1. Topic 2.1 – Cell Theory & Stem Cells 2.1.1 - 2.1.10 Text pg 7-21

2. What is a cell? The usually microscopic unit from which living things are built A “bag” of gel-like cytoplasm inside a plasma membrane The smallest unit capable of all the functions of life Egg and sperm cells

3. Discovery of Cells Linked to developments in technology like the microscope Sequence of discoveries by different scientists

4. Discovery of Cells 1590 - Jansen invents microscope 1665 - Hooke studies cork and names the structures “cells” 1675 - van Leeuwenhoek discovers unicellular organisms 1838 - Schleiden - plants are made of cells 1839 - Schwann - animals made of cells 1855 - Virchow - all cells come from cells

5. Theory System of ideas used to explain observations Can be modified or replaced with new theory as new evidence is found that supports or rejects original theory

6. Cell Theory: first point Living organisms are composed of cells Evidence: All organisms, no matter their size, are made of one or more cells. Cholera bacteria Elephant cells These cells all have similar chemicals and structures (membrane, ribosomes, etc.)

7. Cell Theory: first point Living organisms are composed of cells Challenges: Are single-celled organisms like bacteria truly cellular? In some fungus and muscles, the cytoplasm is not separated into cells. These “cells” can be very large.

8. Cell theory: second point A single cell is the smallest unit that can carry out all the functions of life Evidence: The cell is smallest unit known to science that can carry out all of the functions of life.

9. Functions of life: Homeostasis – maintaining a balanced internal environment Reproduction – creating genetically related offspring Metabolism – controls the chemical reactions of life Nutrition – acquires the chemical building blocks needed to sustain life Growth – increase in size and mass through nutrition and metabolism Responsiveness – changing actions or behavior due to environmental signals

10. Cell theory: second point A single cell is the smallest unit that can carry out all the functions of life Challenges: Viruses (much smaller than cells) are made of the molecules of life (like RNA or DNA) and are similar to living things, but are non- living.

11. Cell theory: third point Cells are formed only from pre-existing cells Evidence: When no cells are present (like in sterilized soup) no new cells can form.

12. Cell theory: third point Cells are formed only from pre-existing cells Challenges: Where did the first cells come from? In a different environment, like that of the early Earth, it is thought that cells once evolved from non-living cell-like ancestors

14. Unicellular v. Multicellular Unicellular organisms: cells are generalists -- each cell capable of performing every life function. Multicellular organisms: cells are specialists -- each cell is adapted to a specific, specialized function.

15. Differentiation Every cell in a multicellular organism has the same DNA but cells develop in different ways in order to have a specialized function Eg. Muscle cells - single function is to contract

16. Differentiation What do these cells do?

17. Differentiation Once a cell specializes, it has committed and cannot change to another change to another type of cell. All cells have the same genes but different genes are activated (turned on) or inactivated (turned off)

18. Emergent properties When all cells in the multicellular organism work together, new abilities appear These abilities are not found in any of the individual cells or groups of cells Ex. Thinking, seeing

19. Stem Cells Found in embryos Undifferentiated These cells have the ability to differentiate along different pathways into any type of cell Not committed Small # in adult tissues that allow regeneration and repair (heart, brain)

21. Stem Cell Possibilities Potential to cure many diseases –Paralysis from spinal cord injuries –Type I Diabetes –Multiple sclerosis –Parkinson’s diseaseParkinson’s disease Other difficulties –Tissue rejection, cells not accepted –Cells difficult to program to differentiate into the correct type of cell

22. Stem Cell Therapy Leukemia is a cancer of white blood cells (leukocytes) Made in bone marrow and released to bloodstream where they fight off infection. Abnormal leukocytes can be cancerous and must be destroyed through chemotherapy and radiation (destroys normal cells too)

23. Stem Cell Therapy Bone marrow transplant can provide patient with a sample of new bone marrow stem cells If successful, stem cells will differentiate into leukocytes and replace the abnormal cells

24. Ethics pg 19 Most usable stem cells are from embryos Using early-stage embryos sometimes from aborted embryos Harm vs help decrease the suffering of patients Culture, religion Uncontrolled differentiation of cells into tumours

25. TOK Link How do scientists convey information to general public Who makes the decisions? Are they informed? How do we know what we know about stem cells?