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Let

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Title: Let


1
Lets Review!
2
Mitosis is
  • When a cell makes a copy of itself for
  • growth
  • repair
  • replacement

3
In mitosis
Mother cell with a full set Of chromosomes
(diploid number a.k.a. 2n)
Two daughter cells With a full set of
Chromosomes (diploid number a.k.a 2n)
4
The Phases of Mitosis
  • Interphase
  • Prophase
  • Metaphase
  • Anaphase
  • Telophase
  • Cytokinesis
  • (you should ALL know
  • these by heart by now!)

5
Mitosis
  • Only body cells reproduce by mitosis (and some
    organisms too but we will talk about that later)

6
Meiosis
  • Meiosis is __________ for _________ on
    ____________ to offspring.

7
Meiosis
  • Meiosis is the kind of
  • _________ ___________ that forms _______ and
    __________ cells.
  • Egg and sperm are also called
  • __________ CELLS!
  • They are ________ by the _________________ organs.

8
What is the _________ of making cells through
meiosis?
  • Meiosis helps a living thing
  • _____________
  • its __________ number!

9
Meaning
  • Mom has _____ chromosomes
  • Dad has ______ chromosomes
  • You have _____ chromosomes

10
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Chromosomes and Chromosome Number
  • Human ______ _____ have 46 chromosomes
  • ____ ______ contributes 23 chromosomes
  • _________ chromosomesone of two _________
    chromosomes, one from each parent

11
Definitions
  • Chromosomes _____ all the __________ that is
    _________ from one __________ to the next.
  • _________ in your ________ make up that makes
    you-YOU
  • your ________, your ______ color, hair color,
    whether you have __________, or curly ________
    etc.
  • This is all ____________.

12
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Chromosomes and Chromosome Number
  • Same ____________
  • Same ____________ position
  • Carry ________ that ___________ the same ________
    traits

13
BUT
  • If mom ________ you ______ 46 of her chromosomes
  • AND dad gave you ________ 46 of his chromosomes
    (______ __ __________)
  • _______ would have _____ chromosomes

14
And
  • You would ________ in ______ from what your
    __________ were.
  • AND
  • Your ________ would ________ in size from what
    you are now

15
Eventually
  • You would be
  • a
  • huge monster
  • that could no longer
  • be supported
  • by the resources
  • of the planet.

16
That doesnt happen
  • _______ only gives you ______ her _______
    information (____ chromosomes)
  • ________ only _______ you _______ his _________
    information (___ chromosomes)
  • So, that you _________ the _______ chromosome
    number of ____ in your body

17
More Definitions
  • ________ Number the ______ number of _________
    in an organism (in humans this is ____)
  • ________ Number ______ of the total
    ____________ of chromosomes in an organism (in
    humans this is __)

18
Meiosis is the way that
  • An ________ produces ________ to ______ the same
    number of _________ from generation to
    ____________.
  • ________ and ____ cells (gametes) are made so
    that they only have _____ of the total number of
    chromosomes.
  • So that when egg and sperm ________ they create a
    ________ organism with the ________ number of
    chromosomes!

19
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • The _______ life cycle in animals involves
    _________.
  • ________ produces ___________.

20
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Stages of Meiosis I
  • ________ the chromosome ______ by ____ through
    the _________ of __________ chromosomes
  • Involves _____ consecutive cell _______ called
    meiosis ___ and meiosis ____

21
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • _________
  • Chromosomes _______.
  • _________ condenses.

Interphase
22
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • _____________ I
  • _______ of homologous chromosomes _______.
  • Each _______ consists of two _________.

Prophase I
  • The ________ envelope _______ down.
  • _________ form.

23
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • Prophase I
  • ________ over produces ________ of genetic
    ____________.
  • Crossing over__________ segments are __________
    between a _______ of _________ chromosomes.

24
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • ____________ I
  • Chromosome __________ attach to ________ fibers.

Metaphase I
  • Homologous chromosomes _____ __ at the ________.

25
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • _____________ I

Anaphase I
26
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis I
  • ____________ I
  • The _______ break down.

Telophase I
  • Chromosomes ______ and form two ______
  • The cell _________.

27
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis II
  • ____________ II

Prophase II
28
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis II
  • _____________ II

Metaphase II
29
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis II
  • ___________ II

Anaphase II
30
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis II
  • __________ II

Telophase II
31
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Meiosis II
  • ______ results in _____ haploid cells, each with
    __ number of chromosomes.

Cytokinesis
32
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
The ______________ of Meiosis
  • Meiosis consists of ____ sets of _________
  • _______ four ______ daughter cells that are
    _______ identical
  • _________ in genetic ____________

33
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
_______ Provides ________
  • ________ on how the chromosomes _____ __ at the
    equator, ____ gametes with _____ different _____
    of _________ can result.
  • Genetic _______ also is ______ during ______ over
    and during _______, when ______ randomly
    ___________.

