1. Draw and write the name of each numbered item:
Bellwork: Nov. 13, 2017
Draw and write the name of each numbered item:
1. _______________ 2. _______________ 3. _______________ 4. _______________ 5. _______________ 6. What phase of mitosis is this cell in?_____________

2. Why do cells divide (“Do mitosis”…)
One-celled organisms:
for reproduction
asexual reproduction (clones)
Multi-celled organisms
for growth and development
from fertilized egg to adult
for repair and replacement
replace cells that die from normal wear
& tear or from injury
amoeba
starfish
Unicellular organisms
Cell division = reproduction
Reproduces entire organism& increase population
Multicellular organisms
Cell division provides for growth & development in a multicellular organism that begins as a fertilized egg
Also use cell division to repair & renew cells that die from normal wear & tear or accidents

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

4. But how did
it all start???

8. But how did the egg cell and the sperm cell end up with half each (23) the normal human number of chromosomes (46) … so you didn’t have too many?

9. 11.4 Meiosis

10. 11-4 Meiosis

11.
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12. meiosis

13. Chromosomes: strands of DNA and protein inside the cell nucleus  are the carriers of genes.
Genes: are located in specific positions on chromosomes.
An organism must inherit a single copy of every gene from each of its “parents.”

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15. So…Gametes are formed by a process that separates the two sets of genes so that each gamete ends up with just one set.
This makes the sperm cell and the egg cell…

16. Gametes when the two sets of genes in an organism are separated into one set.

17. The male gamete in animals is the: Sperm
The male gamete in animals is the: Sperm!!! In higher plants it is: Pollen!!!!

18. The female gamete in animals is the:
Egg or Ova!!!
In higher plants it is:
Seed or ovule!!!!

19. All organisms have different numbers of chromosomes.
Chromosome Number
All organisms have different numbers of chromosomes.
These chromosomes are from a fruit fly. Each of the fruit fly’s body cells has 8 chromosomes.

20. Diploid: cell that contains both sets of homologous chromosomes.
The number of chromosomes in a diploid cell = 2N.
For Drosophila (fruit flies),
the diploid number is 8
Or 2N=8.

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A body cell of a human has 46 chromosomes and are DIPLOID.
2N = 46
COMING UP: Our gametes (egg/sperm) have 23 chromosomes and are HAPLOID
N = 23
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22. All of our body cells are Diploid and have 46 chromosomes in their nuclei:

23. Haploid cells: contain only a single set of chromosomes, and a single set of genes.
Gametes of sexually reproducing organisms are haploid.
Remember: Haploid = Half the chromosome number

24. Haploid cells are represented by the symbol N.
For Drosophila (fruit flies) the haploid number is 4, which can be written as N=4.

25. Our gametes (egg/sperm) have 23 chromosomes and are HAPLOID
REMEMBER: A body cell of a human has 46 chromosomes and are DIPLOID.
2N = 46

26. GAMETES
Think of sperm and eggs as half cells
HALF “PLOID” 23 23

30. A body cell in an adult fruit fly has 8 chromosomes: 4 from the fruit fly's male parent, and 4 from its female parent.

31. These sets of chromosomes are homologous.
Each of the 4 chromosomes that came from the male parent has a corresponding chromosome from the female parent.

34. Meiosis
is a reduction division. The number of chromosomes per cell is cut in half as homologous chromosomes separate from a diploid cell.

35. Meiosis involves 2 divisions, meiosis I (PMAT1) & meiosis II (PMAT2)
By the end of meiosis II, the diploid cell that entered meiosis has become 4 haploid cells.

36. Telophase I and Cytokinesis
Meiosis I
Meiosis I
Interphase I
During meiosis, the number of chromosomes per cell is cut in half through the separation of the homologous chromosomes. The result of meiosis is 4 haploid cells that are genetically different from one another and from the original cell.
Prophase I
Metaphase I
Anaphase I
Telophase I and Cytokinesis

37. Cells undergo a round of DNA replication, forming duplicate chromosomes.
Interphase I
Interphase I - Cells undergo a round of DNA replication, forming duplicate chromosomes.

38. Crossing over: when homologous chromosomes form tetrads and exchange portions of their chromatids in MEIOSIS 1
THIS produces new combinations of alleles – genes which is why we don’t all look alike!!!!!
from mom from dad
from mom from dad
from mom from dad
Crossing-over occurs during meiosis. (1) Homologous chromosomes form a tetrad. (2) Chromatids cross over one another. (3) The crossed sections of the chromatids are exchanged.

39. Tetrad: when chromosomes pair with their homologous chromosome
There are 4 chromatids in a tetrad.
MEIOSIS I
Prophase I
MEIOSIS I Prophase I - Each chromosome pairs with its corresponding homologous chromosome to form a tetrad.

40. Spindle fibers attach to the chromosomes.
MEIOSIS I
Metaphase I
MEIOSIS I Metaphase I - Spindle fibers attach to the chromosomes.
Centrioles

41. MEIOSIS I
Anaphase I
The fibers pull the homologous chromosomes toward opposite ends of the cell.
MEIOSIS I Anaphase I - The fibers pull the homologous chromosomes toward opposite ends of the cell.

