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Meiosis (Core)

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Stephen Taylor
Stephen Taylor

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Meiosis (Core) Stephen Taylor 4.2 Meiosis (Core) 1 http://sciencevideos.wordpress.com
Meiosis A reduction division of nuclei to form haploid gametes. 4.2 Meiosis (Core) 2 http://sciencevideos.wordpress.com
Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. In this example cell we see two pairs of homologous chromosomes. It is a diploid cell of n=2. 4.2 Meiosis (Core) 3 http://sciencevideos.wordpress.com
Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. These chromosomes replicate in the S-phase of interphase to make pairs of sister chromatids, joined at the centromere. Each chromosome has replicated. It is still diploid but now they are know as pairs of sister chromatids. 4.2 Meiosis (Core) 4 http://sciencevideos.wordpress.com
Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. These chromosomes replicate in the S-phase of interphase to make pairs of sister chromatids, joined at the centromere. Meiosis is a process of two divisions. Meiosis I separates the homologous pairs – this is the reduction division. The homologous pairs have separated but the sister chromatids remain attached. 4.2 Meiosis (Core) 5 http://sciencevideos.wordpress.com
Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. These chromosomes replicate in the S-phase of interphase to make pairs of sister chromatids, joined at the centromere. Meiosis is a process of two divisions. Meiosis I separates the homologous pairs – this is the reduction division. Meiosis II separates the sister chromatids. The end product of meiosis from a single somatic diploid cell is four haploid gametes. 4.2 Meiosis (Core) 6 http://sciencevideos.wordpress.com
Homologous Chromosomes same structure Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. One of the pair is paternal – inherited from the father. The other is maternal – inherited from the mother. Homologous chromosomes are the same size and structure. They carry the same genes at the same loci. Alleles carried at each locus may vary. 22 of the human chromosome pairs are homologous. The other pair, the sex chromosomes, are non-homologous. Banding pattern Centromere position size 4.2 Meiosis (Core) 7 http://sciencevideos.wordpress.com
Interphase In preparation for the reduction division of meiosis, the chromosomes replicate. This occurs in the Synthesis phase (S-phase) of meiosis, through DNA Replication. Each single chromosome becomes a pair of sister chromatids, physically joined at the equator. The centromere is a junction between the sister chromatids. 4.2 Meiosis (Core) 8 http://sciencevideos.wordpress.com
Prophase I The homologous chromosomes associate with each other. The nuclear membrane breaks down and centrioles migrate to the poles. 4.2 Meiosis (Core) 9 http://sciencevideos.wordpress.com
Prophase I The homologous chromosomes associate with each other. Crossing-over between non-sister chromatids can take place. The nuclear membrane breaks down and centrioles migrate to the poles. This results in recombination of alleles and is a source of genetic variation in gametes. 4.2 Meiosis (Core) 10 http://sciencevideos.wordpress.com
Metaphase I The bivalents (homologous pairs) line up at the equator. Random orientation of these homologous pairs (the way they face) leads to massive genetic variation in the gametes. There are 223 possible orientations in humans – well over 8 million! 4.2 Meiosis (Core) 11 http://sciencevideos.wordpress.com
Anaphase I Spindle fibres contract. Homologous pairs are separated and pulled to opposing poles. This is the reduction division. Non-disjunction here will affect the chromosome number of all four gametes. 4.2 Meiosis (Core) 12 http://sciencevideos.wordpress.com
Telophase I New nuclei form and the cytoplasm begins to divide by cytokinesis. The nuclei are no longer diploid. They each contain one pair of sister chromatids for each of the species’ chromosomes. If crossing-over and recombination has occurred then the sister chromatids will not be exact copies. 4.2 Meiosis (Core) 13 http://sciencevideos.wordpress.com
Interphase There is no Synthesis phase in Interphase II. 4.2 Meiosis (Core) 14 http://sciencevideos.wordpress.com
Prophase II The nuclei break down. No crossing-over occurs. 4.2 Meiosis (Core) 15 http://sciencevideos.wordpress.com
Metaphase II Pairs of sister chromatids align at the equator. Spindle fibres form and attach at the centromeres. Random orientation again contributes to variation in the gametes, though not to such an extent as in metaphase I. This is because there is only a difference between chromatids where crossing-over has taken place. 4.2 Meiosis (Core) 16 http://sciencevideos.wordpress.com
