1. Introduction to the Cell Cycle

2. Why do cells need to divide?
As cells grow larger, they start to face several difficulties in functioning:
Growth & Repair
In order for multi-cellular organisms to grow, cells must divide. If cells are lost due to injury or damage to DNA, new cells must replace old cells.
Information Overload
The larger a cell becomes, the more demands the cell places on its DNA.
There needs to be enough DNA to support the protein needs of the cell.
Exchanging Materials
The rate of diffusion is slower in larger cells and faster in smaller cells/
A larger cell is less efficient in moving nutrients
and waste materials across the cell membrane.

3. Surface Area to Volume Ratio
The volume of the cell increases faster than the surface area of the cell membrane!!
Volume = content inside the cell
Surface Area = Amount of Cell Membrane
Small cells have a LARGER surface area : volume ratio!
More cell membrane = faster exchanging of materials

4. Cell Division
The process by which a cell divides into two new “daughter” cells.
DNA replication takes place before the cell divides
Creates two identical copies of DNA (genetic information)
Each daughter cell gets one complete copy of genetic information
Results in the an increase in the surface area:volume ratio for each daughter cell

5. Asexual Reproduction Unicellular Organisms Multicellular Organisms
The production of genetically identical offspring from a single parent.
Primary form of reproduction in single-celled organisms such as Bacteria & Protists.
Unicellular Organisms
Bacteria using cell division to reproduce is called Binary Fission.
Multicellular Organisms
Budding - a new organism develops from an outgrowth or bud on another one due to cell division at one particular site. The new organism remains attached as it grows, separating from the parent organism only when it is mature.

6. Asexual Reproduction Advantages Disadvantages
Do not need a partner to reproduce
Can reproduce quickly and easily
Produce genetically identical offspring
Could result in death of a population if there is a change in the environment that is not favorable to the characteristics of that organism.

7. Sexual Reproduction
Offspring produced by sexual reproduction inherit some of their genetic information from each parent.
Offspring are produced by the fusion of reproductive cells form by each of the two parents.
Most animals and plants produce sexually, as well as some single-celled organisms.

8. Sexual Reproduction Advantages Disadvantages
Creates genetic diversity in a population
If the environment changes, some offspring may have the right combination of characteristics to survive
Invest more time, energy, and resources
Need to find a mate
Growth, development, and caring for offspring

10. What is a chromosome? DNA is packaged into chromosomes.
Chromosomes are threadlike structures of DNA wrapped around proteins.
CHROMOSOME
CHROMATIN – DNA tightly coiled around histone proteins

11. Eukaryotic Chromosome Structure
Chromosomes are only visible when a cell is dividing so we usually see them in their double-stranded form.

12. Eukaryotic Chromosome Structure
(part of chromosome where the two chromatids attach)
The halves of a double-stranded chromosome ( sister chromatids) are identical to each other because the DNA (original chromosome) replicated before cell division.

13. Why are chromosomes important in cell division?
Chromosomes make it possible to separate DNA precisely.
Each new cell will get the exact same DNA as the cell it came from.
DNA Replication takes place before cell division!

14. Prokaryotic Chromosome Structure
Where is the nucleus?
THERE IS NO NUCLEUS! IT’S A PROKARYOTIC CELL! ONLY EUKARYOTIC CELLS HAVE A NUCLEUS!

15. Types of Cells
There are two types of human cells: somatic cells and gametes.
Somatic Cells = body cells (brain, muscle, heart, liver, skin, etc)
Contain 46 chromosomes in humans
Diploid (2n)= cell that contains two sets of homologous chromosomes
Gametes = sex cells (sperm or egg)
Contain 23 chromosomes in humans
Haploid (n)= cell that contains one set of chromosomes

16. Fertilization
When sperm meets egg a zygote is formed. A zygote is the first cell of the embryo. Which of the cells above are haploid (n)? Diploid (2n)?

17. Homologous Chromosomes
Chromosomes containing the same type of genetic information
one comes from male parent, one comes from female parent
DAD
MOM

18. Homologous Chromosomes

19. What is the diploid number of chromosomes in humans?46
How many pairs of homologous chromosomes do humans have? 23

20. The chromosomes diagrammed below are arranged in a karyotype, the 46 chromosomes have been arranged in homologous pairs.

21. The first 22 pairs of homologous chromosomes are called autosomes or autosomal chromosomes.
The 23rd pair of chromosomes determines the sex of the individual and are called
sex chromosomes.
The sex chromosomes of a female are XX.
The sex chromosomes of a male are XY.

22. What’s the difference?

23. Which of the following is an example of a haploid cell?
Stomach cell
Brain cell
Sperm Cell
Skin cell
0 of 28 1

24. How many chromosomes are in your body cells?23 32 64 46
0 of 29 1

25. Your body cells have how many pairs of homologous chromosomes?2

26. This is a picture of a Single chromosome Chromatin
Duplicated chromosome
Cell
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27. _________ are located on chromosomes.
Cells
Karyotypes
Genes
Eggs
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28. Human somatic cells contain _____ pair(s) of autosomes.22 1 23 46 19

29. Somatic cells contain _____ pair(s) of autosomes.22 1 23 46
Countdown 10

30. Gametes are _________, meaning they contain one set of chromosomes.
Diploid
Haploid
Triploid
Monoploid 14

31. If an organism contains 14 chromosomes in each somatic cell, then its gametes each contain ____ chromosomes. 7 14 21 28 28