42. Nuclear membranes form.
The cell separates into 2 cells with chromosomes and alleles that are different from each other and from the diploid cell that entered meiosis I.
MEIOSIS I Telophase I and Cytokinesis - Nuclear membranes form. The cell separates into two cells.
MEIOSIS I
Telophase I and
Cytokinesis

43. Meiosis II
The 2 cells made by meiosis I enter a 2nd meiotic division.
Unlike meiosis I, neither cell goes through chromosome replication.
Each of the cell’s chromosomes has 2 chromatids.

44. Telophase II and Cytokinesis
Meiosis II
Telophase I and Cytokinesis I
During meiosis, the number of chromosomes per cell is cut in half through the separation of the homologous chromosomes. The result of meiosis is 4 haploid cells that are genetically different from one another and from the original cell.
Meiosis II
Metaphase II
Anaphase II
Prophase II
Telophase II and Cytokinesis

45. Meiosis I results in two haploid (N) daughter cells, each with half the number of chromosomes as the original cell.
MEIOSIS II Prophase II - Meiosis I results in two haploid (N) daughter cells, each with half the number of chromosomes as the original cell.
MEIOSIS II: Prophase II

46. The chromosomes “meet” orline up in the center of cell.
Phases of Meiosis
The chromosomes “meet” orline up in the center of cell.
MEIOSIS II Metaphase II - The chromosomes line up in a similar way to the metaphase state of mitosis.
MEIOSIS II: Metaphase II

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Phases of Meiosis
The sister chromatids separate and move toward opposite ends of the cell.
MEIOSIS II Anaphase II - The sister chromatids separate and move toward opposite ends of the cell.
MEIOSIS II
Anaphase II
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48. Meiosis II results in four haploid (N) daughter cells.
Telophase II and Cytokinesis
MEIOSIS II Telophase II and Cytokinesis - Meiosis II results in four haploid (N) daughter cells.

49. Gamete Formation
In male animals, meiosis results in four equal-sized gametes called sperm.
Meiosis produces four genetically different haploid cells. In males, meiosis results in four equal-sized gametes called sperm.

50. In many female animals, one egg results from meiosis
In many female animals, one egg results from meiosis. The other three cells are tiny polar bodies which basically shrivel up an die
Meiosis produces four genetically different haploid cells. In females, only one large egg cell results from meiosis. The other three cells, called polar bodies, usually are not involved in reproduction.
The egg gets most of the cytoplasm

51. Meiosis produces four genetically different haploid cells.
Comparing Mitosis and Meiosis
Mitosis results in the production of two genetically identical diploid cells.
Meiosis produces four genetically different haploid cells.

52. meiosis=related

53. This starts on page 323
Due MONDAY but start working NOW

54. BELLWORK
Cell are limited in size by ____________ and
______________
_________ cells can become any type of cell
_________________ hold sister chromatids together.
A chromosome consists of 2 identical
sister _____________________

55. 1. Mitosis occurs in what type of cells in our body?
BELLWORK:
1. Mitosis occurs in what type of cells in our body?
______________ cells
2. Meiosis occurs only in our ________________

56. Bellwork: Fri. Nov. 10, 2017
1. Meiosis occurs in _____ cells (__________), produces ___ genetically ____________ cells.
2. Mitosis occurs in _________ cells, produces ___ genetically ____________ cells.

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58. Comparing Mitosis and Meiosis
Cells produced by mitosis have the same number of chromosomes and alleles as the original cell.
Mitosis allows an organism to grow and replace cells.
Some organisms reproduce asexually by mitosis.
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59. Comparing Mitosis and Meiosis
Cells produced by meiosis have half the number of chromosomes as the parent cell.
These cells are genetically different from the diploid cell and from each other.
Meiosis is how sexually-reproducing organisms produce gametes.
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60. Copyright Pearson Prentice Hall
11-4
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61. Copyright Pearson Prentice Hall
11-4
If the body cells of humans contain 46 chromosomes, a single sperm cell should have
46 chromosomes.
23 chromosomes.
92 chromosomes.
between 23 and 46 chromosomes.
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62. Copyright Pearson Prentice Hall
11-4
During meiosis, the number of chromosomes per cell is cut in half through the separation of
daughter cells.
homologous chromosomes.
gametes.
chromatids.
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63. Copyright Pearson Prentice Hall
11-4
The formation of a tetrad occurs during
anaphase I.
metaphase II.
prophase I.
prophase II.
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64. Copyright Pearson Prentice Hall
11-4
In many female animals, meiosis results in the production of
only 1 egg.
1 egg and 3 polar bodies.
4 eggs.
1 egg and 2 polar bodies.
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65. Copyright Pearson Prentice Hall
11-4
Compared to egg cells formed during meiosis, daughter cells formed during mitosis are
genetically different, while eggs are genetically identical.
genetically different, just as egg cells are.
genetically identical, just as egg cells are.
genetically identical, while egg cells are genetically different.
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