Sexual Reproductionmisscbarr.weebly.com/uploads/1/0/6/5/10652660/sexual_reproduction.pdf · Sexual...
Transcript of Sexual Reproductionmisscbarr.weebly.com/uploads/1/0/6/5/10652660/sexual_reproduction.pdf · Sexual...
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Sexual ReproductionChapter 8
Pages. 255-261
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Learning intentions
To understand how an offspring from two parents has a unique genetic identity
To be able to explain the key events in meiosis that result in the production of gametes from somatic cells
To understand the significance of crossing over
To be able to identify the biological advantages of sexual reproduction
Success Criteria
• I can explain the difference between mitosis and meiosis• I understand the inputs and outputs of meiosis• I can outline the advantages of sexual reproduction
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Keywords for this chapter!
Meiosis
Gamete
Diploid
Haploid
Recombination
Crossing over
Chiasmata
Disjunction and Non-disjunction
Fertilisation
Bivalent
Synapsis
• Ovaries
• Testes
• Gonads
• Germ Cells
• Egg (or ova)
• Sperm
• Aneuploidy
• Monsomy
• Trisomy
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Sexual Reproduction
Previously we have explored asexual reproduction, as seen in prokaryotes and some eukaryotes.
All living organisms can reproduce sexually, according to the genetic instructions within the organisms themselves.
This requires the process of meiosis to form gametes.
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Characteristics
Usually requires two individuals (male and a females) and appropriate behaviour to enable fertilisation.
ADVANTAGES:
Genetically different individuals are formed Creates genetic variation in a population
Allows a species to survive in a changing environment
DISADVANTAGES:
Need to find a mate
Requires more energy
May be limited to certain times of the year (seasonal dependence)
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7
23
46
GETTING YOUR FIRST CHROMOSOMES…
Human Egg
The chromosomes you inherit from your parents
determine what you look like.
Human cell
with 46
chromosomes
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9
GROWTH - FROM ONE CELL TO YOU!
Blastocyst
implanting on
uterus: 1 week
Embryo: 5
weeks
Heartbeat
at 3
weeks!
Embryo: 8
weeks
Every organ
system
present
Every cell in your
body has the same
copy of the
chromosomes
originally given to
you by your parents!
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Comparing male and female
Oogenesis Spermatogenesis
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Meiosis – the source of variability in offspring.
This is the process of gametes being produced
Only occurs in the gonads
Instead of producing two identical daughter cells, meiosis produces four non-identical daughter cells, each with only half the number of chromosomes (e.g. 23 in humans)
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There are 2 phases and 8 stages to Meiosis
Meiosis ISeparates homologous chromosomes
Meiosis IISeparates sister chromatids
Prophase I Prophase II
Metaphase I Metaphase II
Anaphase I Anaphase II
Telophase I Telophase IIBrief interphase here, but cells do not duplicate
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Modelling Meiosis
Large piece of Paper
Set of poppet beads
Texta
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Standard condition of cell
DNA replicates
Cell enters reproductive cycle with four copies of each chromosome
Interphase
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DNA super coils and chromosomes become visible
Nuclear membrane breaks down
Homologous pairs line up
Prophase I
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Non-sister chromosomes join up and trade sections
Prophase I
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Chiasmata – this is where chromatids remain in contact. At these points, the chromatids may break and re-join, sometimes re-joining to other chromatids. This process is called crossing over and results in sections of DNA being swapped along the chromatids.
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Non-sister chromosomes join up and trade sections
Centrosomes migrate and spindles form
Prophase I
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Homologous chromosomes line up on equator of cell
Random assortment takes place
Metaphase I
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Homologous chromosomes line up on equator of cell
Random assortment takes place
Metaphase I
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Homologous chromosomes attach to spindles
Spindles contract and pull homologous chromosomes apart
Anaphase I
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Nuclear membrane reforms
Chromosomes disperse
Cytokinesis begins
Telophase I
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Chromosomes recondense
Centrosomes migrate
Nuclear membranes disperse
Prophase II
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Chromosomes migrate to equator
Metaphase II
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Chromosomes migrate to equator
Spindles form
Metaphase II
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Spindles contract
Chromosomes migrate
Anaphase II
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Nuclear membranes reform
Chromosomes disperse
Cytokinesis completes the cycle
Telophase II
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INTERPHASE
It is the re-assortment of genetic material from both crossing over and disjoining that produces new genetic combinations. This is known as recombination.
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When meiosis goes wrong…
Sometimes a pair of chromosomes fail to disjoin or separate at anaphase.
This event is called non-disjunction and it is an unpredictable error.
If this involves sex chromosomes at all, the offspring will be born with clinical abnormalities e.g.
XXY – Klinefelter Syndrome
XO – Turner Syndrome
OY – non-viable
XXX – triple X syndrome
XYY – double Y syndrome
Where there is an addition or loss of a chromosome the condition is called aneuploidy.
2n+1 = trisomy, 2n-1 = monosomy.
Changes to the number of autosomes is far more drastic e.g. down syndrome (trisomy 21)
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Karyotype
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Karyotype
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EXTRA INFORMATION
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Two parental contributions
Sexual reproduction involves genetic contributions, in the form of gametes, from two parental sources to their offspring.
In animals, gametes are eggs (from the female) and sperm (from the male)
Gametes are produced by specialised reproductive organs known as gonads. These are the ovaries for females and testes for males.
The cells in the gonads that give rise to the gametes are termed germ cells.
Pictomicrograph through mammalian testes
Pictomicrograph of sections through human ovary, showing an egg (oocyte) within a follicle ->
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How is variation created?
Lets go back to chromosomes!
Chromosomes are the genetic information carriers.
In a normal body cell (somatic cell) the number of chromosomes present is called the diploid number and is represented by the symbol 2n.
In humans the number of chromosomes in each somatic cell is 46, therefore 2n = 46
The chromosomes in a diploid cell exist as matching homologous pairs.
If an organism has a diploid number of 12 – how many matching homologous pairs of chromosomes are there?
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In sexual reproduction, each parent makes essentially equal genetic contribution in the form of a gamete i.e. an egg and a sperm.
All normal somatic cells have 46 chromosomes in humans, their gametes have just 23 chromosomes. This is called the haploid number and is given the symbol n.
So for people n=23.
The process of gamete formation is referred to as MEIOSIS and is a form of reduction division.
When the sperm fertilises the egg the diploid number is restored.
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• The diploid (2n) parents, have cells that undergo meiosis to make haploid gametes (n)
• The gametes fuse during fertilisation to make a diploid (2n) offspring
• Offspring then undergo mitosis to become individuals.
Sexual reproduction in humans
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Meiosis in males
Occurs in the testes Outside the body (temp. 35C) Make testosterone from puberty onwards which
induces sperm production
Each meiosis cycle makes 4 sperm
This continues into old age
Each ejaculation releases between 40 and 500 million sperm.
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Meiosis in Females
Gametes start to be made in the ovaries when still a foetus
start but do not complete it
remain dormant until puberty
At puberty, an ovarian cycle starts Approximately one egg a month completes
meiosis and released from the ovary.
Only 1 egg is made from meiosis instead of the normal 4.