Anaphase II Spindle fibres contract and the centromeres are broken. The pairs of sister chromatids are pulled to opposing poles. Non-disjunction here will lead to two gametes containing the wrong chromosome number. 4.2 Meiosis (Core) 17 http://sciencevideos.wordpress.com
Telophase II New haploid nuclei are formed. Cytokinesis begins, splitting the cells. The end result of meiosis is four haploid gamete cells. Fertilisation of these haploid gametes will produce a diploid zygote. 4.2 Meiosis (Core) 18 http://sciencevideos.wordpress.com
Outline the Process of Meiosis 4.2 Meiosis (Core) 19 http://sciencevideos.wordpress.com
Outline the Process of Meiosis 4.2 Meiosis (Core) 20 http://sciencevideos.wordpress.com
Outline the Process of Meiosis 4.2 Meiosis (Core) 21 http://sciencevideos.wordpress.com
Non-disjunction Normal meiosis produces four haploid gametes. Meiosis I Reduction division 4.2 Meiosis (Core) 22 http://sciencevideos.wordpress.com
Non-disjunction Normal meiosis produces four haploid gametes. Meiosis I Reduction division Meiosis II Meiosis II Separation of sister chromatids n n n n 4.2 Meiosis (Core) 23 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. 4.2 Meiosis (Core) 24 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 25 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 26 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division Meiosis II Meiosis II Separation of sister chromatids n-1 n-1 n+1 n+1 4.2 Meiosis (Core) 27 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 28 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 29 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division Meiosis II Meiosis II Separation of sister chromatids n+1 n n n-1 4.2 Meiosis (Core) 30 http://sciencevideos.wordpress.com
Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction in Meiosis II Non-disjunction in Meiosis I Animation from BioStudio: http://www.biostudio.com/d_%20Meiotic%20Nondisjunction%20Meiosis%20II.htm Animation from BioStudio: http://www.biostudio.com/d_%20Meiotic%20Nondisjunction%20Meiosis%20I.htm Half of gametes affected. All gametes affected. 4.2 Meiosis (Core) 31 http://sciencevideos.wordpress.com
Non-disjunction & Trisomy Disorders Non-disjunction produces gametes with an abnormal number of chromosomes. Fertilisation adds the homologous chromosomes… n n+1 4.2 Meiosis (Core) 32 http://sciencevideos.wordpress.com
Non-disjunction & Trisomy Disorders Non-disjunction produces gametes with an abnormal number of chromosomes. Fertilisation adds the homologous chromosomes… n n+1 Resulting in a zygote and somatic cells with a trisomy of one chromosome. This can be fatal or cause disorders. 4.2 Meiosis (Core) 33 http://sciencevideos.wordpress.com
Down Syndrome Trisomy 21 Non-disjunction in anaphase I or II leads to an extra copy of chromosome 21 in the gamete (usually the egg). Fertilisation by a sperm adds the homologous chromosome 21, leading to trisomy. Down Syndrome has very distinctive physical characteristics and patients have a slightly shortened life expectancy, learning difficulties and a generally happy nature. Computer-enhanced karyogram (adapted): http://www.smd.lt/bureliu_upload/genetika/karyogram.gif NSW Down Syndrome Video: http://www.youtube.com/watch?v=tDjnNDRP_2o 4.2 Meiosis (Core) 34 http://sciencevideos.wordpress.com
Maternal Age and Down Syndrome Risk of Down Syndrome is strongly correlated with maternal age. Use this graph to generate your own data analysis questions. http://ibis.health.utah.gov/indicator/view/BrthDefDownSyn.BrthPrevAge.html 4.2 Meiosis (Core) 35 http://sciencevideos.wordpress.com
Maternal Age and Down Syndrome Girls are born with the precursors to all the eggs they’ll ever need in their ovaries. Beginning with puberty, these eggs start to mature and go through meiosis. This continues until menopause. Mother’s age is a high risk factor in Down Syndrome. Think about how long those eggs might have been there! However, many cases of Down Syndrome are with younger mothers. Generally women over the age of 40 are advised to have a karyotype of their fetus analysed. This can give the woman information she needs to decide whether to continue the pregnancy and if she decides to continue, how to prepare. There is some risk to the pregnancy of carrying out the tests. This is outlined on the chorionic villus sampling or amniocentesis page. Risk of Down Syndrome is strongly correlated with maternal age. Use this graph to generate your own data analysis questions. http://ibis.health.utah.gov/indicator/view/BrthDefDownSyn.BrthPrevAge.html Ethics and Discussions: ,[object Object]
What are the ethical issues regarding pre-natal testing and abortion?