34
Sexual Reproduction and Genetics
Chapter 10
10.1 Meiosis
Sexual Reproduction v. Asexual Reproduction
  • _____________ reproduction
  • The organism ______ ____ of its chromosomes from
    a ______ parent.
  • The ______ individual is genetically identical to
    its parent.
  • _________ reproduction
  • ______ genes _______ faster over time.

35
The end result of meiosis
  • ____ new cells that have only ______the number of
    chromosomes (________ number)
  • in males- ___ sperm cells are _______ (in humans
    the __________ is 23)
  • in females- 1 ____ and 3 _____ bodies are made
    (the egg has 23 chromosomes)

36
More Vocabulary
  • ________ the stage in life when a person begins
    to _________ sex cells
  • _______ _______ sex organs that produce _______
  • ________ female sex organs that produce _______
    (a.k.a ova)

37
More Vocabulary
  • ________ body the _____ cells formed by a
    ______ during meiosis. They all ____ after being
    created.
  • __________ when the _______ from the egg and
    sperm _____ together. The new _______ has a
    ____________ set of chromosomes now, ___ from
    each parent.

38
Egg versus Sperm
  • Eggs
  • A woman has her _________ number of eggs (about
    7 million) while still a _______ in her mothers
    womb.
  • At ______ that number _______ to about __ or ___
    million.
  • By ________ that number has _________ to about
    ________.
  • And of that number _____ ______-_____ ever
    mature to be __________ by the ovary.

39
Egg versus Sperm
  • As women _____ fewer eggs can ______ because of
    __________.

40
Egg versus Sperm
  • ________
  • At _______ the males _______ makes millions of
    sperm _______ day.

41
Egg versus Sperm
  • Size
  • Eggs are ________ compared to the sperm.
  • Fertilization
  • _______sperm _____ to _______ the egg, however,
    it only takes one to make a baby!

42
Mendels Work
  • In 1865 an Austrian Monk named _______ ______ saw
    certain ______ in the garden pea plants he grew
    in his garden.
  • He __________ and ________ the traits he saw in
    the pea plants.

43
Mendel
  • Mendel was able to ______ some _____ laws of
    genetics.
  • He explained _______ and _________.
  • He also __________ how traits were ______ from
    _______ to _________

44
Mendel looked at pea plants
  • He looked at several traits of the pea plant.

45
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
  • The ________ generation is also known as the
    _____ generation.

46
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
  • The ________ of this P cross are called the _____
    _________(F1) generation.
  • The ______ filial (F2) generation is the ______
    from the F1 cross.

47
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Genes in Pairs
  • _______
  • An _______ form of a _____ gene ______ from
    generation to generation
  • Dominant
  • Recessive

48
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
_______ A ______ that _______ __ another
trait (the ________ trait) and is what can be
______ (either physically, or genetically) in an
organism. ___________ A gene that gets ______
up by a dominant trait
49
Homozygous versus Heterozygous
  • An organism with _____ of the ______ _______ for
    a particular trait is ____________.
  • Can either be
  • TWO ___________ alleles
  • or
  • TWO ___________ alleles
  • example Homozygous __________ would be
    written ____ (the _______ trait would be
    seen)
  • Homozygous ___________ would be written
  • _____ (the __________ trait would be seen)

50
Homozygous versus Heterozygous
  • An organism with ____ ______ alleles for a
    particular trait is ______________.
  • This would be written
  • ______ ( and the ________ trait would _____ __
    the recessive trait)

51
Dominant versus Recessive
  • There are ______ ways for a dominant trait to
    show up
  • ____________ Dominant (TT)
  • Or
  • _____________ (Tt)

52
Dominant versus Recessive
  • The _________ way for a recessive trait to be
    seen is if it is
  • ______________ recessive (tt)

53
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Genotype and Phenotype
  • An organisms _______ ______ are called its
    _____________.
  • The _________ characteristic or _______
    expression of an allele pair is called the
    ___________.

54
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Mendels Law of Segregation
  • ______ alleles for each trait _________ during
    meiosis.
  • During _________, two alleles for that trait ____.
  • __________ organisms are called _________.

55
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Monohybrid Cross
  • A ________ that involves ______ for a ______
    trait is called a ________ cross.

56
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Dihybrid Cross
  • The _________ inheritance of ___ or _____ traits
    in the same plant is a _______ cross.
  • _________ are __________ for both traits.

57
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Law of _______________ Assortment
  • _______ distribution of ______ occurs during
    gamete _____________
  • _______ on _________ chromosomes sort ___________
    during meiosis.
  • Each allele ________ is _________ likely to
    _________.

