chapter 10 sexual reproduction and genetics. two of these people are genetically related, can you...
TRANSCRIPT
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Chapter 10 Sexual Reproduction and Genetics
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Two of these people are genetically related, can you tell which two?
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Section 10.1 - MeiosisMain Idea : Meiosis produces haploid gamates.
Meiosis is a type of cell division that reduces the number of chromosomes.
- 46 pairs reduced to 23 pairs- A cell with half the number of chromosomes
is called haploid. (23 chromosomes n)
This type of cell division is important in the life cycle of organisms such as animals.
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Why is meiosis cell division important?Human body cells have 46 chromosomes.
Each parent gives half of their chromosomes (23) to their offspring.
The chromosomes that make up a
pair, one chromosome from each
parent is called a
homologous chromosome.
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Passing on genetic traitsEach chromosome
consists of hundreds of
genes.
Genes are DNA
segments that carry
instructions for inherited
traits such as eye color,
hair color, and height
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Examples of Inherited TraitsAttached or unattached Can you roll your
earlobes tongue? Some people
can’t.
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Hitchhiker thumb
Widow’s peak
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How genes are passed from generation to generationOrganisms produce gamete cells (sex cells)
that have half the number of chromosomes as
body cells. (haploid – n chromosomes)
The process of one parent’s gamete combining
with another parent’s gamete is called
fertilization.
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Adults have 2n chromosomes
(diploid cells – 46 each)
If diploid cells fertilized each
other, a cell would end up with
92 chromosomes.
The next generation would
have 184 chromosomes.
Eventually there would be too
many chromosomes in each
cell
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Instead…Animal cells undergo
meiosis cell division to
reduce the number of
chromosomes before
reproduction occurs.
The offspring receives 23
chromosomes from the
maternal (mother) gamete and
23 chromosomes from the
paternal (father) gamete.
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Meiosis involves two consecutive cell divisions called meiosis I and meiosis IIMeiosis I – Reduction Stage
Just like in mitosis, meiosis cell division begins
with Interphase
– cells undergo normal
functions
- DNA replication.
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Meiosis I – Prophase IChromatin coils up,
Spindles appear,
Nucleoli disappear,
Synapsis occurs – pairs
of homologous chromosomes form
How is this a little different from
mitosis prophase?
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Meiosis I Prophase ICrossing over produces exchange of genetic
information.Crossing over —chromosomal segments are
exchanged between a pair of homologous chromosomes
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Meiosis I
Metaphase I
Chromosome centromeres
attach to spindle fibers.
Homologous chromosomes
line up at the equator.
How is this different from
mitosis metaphase?
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Meiosis IAnaphase IHomologous chromosomes separate and move to opposite poles of the cell.
Centromere not broken
Chromosome number reduced from 2n to n
How is this different frommitosis anaphase?
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Meiosis ITelophase IThe spindles break down.
Chromosomes uncoil and form two nuclei
The cell divides,(cytokinesis).Two daughter cellsare produced with ½ thenumber of chromosomes. (n)
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Meiosis II continues the cell divisionTo begin the second set of
meiosis stages, we start
with the daughter cells
from meiosis I.
The DNA will not be
replicated in meiosis II.
If we separate the DNA and divide the cells,
how many cells will be produced?
How many chromosomes in each new cell?
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Meiosis II – Prophase II
A second set of phases begins as the spindle
apparatus forms and the chromosomes
condense.
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Meiosis II – Metaphase IIA haploid number of chromosomes
line up at the equator.
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Meiosis II – Anaphase IIThe sister chromatids are pulled apart at the
centromere by spindle fibers and move toward
the opposite poles of the cell.
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Meiosis II – Telophase IIThe chromosomes reach the poles, and the
nuclear membrane and nuclei reform.
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Meiosis II - Cytokinesis
Cytokinesis results in four haploid cells, each with n number of chromosomes.
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Meiosis I and Meiosis II
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Mitosis Meiosis I and II
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Males – four sperm made by one cell dividing equally into four.
Mitosis
Meiosis I
Meiosis II
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Females – one ovum produced- Unequal division made
during meiosis I and
meiosis II
- Only the large cell
survives and is passed on
- Extra cytoplasm
provides food for the embryo.
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The Importance of Meiosis I and II Meiosis consists of two sets of divisions
Produces four haploid daughter cells that are not identical
Results in genetic variation
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Meiosis Provides Variation
Depending on how the chromosomes line up at the equator, four gametes with four different combinations of chromosomes can result.
Genetic variation also is produced during crossing over and during fertilization, when gametes randomly combine.
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Studying a person’s genetic make up
Every person is made
up of trillions of cells,
and each cell carries a
full copy of that person’s
genetic code, in the form
of homologous
chromosomes.
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How are these karyotypes different?
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Genetic defects – look closely, how are these karyotypes different?
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Sexual Reproduction vs. Asexual Reproduction Asexual reproduction = the organism inherits all of its chromosomes from a single parent. The new individual is genetically identical to its parent.Example – binary fission -- involves an equal
division of both the organism cytoplasm and nucleus to form two identical organisms
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Asexual ReproductionSpores Vegetative
Propagation
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Asexual Reproduction - Regeneration
Body parts that are
missing due to damaged
or predation can be
regrown.