“Forewarned is forearmed,” Discuss. 4.2 Meiosis (Core) 36 http://sciencevideos.wordpress.com
Karyotyping Pre-natal test used to check for gender and trisomy disorders. Extract fetal cells by amniocentesis or chorionic villus sampling. Culture cells and stimulate mitosis. Stop division in metaphase. Banding pattern Take a photograph under the light microscope or scan with a computer. Arrange chromosomes in homologous pairs based on size, banding patterns and centromere positions. 6. Check for gender (XX or XY) or trisomy disorders. Centromere position size Karyotype animation: http://learn.genetics.utah.edu/content/begin/traits/karyotype/ Step-by-step animation: http://www.mwit.ac.th/~bio/assets/karyotype_mutation.swf 4.2 Meiosis (Core) 37 http://sciencevideos.wordpress.com
Chorionic Villus Sampling or Amniocentesis? Amniocentesis animation from: http://www.medindia.net/animation/amniocentesis.asp Chorionic villus sampling animation from: http://video.about.com/pregnancy/Chorionic-Villus-Sampling.htm Amniocentesis: ,[object Object]
Via abdomen
Risk of miscarriage: around 1 in 1,000Chorionic Villus Sampling: ,[object Object]
Via cervix or abdomen
Risk of miscarriage: up to 1 in 100Find out more: what are the differences between 12-week and 15-week fetuses and how might this affect the mother’s decision making? 4.2 Meiosis (Core) 38 http://sciencevideos.wordpress.com
Nuchal Translucency Scans Non-syllabus Amniocentesis and CVS cell extraction run a risk of miscarriage. The non-invasive nuchal translucency scan allows doctors to determine whether there is need for a karyotype. If the nuchal fold is large and fluid-filled, it can be an indicator of Down Syndrome. If it is normal, Down Syndrome is very unlikely. Nuchal translucency scan – is it positive or negative? http://www.youtube.com/watch?v=Jt3cX2vuMyM Find out more about Down Syndrome and screening from the UK’s NHS: http://www.nhs.uk/news/2008/11November/Pages/DownssyndromeQA.aspx Can you see the difference between these two scans? What advice would the doctor give? http://www.babycentre.co.uk/pregnancy/antenatalhealth/scans/nuchalscan/ 4.2 Meiosis (Core) 39 http://sciencevideos.wordpress.com
Explain how inheritance of chromosome 21 can lead to Down Syndrome. 3 marks 4.2 Meiosis (Core) 40 http://sciencevideos.wordpress.com
Explain how inheritance of chromosome 21 can lead to Down Syndrome. 3 marks “…inheritance of chromosome 21” ,[object Object]
This is when a homologous pair of chromosome 21 fail to separate (anaphase I) or a pair of sister 21 chromatids fail to separate (anaphase II).
It can occur in anaphase I or II.
