1. Warm up List two things that you know about a cell. List three parts that all cells have in common. Use your notes from Tuesday & Wednesday

2. 4-1 NOTES: HISTORY OF CELL BIOLOGY

3. Cells Smallest unit that can perform life processes Random Facts Average human is composed of 100 trillion cells It would take 50 cells to cover the dot of an “i” on your paper

4. Who discovered cells?

5. 1. Hook, 1665 Discovered cells while looking at cork (plant cells) Described them as tiny boxes or rooms “cell” means little rooms in Latin Thought cells only existed in plants and fungi

6. 2. Leuwenhoek, 1673 Observed pond scum & found single-celled organisms One of the first to look at living cells He called them “animalcules”

7. 150-200 Year Gap??? Between the Hooke/Leuwenhoek discoveries and the mid 19 th century, very little cell advancements were made. This is probably due to the widely accepted, traditional belief in Spontaneous Generation. Examples: -Mice from dirty clothes/corn husks -Maggots from rotting meat

8. 19 th Century Advancement Much doubt existed around Spontaneous Generation Conclusively disproved by Louis Pasteur

9. 3. Schleiden, 1838 German botanist Stated that all plants are made up of cells

10. 4. Schwann, 1839 German Physiologist Stated that all animals are made up of cells

11. 5. Virchow, 1858 – German Physician – Studied cellular pathology – Concluded that cells must come from existing cells

12. Cell Theory 1. All living things are made up of one or more cells (Schleiden & Schwann 1838-39)

13. 2. Cells are the basic units of structure and function in living things. (Schleiden & Schwann 1838-39) Cell Theory

14. 3. All cells are produced by the division of existing cells. Virchow (1858) Cell Theory

15. Cell Types and Common Parts

16. Warm up A. What are the three parts to cell theory? 1.. 2.. 3.. B. Did the following Scientist look at living or dead cells? Animal or Plant Cells? 1. Hooke 2. Leuwenhoek 3. Schleiden

17. Griffin Virtual Lab with Mr. Lee Live Linkhttps://losal.adobeconnect.com/lee, Saturday October 17, 1pm-2pmhttps://losal.adobeconnect.com/lee Recording: https://goo.gl/nYfL5Ahttps://goo.gl/nYfL5A Join Mr. Lee's Griffin Virtual Lab Remind by texting the phrase @biogvl to the number 81010 Griffin Lab in the Media Center Mrs. Gur will be in the Media center Thursdays 2:30-4pm

18. What differences do you notice?

20. ProkaryoteEukaryote

21. Type of Cells Prokaryotic: lack membrane-bound organelles Unicellular Simple Capsule, cell wall, cell membrane Nucleoid (DNA) Cytoplasm Ribosomes Cilia, flagella Oldest living cells Ex: bacteria Type of Cells

22. Prokaryotic

23. Type of Cells Eukaryotic: contain a membrane-bound nucleus and organelles Unicellular and multicellular More complex a. Ex: Plant and animal cells Type of Cells

24. All Cells have the following in Common 1. Plasma Membrane Acts as a barrier to the outside world Semi-permeable: Allows only certain materials to leave and enter

25. 2. Cytoplasm Gel like substance Fills space between nucleus and organelles Most reactions happen here 3. DNA Control Center Regulates cells function 4. Ribosomes Used in DNA Synthesis All Cells have the following in Common

26. Organelles Cell Membrane (Plasma Membrane) Made of phospholipids The phospholipids form a bilayer creating a nonpolar center and a polar out and inner surface Controls what gets in and what gets out of the cell Proteins in the Cell Membrane Integral proteins – proteins inside the membrane, either on one side, inside, or all the way through. Peripheral proteins – proteins found on just one side of the membrane The proteins receive messages, send signals across the membrane, help with transport, etc

27. Organelles, Cont. Nucleus Protects the cell’s genetic information Chromatin: the form of DNA that is actively used when a cell is not dividing Chromosome: the condensed form of DNA where it is wrapped up tightly with proteins during cell division Ribosomes Organelles made of protein and RNA that direct protein synthesis in the cytoplasm Found in the Cytoplasm, Nucleus and on the Rough Endoplasmic Reticulum.

28. Organelles, Cont. Endoplasmic Reticulum System of membrane tubes and sacs that transport materials around the cell and help synthesize some substances. Rough ER: covered in ribosomes, and produces phospholipids and proteins Smooth ER: lacks ribosomes, and produces lipids like cholesterol and steroids Golgi Apparatus Flattened membrane sacs that receive vesicles from the ER and retag the vesicles for delivery in or out of the cell

29. Organelles, Cont. Vesicles Membrane sacs that store or transport different substances Lysosome: vesicles that contain digestive enzymes that clean, digest food and sometimes break down old cells or organelles There are other kinds of Vesicles including storage and peroxisomes

30. Organelles, Cont. Mitochondria Converts energy from being stored in organic macromolecules to a usable chemical energy currency, ATP ATP: Adenosine Triphosphate, the chemical used by cells as an energy source for reactions and work Mitochondria have a double membrane and their own DNA. This allows Mitochondria to replicate on their own as needed.

31. Organelles, Cont. Cytoskeleton A network of microtubules and micro filaments that give the cell support and shape. It also acts as a series of tracts for organelles to travel on around the cell. Also, assist in cell division and help with cell movement. The filaments and tubules are made out of proteins. Cilia: short hair like structures that line the outside of some cells. Used for movement and manipulating things outside the cell. Flagella: Long whip like structures on the outside of some cells that propel the cell in one direction.

32. Plant Cells Plants are eukaryotes but have 3 unique differences. Photosynthesis vs. Respiration: Many students think that plants undergo only photosynthesis to make food, and animal cells use the food for energy. However: -plant cells undergo cellular respiration also -They use food made during photosynthesis -Lucky for us, plants make more food than they use

33. Plant Cells: Cell Wall Cell Wall The cell wall is made from the carbohydrate cellulose. It is rigid and gives the plant strength. Pores in the cell wall: Small holes allow some things to move through. Water, ions and some molecules (those small enough) may pass through

34. Plant Cells: Central Vacuole Central Vacuole Stores lots of water, enzymes, metabolic wastes and other materials. Vacuoles may make up as much as 90% of the cell. Toxic or Pigment Vacuoles: Some plants like Tobacco store toxic chemicals (like nicotine) in their vacuole to discourage predators Some plants store color pigments (like the color of a rose petal)

35. Plant Cells: Plastids Plastids Organelles similar to Mitochondria because they have a double membrane and their own DNA. Example: Chloroplast and Chromoplast. Chloroplasts: Organelle responsible for photosynthesis Contain pigments that absorb light energy Reproduce on their own just like Mitochondria

36. Cells are often found in groups functioning together.