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Title: Meiosis How much do you think we have left of the course? What dates are your exams? Homework Breadth in biology Depth in biology 25th May 06th June • To have brought your Science Summary Sheets up to date, including past paper questions to match each area (record the year, exam board, paper and question number for each). • You then need to complete and self-assess at least 10 of these past exam questions and bring in evidence of this on Tues 29th. Learning Outcomes • Describe what homologous chromosomes are. • Identify the stages of meiosis and describe them. • Explain the significance of meiosis in sexual reproduction. • Explain the mechanisms of genetic variation by crossing over and independent assortment. Learning Outcomes • Describe what homologous chromosomes are. • Identify the stages of meiosis and describe them. • Explain the significance of meiosis in sexual reproduction. • Explain the mechanisms of genetic variation by crossing over and independent assortment. Chromosome Structure But you have 23 pairs of chromosomes, so... Before DNA replication After DNA replication Gene for eye colour Brown eyed allele Blue eyed allele Gene for enzyme A Homologous chromosomes are the same size and have the same genes, but may have different alleles. So what is the difference between a pair of homologous chromosomes and a pair of sister chromatids? Brown eyed allele Brown eyed allele Sister chromatids are joined at the centromere, are the same size, have the same genes and have the same alleles. Haploid Vs Diploid • Diploid cells – Normal body cells – 2 homologous chromosomes (pairs of chromosomes) • Haploid cells – Sex cells - only one of each homologous chromosome (singular chromosomes) Haploid gametes Diploid Zygote Learning Outcomes • Describe what homologous chromosomes are. • Identify the stages of meiosis and describe them. • Explain the significance of meiosis in sexual reproduction. • Explain the mechanisms of genetic variation by crossing over and independent assortment. Learning Outcomes • Describe what homologous chromosomes are. • Identify the stages of meiosis and describe them. • Explain the significance of meiosis in sexual reproduction. • Explain the mechanisms of genetic variation by crossing over and independent assortment. Chromosomes go from single to sister chromatids Chromosomes go from single to sister chromatids Division 1: homologous chromosomes separate Division 2: chromatids separate Single division – chromatids separated (12 chromatids) (6 chromatids) (3 chromatids) Meiosis Animation Whilst you are watching the video, write 3 questions to test each other with. • What? • When? • Where? • Why? www.sumanasinc.com/webcontent/animations/ content/meiosis.html Prophase I Blocks of genes are swapped Bivalents A bivalent, sometimes referred to as a tetrad, is a pair of associated homologous chromosomes held together by a complex after chromosome replication. © Pearson Education Ltd 2009 This document may have been altered from the original Metaphase I © Pearson Education Ltd 2009 This document may have been altered from the original Anaphase I © Pearson Education Ltd 2009 This document may have been altered from the original Telophase I © Pearson Education Ltd 2009 This document may have been altered from the original Prophase II © Pearson Education Ltd 2009 This document may have been altered from the original Metaphase II © Pearson Education Ltd 2009 This document may have been altered from the original Anaphase II © Pearson Education Ltd 2009 This document may have been altered from the original Telophase II Starting diploid cell © Pearson Education Ltd 2009 This document may have been altered from the original Your Tasks 1. Cut out each of the cards showing the stages of meiosis and put them into the correct order. 2. Complete the table on your revision sheet to compare mitosis and meiosis. Explain the changes in amount on DNA shown on the meiosis graph below. INTERPHASE A MEIOSIS 1: homologous chromosomes pulled to each pole B MEIOSIS 2: chromatids pulled to each pole C Half the amount of original DNA Learning Outcomes • Describe what homologous chromosomes are. • Identify the stages of meiosis and describe them. • Explain the significance of meiosis in sexual reproduction. It creates variation!! • Explain the mechanisms of genetic variation by crossing over and independent assortment. Why is variation important for evolution? • Some have better adapted characteristics than others for a certain environment. • Natural selection occurs / survival of fittest. • Eventually gene pool will change so much that a new species evolves. Variation due to Crossing Over in prophase 1 • Chiasma- point of crossing (Chiasmata – plural) • Genetic recombination Variation due to Independent segregation In ANAPHASE 1 the chromosomes can be segregated (assorted in any random combination) Variation due to Random Fertilisation Gametes are genetically different as a result of different combinations of maternal and paternal chromosomes Learning Outcomes • Describe what homologous chromosomes are. • Identify the stages of meiosis and describe them. • Explain the significance of meiosis in sexual reproduction. • Explain the mechanisms of genetic variation by crossing over and independent assortment. Practice Exam Questions!! p146, Application Questions