The resulting gamete will contain two copies of chromosome 21 instead of one. “…lead to Down Syndrome” ,[object Object],4.2 Meiosis (Core) 41 http://sciencevideos.wordpress.com

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Meiosis (Core)

  • 1. Meiosis (Core) Stephen Taylor 4.2 Meiosis (Core) 1 http://sciencevideos.wordpress.com
  • 2. Meiosis A reduction division of nuclei to form haploid gametes. 4.2 Meiosis (Core) 2 http://sciencevideos.wordpress.com
  • 3. Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. In this example cell we see two pairs of homologous chromosomes. It is a diploid cell of n=2. 4.2 Meiosis (Core) 3 http://sciencevideos.wordpress.com
  • 4. Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. These chromosomes replicate in the S-phase of interphase to make pairs of sister chromatids, joined at the centromere. Each chromosome has replicated. It is still diploid but now they are know as pairs of sister chromatids. 4.2 Meiosis (Core) 4 http://sciencevideos.wordpress.com
  • 5. Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. These chromosomes replicate in the S-phase of interphase to make pairs of sister chromatids, joined at the centromere. Meiosis is a process of two divisions. Meiosis I separates the homologous pairs – this is the reduction division. The homologous pairs have separated but the sister chromatids remain attached. 4.2 Meiosis (Core) 5 http://sciencevideos.wordpress.com
  • 6. Meiosis A reduction division of nuclei to form haploid gametes. Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. Humans have 23 pairs of chromomes(n=23). A diploid (2n) cell therefore contains 2x23 = 46 chromosomes. These chromosomes replicate in the S-phase of interphase to make pairs of sister chromatids, joined at the centromere. Meiosis is a process of two divisions. Meiosis I separates the homologous pairs – this is the reduction division. Meiosis II separates the sister chromatids. The end product of meiosis from a single somatic diploid cell is four haploid gametes. 4.2 Meiosis (Core) 6 http://sciencevideos.wordpress.com
  • 7. Homologous Chromosomes same structure Somatic cell nuclei (body cells) are diploid (2n). They contain an homologous pair of each chromosome. One of the pair is paternal – inherited from the father. The other is maternal – inherited from the mother. Homologous chromosomes are the same size and structure. They carry the same genes at the same loci. Alleles carried at each locus may vary. 22 of the human chromosome pairs are homologous. The other pair, the sex chromosomes, are non-homologous. Banding pattern Centromere position size 4.2 Meiosis (Core) 7 http://sciencevideos.wordpress.com
  • 8. Interphase In preparation for the reduction division of meiosis, the chromosomes replicate. This occurs in the Synthesis phase (S-phase) of meiosis, through DNA Replication. Each single chromosome becomes a pair of sister chromatids, physically joined at the equator. The centromere is a junction between the sister chromatids. 4.2 Meiosis (Core) 8 http://sciencevideos.wordpress.com
  • 9. Prophase I The homologous chromosomes associate with each other. The nuclear membrane breaks down and centrioles migrate to the poles. 4.2 Meiosis (Core) 9 http://sciencevideos.wordpress.com
  • 10. Prophase I The homologous chromosomes associate with each other. Crossing-over between non-sister chromatids can take place. The nuclear membrane breaks down and centrioles migrate to the poles. This results in recombination of alleles and is a source of genetic variation in gametes. 4.2 Meiosis (Core) 10 http://sciencevideos.wordpress.com
  • 11. Metaphase I The bivalents (homologous pairs) line up at the equator. Random orientation of these homologous pairs (the way they face) leads to massive genetic variation in the gametes. There are 223 possible orientations in humans – well over 8 million! 4.2 Meiosis (Core) 11 http://sciencevideos.wordpress.com
  • 12. Anaphase I Spindle fibres contract. Homologous pairs are separated and pulled to opposing poles. This is the reduction division. Non-disjunction here will affect the chromosome number of all four gametes. 4.2 Meiosis (Core) 12 http://sciencevideos.wordpress.com
  • 13. Telophase I New nuclei form and the cytoplasm begins to divide by cytokinesis. The nuclei are no longer diploid. They each contain one pair of sister chromatids for each of the species’ chromosomes. If crossing-over and recombination has occurred then the sister chromatids will not be exact copies. 4.2 Meiosis (Core) 13 http://sciencevideos.wordpress.com
  • 14. Interphase There is no Synthesis phase in Interphase II. 4.2 Meiosis (Core) 14 http://sciencevideos.wordpress.com
