Biology is the only subject in which multiplication is the same thing as division …

1. Biology is the only subject in which multiplication is the same thing as division…

2. The Cell Cycle: Cell Growth, Cell Division

3. Where it all began… You started as a cell smaller than a period at the end of a sentence…

4. And now look at you… How did you get from there to here?

5. Getting from there to here… • Going from egg to baby…. the original fertilized egg has to divide… and divide… and divide… and divide…

6. Why do cells divide? • ____________________ • asexual reproduction • one-celled organisms • ____________________ • from fertilized egg to multi-celled organism • ____________________ • replace cells that die from normal wear & tear or from injury amoeba

7. Making new cells • _______________ • chromosomes • DNA • _______________ • centrioles • in animals • microtubule spindle fibers

8. DNA chromosome histone protein nuclear pores nuclear pore nucleolus nuclear envelope Nucleus • Function • _________________ • Structure • _________________ • double membrane • membrane fused in spots to create pores • allows large macromolecules to pass through What kind of molecules need to pass through?

10. Cytoskeleton • Function • _________________ • maintains shape of cell • provides anchorage for organelles • protein fibers • ________________________________________________ • _________________ • cell locomotion • cilia, flagella, etc. • _________________ • organizes structures & activities of cell

11. Cytoskeleton • actin • microtubule • nuclei

12. Centrioles • _________________________ • in animal cells, pair of centriolesorganize microtubules • spindle fibers • guide chromosomes in mitosis

13. End of the Tour

14. Getting the right stuff • What is passed on to daughter cells? • __________________________________ • ___________________ • __________________________________ __________________________________ • ___________________ chromosomes (stained orange)in kangaroo rat epithelial cell notice cytoskeleton fibers

15. I.P.M.A.T. Overview of mitosis interphase prophase (pro-metaphase) cytokinesis metaphase anaphase telophase

16. Interphase • 90% of cell life cycle • cell doing its “everyday job” • produce RNA, synthesize proteins/enzymes • prepares for duplication if triggered I’m working here! Time to divide& multiply!

17. Cell cycle • Cell has a “life cycle” cell is formed from a mitotic division cell grows & matures to divide again cell grows & matures to never divide again G1, S, G2, M liver cells G1G0 epithelial cells,blood cells, stem cells brain / nerve cells muscle cells

18. G0 signal to divide Interphase • Divided into 3 phases: • ____= 1stGap • cell doing its “everyday job” • cell grows • ____= DNA Synthesis • copies chromosomes • ____ = 2ndGap • prepares for division • cell grows (more) • produces organelles,proteins, membranes

19. green = key features Interphase • ____________________ • _________________________________________________________ • Prepares for mitosis • replicates chromosome • DNA & proteins • produces proteins & organelles

20. S phase: Copying / Replicating DNA • Synthesis phase of Interphase • _____________________________ • must separate DNA copies correctly to 2 daughter cells • human cell duplicates ~3 meters DNA • each daughter cell gets complete identical copy • error rate = ~1 per 100 million bases • 3 billion base pairs in mammalian genome • ~30 errors per cell cycle • mutations (to somatic (body) cells)

21. ACTGGTCAGGCAATGTC DNA Organizing DNA • DNA is organized in ________________ • double helix DNA molecule • wrapped around _______________________ • like thread on spools • DNA-protein complex =_______________ • organized into long thin fiber • condensed further during mitosis histones chromatin double stranded chromosome duplicated mitotic chromosome

22. Copying DNA & packaging it… • After DNA duplication, chromatin condenses • coiling & folding to make a smaller package mitotic chromosome DNA chromatin

23. double-strandedmitotic humanchromosomes

24. homologous chromosomes homologous chromosomes sister chromatids Mitotic Chromosome • Duplicated chromosome • 2 ___________________ • narrow at ____________ • contain identical copies of original DNA single-stranded homologous = “same information” double-stranded

25. Mitosis • Dividing cell’s DNA between 2 daughter nuclei • “dance of the chromosomes” • 4 phases • _____________ • _____________ • _____________ • _____________

26. green = key features Prophase • Chromatin condenses • _________________________ • chromatids • Centrioles move to opposite poles of cell • animal cell • Protein fibers cross cell to form mitotic spindle • microtubules • actin, myosin • coordinates movement of chromosomes • ___________________________ • ___________________________

27. green = key features Transition to Metaphase • Prometaphase • ____________________________________________ • creating kinetochores • microtubules attach at kinetochores • connect centromeres to centrioles • ____________________________________________

28. green = key features Metaphase • ____________________________________________ • _____________________ • meta = middle • spindle fibers coordinate movement • helps to ensure chromosomes separate properly • so each new nucleus receives only 1 copy of each chromosome

30. green = key features Anaphase • ____________________________________________________ • move to opposite poles • pulled at centromeres • pulled by motor proteins “walking”along microtubules • actin, myosin • increased production of ATP by mitochondria • Poles move farther apart • polar microtubules lengthen

31. Separation of chromatids • In anaphase, proteins holding together sister chromatids are inactivated • separate to become individual chromosomes 1 chromosome 2 chromatids 1 chromosome 2 chromatids double-stranded double-stranded

32. Chromosome movement • Kinetochores use motor proteins that “walk” chromosome along attached microtubule • microtubule shortens by dismantling at kinetochore (chromosome) end

33. green = key features Telophase • Chromosomes arrive at opposite poles • ____________________ • nucleoli form • ____________________ • no longer visible under light microscope • Spindle fibers disperse • ____________________ • cell division

34. Cytokinesis • Animals • constriction belt of actin microfilaments around equator of cell • cleavage furrow forms • splits cell in two • like tightening a draw string

35. Cytokinesis in Animals (play Cells Alive movies here) (play Thinkwell movies here)

36. Mitosis in whitefish blastula

37. Mitosis in animal cells

38. Cytokinesis in Plants • Plants • __________________ • vesicles line up at equator • derived from Golgi • vesicles fuse to form 2 cell membranes • new cell wall laid down between membranes • new cell wall fuses with existing cell wall

39. Cytokinesis in plant cell

40. Mitosis in plant cell

41. onion root tip

42. Origin of replication chromosome: double-stranded DNA replication of DNA elongation of cell ring of proteins cell pinches in two Evolution of mitosis • Mitosis in eukaryotes likely evolved from binary fission in bacteria • single circular chromosome • no membrane-bound organelles

43. prokaryotes (bacteria) Evolution of mitosis • A possible progression of mechanisms intermediate between binary fission & mitosis seen in modern organisms protistsdinoflagellates protistsdiatoms eukaryotes yeast eukaryotes animals

44. Dinoflagellates • algae • “red tide” • bioluminescence

45. Diatoms • microscopic algae • marine • freshwater

46. Any Questions??