58
Expected and Observed Results
  • The _______ Square is a way to _____ which
    _____ can ______ when egg and sperm _______.
  • _______ are used when ________ to a ________
    trait.
  • A ______ letter such as __ is used to ________ a
    dominant _______
  • A ______ letter such as __ is used to ________ a
    recessive gene

59
Our example continues
  • A person with ___ genes is ________ dominant
    (pure dominant) for ____ earlobes (meaning they
    have _______ earlobes)
  • A person with ___ genes is _______ recessive
    (pure recessive) for ________ earlobes (their
    earlobes dont dangle)

60
Our example continues
  • A person with ___ genes is ______ dominant and
    they have ______ earlobes
  • When a person has a ________ AND a _________ gene
    (like above) then the _____ LETTER is ______
    first and the _____ letter is written next. This
    is meant to show that the _____ gene is what can
    be seen.

61
Follow these steps to determine the possible
combinations of genes a child could have.
  • For our example both parents will be __________
  • Each parent has
  • __ (one copy of the _________ trait which is
    _______ earlobes)
  • __ (one copy of the _________ trait which is
    ________ earlobes)
  • It is written this way ____

62
Step 1
  • Draw a punnett square
  • ______ little _______ of the box (each quarter)
    stands for 1 ___________ ______ of genes that the
    future offspring can have
  • There are ____ boxes, so four possible ________
    of genes will be shown.
  • _______ combination of genes ________ from a
    sperm cell ___________ an egg cell



63
Step 2
Mothers Genes
___________ what kind of genes will be in the
_____ cells of _______ _________. _________ the
________ for the genes that ________ appear in
the mothers egg _________ the top of the
square. (one of the letters above each different
square). For our example, remember that mom is
heterozygous Ff
F
f


Fathers Genes
64
Step 3
Mothers Genes
Now, _______ the letters for the genes that
_______ appear in the fathers sperm ______ the
side of the square. (one of the letters next to
each different square). For our example,
remember that dad is ___________ Ff Meaning
there are 2 possible genes for the sperm F
_______ earlobes f _________ earlobes
F
f


F
Fathers Genes
f
65
Step 4
Mothers Genes F f
  • ______ the letters that appear at the ________ of
    the square into the _________ below each letter.
  • ________ the letters that _______ at the _______
    of the square _____ the boxes ______ to each
    letter

FF Ff
Ff ff
F
Dads genes
f
66
Step 5
Mothers Genes F f
  • Look at ______ little ________. They now show
    the possible __________ of eggs and sperm.
  • They also show the possible __________ of genes
    that the ___________ might _________.
  • In our example
  • FF, Ff, ff

FF Ff
Ff ff
F
Dads genes
f
67
Step 6
Mothers Genes F f
  • The Punnett Square at right ______ the way the
    child could ______.
  • Remember __ is ______ for _____ earlobes.
  • There are _____ possible ways for a child to have
    ______ earlobes
  • FF and Ff
  • (3 out of the 4 offspring would have free
    earlobes)

FF Free earlobes Ff Free earlobes
Ff Free earlobes ff Attached earlobes
F
Dads genes
f
68
Step 6
Mothers Genes F f
  • There is only _____ combination of genes that
    would result in a child with ________ earlobes
  • ff
  • On average only __ out of ___ kids would have
    attached earlobes

FF Free earlobes Ff Free earlobes
Ff Free earlobes ff Attached earlobes
F
Dads genes
f
69
Expected Ratios
  • The punnett square _______ what kinds of traits
    ___________ can have.
  • It shows what to _______ when the _______ and
    _____ of two parents ______.
  • ________ results are what can be ________.

70
Expected Ratios
  • We can ______ what each child will look like.
  • ___ would have _____ earlobes, ___ would have
    _______ earlobes
  • We could only make these predictions because we
    knew what genes the parents had.

71
Observed Results
  • We know that the _______ ________ from Punnett
    Square dont always occur in every family
  • The traits that are _________ ______ in offspring
    when parents with certain genetic traits mate are
    the ___________ ___________.
  • A ________ square _______ what _________ happen.

72
Sexual Reproduction and Genetics
Chapter 10
10.2 Mendelian Genetics
Punnett SquareDihybrid Cross
  • _____ types of alleles from the _____ gametes and
    ____ types of alleles from the female gametes can
    be _________.
  • The ________ phenotypic _____ is __________.

73
Sexual Reproduction and Genetics
Chapter 10
10.3 Gene Linkage and Polyploidy
Genetic Recombination
  • The new ________ of genes produced by _________
    _____ and ____________ ___________
  • ________ of genes due to independent assortment
    can be ________ using the formula ___, where n is
    the number of chromosome ______.

74
Sexual Reproduction and Genetics
Chapter 10
10.3 Gene Linkage and Polyploidy
Gene Linkage
  • The _______ of genes on a chromosome results in
    an ________ to Mendels law of ___________
    assortment because linked genes usually ____
    _____ segregate independently.

75
Sexual Reproduction and Genetics
Chapter 10
10.3 Gene Linkage and Polyploidy
Polyploidy
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