  • 15. Prophase II The nuclei break down. No crossing-over occurs. 4.2 Meiosis (Core) 15 http://sciencevideos.wordpress.com
  • 16. Metaphase II Pairs of sister chromatids align at the equator. Spindle fibres form and attach at the centromeres. Random orientation again contributes to variation in the gametes, though not to such an extent as in metaphase I. This is because there is only a difference between chromatids where crossing-over has taken place. 4.2 Meiosis (Core) 16 http://sciencevideos.wordpress.com
  • 17. Anaphase II Spindle fibres contract and the centromeres are broken. The pairs of sister chromatids are pulled to opposing poles. Non-disjunction here will lead to two gametes containing the wrong chromosome number. 4.2 Meiosis (Core) 17 http://sciencevideos.wordpress.com
  • 18. Telophase II New haploid nuclei are formed. Cytokinesis begins, splitting the cells. The end result of meiosis is four haploid gamete cells. Fertilisation of these haploid gametes will produce a diploid zygote. 4.2 Meiosis (Core) 18 http://sciencevideos.wordpress.com
  • 19. Outline the Process of Meiosis 4.2 Meiosis (Core) 19 http://sciencevideos.wordpress.com
  • 20. Outline the Process of Meiosis 4.2 Meiosis (Core) 20 http://sciencevideos.wordpress.com
  • 21. Outline the Process of Meiosis 4.2 Meiosis (Core) 21 http://sciencevideos.wordpress.com
  • 22. Non-disjunction Normal meiosis produces four haploid gametes. Meiosis I Reduction division 4.2 Meiosis (Core) 22 http://sciencevideos.wordpress.com
  • 23. Non-disjunction Normal meiosis produces four haploid gametes. Meiosis I Reduction division Meiosis II Meiosis II Separation of sister chromatids n n n n 4.2 Meiosis (Core) 23 http://sciencevideos.wordpress.com
  • 24. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. 4.2 Meiosis (Core) 24 http://sciencevideos.wordpress.com
  • 25. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 25 http://sciencevideos.wordpress.com
  • 26. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 26 http://sciencevideos.wordpress.com
  • 27. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division Meiosis II Meiosis II Separation of sister chromatids n-1 n-1 n+1 n+1 4.2 Meiosis (Core) 27 http://sciencevideos.wordpress.com
  • 28. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 28 http://sciencevideos.wordpress.com
  • 29. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division 4.2 Meiosis (Core) 29 http://sciencevideos.wordpress.com
  • 30. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction can occur anaphase I or anaphase II. In anaphase, a chromosome or pair of sister chromatids can be pulled to the wrong pole. Meiosis I Reduction division Meiosis II Meiosis II Separation of sister chromatids n+1 n n n-1 4.2 Meiosis (Core) 30 http://sciencevideos.wordpress.com
  • 31. Non-disjunction Non-disjunction leads to changes in chromosome number. Non-disjunction in Meiosis II Non-disjunction in Meiosis I Animation from BioStudio: http://www.biostudio.com/d_%20Meiotic%20Nondisjunction%20Meiosis%20II.htm Animation from BioStudio: http://www.biostudio.com/d_%20Meiotic%20Nondisjunction%20Meiosis%20I.htm Half of gametes affected. All gametes affected. 4.2 Meiosis (Core) 31 http://sciencevideos.wordpress.com
  • 32. Non-disjunction & Trisomy Disorders Non-disjunction produces gametes with an abnormal number of chromosomes. Fertilisation adds the homologous chromosomes… n n+1 4.2 Meiosis (Core) 32 http://sciencevideos.wordpress.com
  • 33. Non-disjunction & Trisomy Disorders Non-disjunction produces gametes with an abnormal number of chromosomes. Fertilisation adds the homologous chromosomes… n n+1 Resulting in a zygote and somatic cells with a trisomy of one chromosome. This can be fatal or cause disorders. 4.2 Meiosis (Core) 33 http://sciencevideos.wordpress.com
  • 34. Down Syndrome Trisomy 21 Non-disjunction in anaphase I or II leads to an extra copy of chromosome 21 in the gamete (usually the egg). Fertilisation by a sperm adds the homologous chromosome 21, leading to trisomy. Down Syndrome has very distinctive physical characteristics and patients have a slightly shortened life expectancy, learning difficulties and a generally happy nature. Computer-enhanced karyogram (adapted): http://www.smd.lt/bureliu_upload/genetika/karyogram.gif NSW Down Syndrome Video: http://www.youtube.com/watch?v=tDjnNDRP_2o 4.2 Meiosis (Core) 34 http://sciencevideos.wordpress.com
  • 35. Maternal Age and Down Syndrome Risk of Down Syndrome is strongly correlated with maternal age. Use this graph to generate your own data analysis questions. http://ibis.health.utah.gov/indicator/view/BrthDefDownSyn.BrthPrevAge.html 4.2 Meiosis (Core) 35 http://sciencevideos.wordpress.com
  • 36.
  • 37. What are the ethical issues regarding pre-natal testing and abortion?
