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What is a chromosome?

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Title: What is a chromosome? Author: Sarah Allen Peddie Last modified by: cesark Created Date: 10/13/1999 6:45:28 PM Document presentation format – PowerPoint PPT presentation

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Title: What is a chromosome?


1
Standard 2 Cell Division
Chromosomes Boogie
2
Chromosome
  • Condensed form of chromatin
  • A threadlike structure of nucleic acids and
    protein
  • Always paired with an identical copy of itself

3
CHROMATID
SISTER CHROMATIDS
4
Chromosome
5
Types of Chromosomes
  • Autosomes
  • The 1st 22 pairs of chromosomes in humans.
  • Sex Chromosomes
  • 23rd pair
  • In females, the sex chromosomes are the 2 X
    chromosomes.
  • Males have one X chromosome and one Y
    chromosome.
  • The Y chromosome is what makes a baby boy.

6
Types of Cell Division
  • Asexual Offspring are identical to parents
  • Examples
  • Budding yeast
  • Binary Fission bacteria
  • Sexual Offspring have a combination of genetic
    information from 2 parents
  • (sperm and egg)
  • Examples Animals and plants

7
Numbers of Chromosomes
  • Haploid Cells with 1 set of genetic info
  • Ex sperm and eggs
  • Diploid Cells with 2 full sets of genetic info
  • Ex body cells

Two Haploid cells unite to make Diploid
Cells Aka Zygote
8
Why do cells divide?
  • Growth
  • Reproduction (Development)
  • Repair or Replace

9
What Happens in Cell Division
  • Replicates the DNA exactly.
  • Movement of the two copies of DNA to opposite
    ends of the cell.
  • Separates into two daughter cells.

10
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11
Cell Cycle
  • Interphase
  • The phases that prepares cells for Mitosis
  • Chromosomes appear as threadlike coils
    (chromatin)
  • 90 of cell cycle
  • Three phases
  • G1- Growth
  • S- DNA Replication
  • G2- Growth (prepares to divide)

12
Mitosis
  • 1 cell becomes 2 cells
  • both new cells are identical to the original
  • (all cells except sperm eggs do this)

13
Mitosis
  • Cell division occurs in a series of 4 stages, or
    phases.
  • Stages
  • Prophase
  • Metaphase
  • Anaphase
  • Telophase

PMAT
14
Prophase
"BEFORE/ PAIR"
  • Mitosis begins (cell begins to divide)
  • You can see chromosomes start to form

Late
Early
15
Metaphase
"MIDDLE"
  • Chromosomes line up in the center of the cell

16
Anaphase
"AWAY/ ANTI"
  • Chromatids or chromosomes separate and begin to
    move to opposite ends of the cell

17
Telophase
"TWO"
  • Two new nuclei form
  • Chromosomes appear as chromatin Mitosis ends

18
Cytokinesis
"Split"
  • Become two identical new cells
  • Half the size of the original

19
http//www.youtube.com/watch?vCrTpRILtVYcfeature
related
20
What Stages of Mitosis can you find?
21
Meiosis
  • 1 cell becomes 4 cells called gametes
  • Male gametes Sperm
  • Female gametes Eggs

22
The Difference?
  • Meiosis is Mitosis twice
  • without
  • Interphase in between
  • Mitosis is in my toes, but
  • Meiosis is in my ovaries

23
Why Meiosis?
  • Fertilization
  • Union of haploid sperm and egg (n)
  • Diploid Zygote is formed (2n)
  • The chromosome number is reduced, so at
    fertilization there is the correct of
    chromosomes.

24
Why Meiosis?
  • Cuts chromosome number in half by separating
    homologous chromosomes
  • Homologous Chromosomes occur in pairs and have
    the same genetic information, one inherited from
    mom and one from dad.
  • Creates variation for Evolution
  • Makes offspring unique

25
Meiosis creates variation in 3 ways
  • 1) Law of Segregation
  • chromosome pairs separate during meiosis
  • 2) Law of independent assortment genes are
    separated randomly (shuffle)
  • 3) Crossing Over
  • chromosome parts break off reattach to other
    chromosomes creates new chromosome

26
Crossing Over
27
Mitosis vs. Meiosis
  • Mitosis Creates Diploid Cells (2N)
  • Cells with 2 full sets of genetic info
  • Human body cells have 46 chromosomes each
    (diploid or 2N is 46)
  • Happens in Somatic Cells (body cells) and make up
    the entire organism expect the sperm and eggs
  • Meiosis Creates Haploid Cells (N)
  • Cells with 1 set of genetic info
  • Human sperm eggs have 23 chromosomes (haploid
    or N is 23)

28
MITOSIS
MEIOSIS
29
Meiosis(Go back to Table)
  • Interphase (approx 90 of time)
  • DNA Replication
  • Prophase 1 Tetrad (chromosome pair) forms
  • Crossing over occurs
  • Metaphase 1
  • Chromosomes move to midline
  • Anaphase 1
  • Homologous chromosomes separate
  • Anaphase 2
  • Sister chromatids separate
  • The Rest is Just Like Mitosis

30
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31
The Differences
Mitosis Meiosis
1 cell becomes 2 4
Cell Types In my__________ In my__________
Haploid or Diploid
Why/Importance
Phases PMAT
Diagram
32
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33
Chromosomes
  • How do we look at the chromosomes of an
    individual?
  • The collection of chromosomes found in an
    individuals cells

Karyotype
34
Chromosomes
  • How is it made?
  • Chemically treated to stop them in metaphase
    (from blood or amniotic fluid)
  • Chromosomes are stained
  • The chromosomes are then photographed
  • Chromosomes are cut out
  • Arranged in pairs from largest to smallest
  • Chromosomes are numbered in 23 sets

35
1-Chromatin
2 Chromosome Scatter
3 Karyotype
36
Chromosomes Abnormalities
  • Nondisjunction (NOT-COMING-APART)
  • Chromosomes fail to separate during anaphase of
    Meiosis
  • 2. Mutations changes in chromosome structure

37
Nodisjunctions
  • What if a chromosome is missing?
  • Most do not survive to be born
  • If a chromosome is missing the condition is
    called Monosomy
  • EX Turners Syndrome (XO)

38
Nondisjunctions
  • What if a cell has an extra chromosome?
  • The condition in which a cell has an extra
    chromosome is called Trisomy
  • Example Trisomy 21
  • (Down Syndrome)

39
Nondisjunction
40
Mutations
  • Deletion part of the chromosome breaks off
  • Duplication part of the chromosome is repeated

41
Cancer
  • Mutations in genes that control normal cell
    division can lead to cancer.
  • Increasing your risk
  • Sun without sun block
  • Smoking or being around 2nd hand smoke
  • Working with known cancer causing chemicals.
  • Eating foods with preservatives such as nitrates
  • Cooking Foods in plastics that contain dioxin

42
  • Proto-Oncogenes are normal genes that code
    proteins involved in a cell's normal growth
  • Oncogenes tell cells to make proteins that cause
    excessive cell growth and division.

Oncogenes are Mutant Forms of Proto-Oncogenes
43
Tumor Suppressor Genes
  • Normal genes whose ABSENCE can lead to cancer.
  • Why dont we all get cancer?
  • Genes come in pairs, one from each parent
  • A defect in one copy will not cause cancer
    because the other normal copy is still
    functional.
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