The Cell Theory – a timeline Late 1500’s: -first lenses used in Europe -used to determine cloth quality (weave and precision) -combos of lenses gave better view Early 1600’s: Leeuwenhoek uses microscope to study nature
Early 1600’s Early 1600’s Leeuwenhoek first to view pond water organisms First to see living microscopic orgs Made careful sketches
Robert Hooke ( 1665) Used light microscope to look at thin slices of plant tissues -- cork Looked empty, like monk’s chamber Called tiny chambers “cells”
Matthias Schleiden 1838 German Botanist (plants) All plants looked at were made of cells, so concluded: “All plants are made of cells.”
Theodore Schwann -- 1839 German scientist who studied animals -- zoologist Saw that all animals he studied were cellular so concluded: “All animals are made of cells.”
Rudolf Virchow -- 1855 German physician who studied cell reproduction “Where a cell exists, there must have been a preexisting cell…..”
The Cell Theory All living things are composed of cells Cells are the basic units of structure and function in living things New cells are produced from existing cells
Construct a timeline: Include years 1500s, early 1600s, 1665, 1838, 1839, and 1855 on your timeline. Indicate the events and scientists responsible for the events occurring each year. (for 1500s, 1600s, and late1600s you may not be able to indicate a scientists)
For each statement on your CELL THEORY worksheet give the name of the scientist(s) responsible for the statement For statements three and four multiple scientists are responsible.
Prokaryotes vs. Eukaryotes Prokaryotes: *NO NUCLEUS *Small and Simple – few organelles *Have cell membranes and cytoplasm Ex. Bacteria Eukaryotes: *Contain nuclei *Contains organelles that perform specialized functions *Uni-or multicellular
Figure 7.4 A prokaryotic cell
Basic Cell Structures Cell membrane – thin, flexible barrier around cell Nucleus – large, centralized structure that contains genetic material and controls cellular activities Cytoplasm – material inside membrane (but not inside the nucleus) that supports the internal cell shape and organelles
Basic cell parts: cell membrane and cytoplasm *provides barrier between internal and external environment of cell *is semi-permeable (some things can go in, some cannot; some things can exit, some never can) *made up of phospholipid bilayer with proteins embedded that allow for needed passage of large molecules
Major job of cell membrane is to maintain the cell’s environment – establish homeostasis
Fluid Mosaic Model Phospholipids and embedded proteins are not locked into position – they flow against one another as the cytoplasm and the external liquid environment dictate (so, is fluid) There are MANY different components of the cell membrane – it is a mosaic of many parts
Figure 8.6 The detailed structure of an animal cell’s plasma membrane, in cross section
Nucleus Largest organelle Enclosed by nuclear envelope or membrane, which is a double membrane – each of which is a lipid bilayer!!! Nuclear membrane has pores in it Contains inactive DNA – chromatin When gets ready to divide, chromatin condenses into chromosomes Directs protein synthesis by synthesizing mRNA and sending to ribosomes in the cytoplasm
Nucleus Contains the genetic information that is the code for controlling ALL of the cells activities
Cytoplasm Entire region between the nucleus and the cell membrane The semifluid substance that fills this area is called CYTOSOL, and this is what the organelles are held in place with.
Cell Wall Protects the cell Gives support to cell Found in plant cells (another barrier in ADDITION to the cell membrane) Protects the cell Gives support to cell Made of polysaccharide called cellulose Is very porous and allows molecules to pass through, but is NOT SELECTIVELY PERMEABLE
Organelles Protection Control: Assembly, Transport, and Storage: *Nucleus (plant and animal) Assembly, Transport, and Storage: *Endoplasmic reticulum (plant and animal) *Ribosomes (plant and animal) *Golgi apparatus (plant and animal) *Vacuoles (plant and animal) *Lysosomes (plant and animal) Energy transformations: *Chloroplasts (plant only) *Mitochondria (plant and animal) Protection Cell Wall (Plant only) Cell Membrane (Plant and animal)
Endoplasmic reticulum – “highway system” EXTENSIVE – accounts for more than half the total membrane system in eukaryotic cells Name means “little net within the cytoplasm” Smooth and rough e.r. are actually connected, not distinct, separate sections Job is to transport materials quickly from one place to another in cell
Figure 7.11 Endoplasmic reticulum (ER)
Smooth E.R. NO ATTACHED RIBOSOMES Functions in making lipids, metabolism of carbohydrates, detoxification of drugs and poisons
Rough E.R. ATTACHED RIBOSOMES Makes secretory proteins (ex. Insulin made by pancreatic cells) Most are glycoproteins (proteins covalently bound to carbs) Rough e.r. is also a membrane factory – grows by adding proteins and phospholipids; parts can be taken from here and added to other membrane systems using the vesicles for transport
Ribosomes “protein factories” Sites of protein synthesis Are made of rRNA and protein Cells with high rates of protein synthesis have MANY ribosomes (human pancreas cell has MILLIONS of ribosomes) Are “free” ribosomes in cytosol that make proteins for the cell that they are INSIDE of Ribosomes that are attached to endoplasmic reticulum (bound) are making proteins for packaging and export OUTSIDE OF CELL
Figure 7.10 Ribosomes
Golgi apparatus “Gift wrapper/UPS system” Finishes, sorts, ships cell products Golgi will modify products as needed – gives more variety by removing some monomers and substituting others
Figure 7.12 The Golgi apparatus
Vacuoles “Bank Vaults” or “trash cans” Sites of storage in cells *good things stored – water, minerals, food etc. *bad things stored – broken down cell parts, waste
Lysosomes Membrane-bounded sac of digestive enzymes Different lysosomes break down each of the major classes of macromolecules – proteins, polysaccharides, fats, nucleic acids Work best at pH of 5 Used in autophagy – recycle the cell’s own organic material for use
Mitochondria and Chloroplasts “powerhouses” Mitochondria – carry on cellular respiration – sites of energy production in cell (glucose broken down to produce ATP) Chloroplasts (only in plants) – carry on photosynthesis – sites where sunlight, CO2 and water are converted into glucose
Figure 7.17 The mitochondrion, site of cellular respiration
Figure 7.18 The chloroplast, site of photosynthesis
Cytoskeleton “hay in mud makes bricks” Network of fibers extending into cytoplasm of cell Provides structural support, and aids in cell motility and cell regulation Made up of microtubules (thickest), microtubules (thinnest), and intermediate filaments
Cilia and Flagella “hairs and tails” Cilia are short projections from cell body – hair-like flagella are much longer – whip-like Movement may not be for entire organism; may be part of a larger unit – ex. Cilia lining windpipe propel foreign substances out…
Organelles do not work alone… Cell is a dynamic interaction of ALL of its parts – literally, the basic unit of life….