1. CELL DISCOVE RY AND THEORY 7.1

2. History of the Cell Theory  1665: Robert Hooke discovered cellulae using a microscope and cork  Cell: basic structural and functional unit of all living things

3. The Cell Theory  fundamental idea of modern biology  Consists of 3 principles:  All living organisms composed of 1+ cells  Cells are basic unit of structure/organization of all living organisms  Cells arise only from previously existing cells, with cells passing copies of their genetic material on to their daughter cells

4. As magnification and resolution increases, so do the details we can see! Microscope Technology

5. Compound Light Microscopes  Made of several glass lenses and uses visible light to magnify images  Each lens magnifies image of previous lens (ex. 10 x 10 = 100x)  Dyes used to see the cells better

6.  Limitations: objects cause light to scatter, blurring images  Max magnification without blurring is ~1000x

8. Electron Microscopes  Developed during 1940s  Uses magnets to aim a beam of electrons at thin slices of cells  SEM, TEM, STM

9. Transmission Electron Microscope (TEM)  electrons passed through a specimen to a fluorescent screen  thick parts of specimen absorb more electrons, creating shaded image *Shows internal details (more like an xray)

10.  can magnify up to 500,000x but specimen must be dead, sliced very thin, and stained with heavy metals

11. Scanning Electron Microscope (SEM)  Sends electrons over specimen’s surface, creating a 3D image  Disadvantages: TEM and SEM only used for non-living cells/tissues

13. Scanning Tunneling Electron Microscope (STM)  Charged tip of probe brought to specimen so that electron “tunnel” through small gap between them  Allows scientists to create 3D models of objects as small as atoms  Advantage: Can be used with live specimens

16. Atomic Force Microscope (AFM)  Measures forces between tip of probe and cell surface Image is a scan of a crystal of satellite tobacco mosaic virus particles

17. Basic Cell Types  Cells have different shapes/sizes and differ based on function  All cells have a plasma membrane!  special boundary that helps control what enters/exits the cell  All cells have some functions in common  Most have genetic material that provides instructions for making substances that the cell needs

18.  2 main groups: eukaryotic and prokaryotic  Eukaryotic cells are ~100x larger than prokaryotic  Organelles: specialized structures that carry out specific functions  Bound by membranes  Allow functions to occur in different places at the same time  Nucleus: a central organelle that contains cells genetic material (DNA)

19.  Eukaryotic cells believed to have evolved from prokaryotic cells PROKARYOTIC CELLSEUKARYOTIC CELLS Plasma membrane No organellesHas organelles Organisms  prokaryotesOrganisms  eukaryotes Make up most unicellular organisms (bacteria) Make up most organisms and some unicellular organisms (algae and yeast)

20. Cell Size Cells are TINY! Some are as small as 1/1000 th of a millimeter. Small cells have more surface area per volume  More surface area makes it easier to move material in/out of the cell Large cells have less surface area per volume  Requires more nutrients, produces more wastes CONCLUSION: Cells need a certain surface area to properly function (exchange materials). Surface area to volume considerations are the reason why cells stay small!