infertility Geneticist Veterinarian