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Asexual reproduction - BuddingThe parent plant grows a
structure (a bud) that
matures, falls off and
grows on its own.
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Sexual reproduction
Beneficial genes multiply faster over time.
2 parents - combination of genetic material not identical
a) egg and sperm (gametes) combine
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fertilization forms zygote
zygote grows by mitosis-creates stem cellsunspecialized cell mass of100 –150 of the first cells toform.
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Review of Section 10.1Each student in class has characteristics passed
on to them by their parents.The instructions for the traits are found on
chromosomes in the nucleus.The DNA on the chromosomes is arranged in
segments that control the production of proteinThese DNA segments are called genes.Each chromosome consists of hundreds of genesEach gene has an important role in determining
the characteristics and function of the cell
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10.2 Mendelian GeneticsHow Genetics Began The passing of traits to the
next generation is called inheritance, or heredity.
Mendel performed cross-pollination in pea plants.
Mendel followed seven traits in the pea plants he bred.
Examples: flower color, seed color, height of plant, texture of seed.
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Self pollenating plant Cross pollinating plant
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Mendel’s Experiments – cross-pollination by transferring a male gamete from the flower of one pea plant to the female reproductive organ in a flower of another pea plant.
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The Inheritance of TraitsThe parent generation is
also known as the Pgeneration.
Cross two pure parents one yellow & one green
Green trait didn’tdisappear, it was hiddenor masked.
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Mendel noticed that some pea plants produce yellow seeds and others produce green.The offspring of this P
cross are called thefirst filial (F1) generation.
= __?__ All yellow
F1 self-pollinates = F2
¾ yellow and ¼ green
Green trait didn’tdisappear, it was hiddenor masked.
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Genes in PairsMendel concluded there must be two forms of the seed trait in the pea plants Allele - An alternative form of a single gene
passed from generation to generationThe F1 pea plant had one yellow allele and one
green allele
Dominant – The allele for yellow seed color is dominant over the green seed color (Y)
Recessive – the allele for green seed color is recessive (y)
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Law of DominanceAn organism with two of the same alleles for a
particular trait is homozygous
Homozygous yellow –seed plants are YY
Homozygous green-seed plants are yy
An organism with two different alleles for a particular trait is heterozygous.= Yy
When alleles are present in the heterozygous state, the dominant trait will be observed.
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Genotype and PhenotypeYou cannot tell an organisms alleles by its
outward appearance. Some traits may be masked.
An organism’s allele pairs
are called its genotype
A yellow plant may have a
genotype of YY or Yy, both
allele pairs will produce
yellow seeds.
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Mendel’s Law of SegregationTwo alleles for each trait separate during meiosis.
During fertilization, two alleles for that trait unite.
Heterozygous organisms are called hybrids
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Law of Independent Assortment
Random distribution of alleles occurs during gamete formation
Genes on separate chromosomes sort independently during meiosis.
Each allele combination is equally likely to occur.
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Genotype and Phenotype
The observable characteristic or outward expression of an allele pair is called the phenotype
The phenotype of pea plants
with the genotype of yy will
be green seeds.
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Genotype compared to Phenotype
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Predicting Genotypes Punnett Squares and Probability Predict the possible
offspring of a cross between two known genotypes
Each box = 25% chance
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Monohybrid Cross
A cross that involves hybrids for a single trait is called a monohybrid cross.
Four boxes in the Punnett square.
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Dihybrid Cross is for two traits
The inheritance of two or more traits in the same plant is a dihybrid cross.
Dihybrids are heterozygous for both traits.
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Punnett Square—Dihybrid Cross
Four types of alleles (2 traits) from the male gametes and four types of alleles (2 traits) from the female gametes can be produced.
The resulting phenotypic ratio is 9:3:3:1.
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Cross Test
Unknown dominant trait
crossed with a known
homozygous recessive,
If offspring show
recessive phenotype,
It is know that the parent
was heterozygous.
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10.3 Gene Linkage and PolyploidyGenetic Recombination is
the new combination ofgenes produced bycrossing over andindependent assortment
Sex Chromosomes = One pairFemale = XX andmale = Xy
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The X chromosome carries most genes to be passed to offspring.The X chromosome is the
largest, Y being the smallest.
The X chromosome carries genes needed by both males and females
The Y chromosome carries mostly genes for male characteristics.
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Co-dominance
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Gene Linkage The linkage of genes on a chromosome results
in an exception to Mendel’s law of independent assortment because linked genes usually do not segregate independently.
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Incomplete Dominance
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Chromosome Mapping Chromosome mapping =
genes in exact locations on
all chromosomes within
organism
farther apart they are more
likely to cross over,
so a higher percentage of
crossed genes would mean
the genes are farther apart
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Chromosome map and gene linkage
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After the crossover, A and B are together with c, and a and b are together with C on one of the two chromatids of the recombined chromosomes
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Polyploidy Polyploidy is the
occurrence of one or more
extra sets of all chromosomes
in an organism A triploid organism, for
instance, would be designated
3n, which means that it has
three complete sets of
chromosomes.
Strawberries are 8n
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In humans, polyploidy is lethal, an embryo will not survive.