  • 38. “Forewarned is forearmed,” Discuss. 4.2 Meiosis (Core) 36 http://sciencevideos.wordpress.com
  • 39. Karyotyping Pre-natal test used to check for gender and trisomy disorders. Extract fetal cells by amniocentesis or chorionic villus sampling. Culture cells and stimulate mitosis. Stop division in metaphase. Banding pattern Take a photograph under the light microscope or scan with a computer. Arrange chromosomes in homologous pairs based on size, banding patterns and centromere positions. 6. Check for gender (XX or XY) or trisomy disorders. Centromere position size Karyotype animation: http://learn.genetics.utah.edu/content/begin/traits/karyotype/ Step-by-step animation: http://www.mwit.ac.th/~bio/assets/karyotype_mutation.swf 4.2 Meiosis (Core) 37 http://sciencevideos.wordpress.com
  • 40.
  • 42.
  • 43. Via cervix or abdomen
  • 44. Risk of miscarriage: up to 1 in 100Find out more: what are the differences between 12-week and 15-week fetuses and how might this affect the mother’s decision making? 4.2 Meiosis (Core) 38 http://sciencevideos.wordpress.com
  • 45. Nuchal Translucency Scans Non-syllabus Amniocentesis and CVS cell extraction run a risk of miscarriage. The non-invasive nuchal translucency scan allows doctors to determine whether there is need for a karyotype. If the nuchal fold is large and fluid-filled, it can be an indicator of Down Syndrome. If it is normal, Down Syndrome is very unlikely. Nuchal translucency scan – is it positive or negative? http://www.youtube.com/watch?v=Jt3cX2vuMyM Find out more about Down Syndrome and screening from the UK’s NHS: http://www.nhs.uk/news/2008/11November/Pages/DownssyndromeQA.aspx Can you see the difference between these two scans? What advice would the doctor give? http://www.babycentre.co.uk/pregnancy/antenatalhealth/scans/nuchalscan/ 4.2 Meiosis (Core) 39 http://sciencevideos.wordpress.com
  • 46. Explain how inheritance of chromosome 21 can lead to Down Syndrome. 3 marks 4.2 Meiosis (Core) 40 http://sciencevideos.wordpress.com
  • 47.
  • 48. This is when a homologous pair of chromosome 21 fail to separate (anaphase I) or a pair of sister 21 chromatids fail to separate (anaphase II).
  • 49. It can occur in anaphase I or II.
  • 50.
  • 51. Analyse this Karyotype Gender: Trisomy: Computer-enhanced karyogram: http://www.smd.lt/bureliu_upload/genetika/karyogram.gif 4.2 Meiosis (Core) 42 http://sciencevideos.wordpress.com
  • 52.
  • 53. Analyse this Karyotype Gender: Trisomy: Karyogram from Tokyo Medical University: http://www.tokyo-med.ac.jp/genet/cki-e.htm 4.2 Meiosis (Core) 44 http://sciencevideos.wordpress.com
  • 54.
  • 55. Down SyndromeKaryogram from Tokyo Medical University: http://www.tokyo-med.ac.jp/genet/cki-e.htm 4.2 Meiosis (Core) 45 http://sciencevideos.wordpress.com
  • 56. Analyse this Karyotype Gender: Trisomy: Karyogram from Tokyo Medical University: http://www.tokyo-med.ac.jp/genet/cki-e.htm 4.2 Meiosis (Core) 46 http://sciencevideos.wordpress.com
  • 57.
  • 58. Edwards SyndromeKaryogram from Tokyo Medical University: http://www.tokyo-med.ac.jp/genet/cki-e.htm 4.2 Meiosis (Core) 47 http://sciencevideos.wordpress.com
  • 59. Analyse this Karyotype Gender: Trisomy: Karyogram from Tokyo Medical University: http://www.tokyo-med.ac.jp/genet/cki-e.htm 4.2 Meiosis (Core) 48 http://sciencevideos.wordpress.com
  • 60.
  • 61. For more IB Biology resources: http://sciencevideos.wordpress.com This presentation is free to view. Please make a donation to one of my chosen charities at Gifts4Good and I will send you the editable pptx file. Click here for more information about Biology4Good charity donations. 4.2 Meiosis (Core) 50 This is a Creative Commons presentation. It may be linked and embedded but not sold or re-hosted.