Meiosis and Genetic Variation Modified by Alevelsolutions.com.

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Meiosis and Genetic Variation Modified by Alevelsolutions.com

Learning Objectives To learn why meiosis is necessary. To understand what happens during meiosis. To realise how meiosis creates genetic variation.

Key Words Haploid Diploid Chromatid Homologous pairs Bivalent Cross over Independent segregation Alleles Synapsis

Key words definition Haploid – Single set of unpaired chromosomes Diploid - containing two complete sets of chromosomes, one from each parent. Chromatid - each of the two thread-like strands into which a chromosome divides Homologous pairs - A homologous chromosome is a set of one maternal chromosome and one paternal chromosome that pair up with each other inside a cell during meiosis.

Key words definition Bivalent - a pair of homologous chromosomes. During meiosis (the Prophase I) Cross-over - is the exchange of genetic material between homologous chromosomes Independent segregation - formation of random combinations of chromosomes in meiosis Alleles - same form of the same gene Synapsis - the side by side pairing of homologous maternal and paternal chromosomes at the start of meiosis

Passing Information to the Next Generation Humans are similar because we all have the same genes. What gives us our quirky differences though, is the inheritance of different alleles to those genes. How you doin’? Gametes join together at fertilisation to form a zygote. Gametes always have half the normal amount of DNA in them, compared to regular body cells. This is so that when two gametes combine, the resulting zygote contains the correct amount of DNA. You look like a rat.

Diploid and Haploid Normal body cells have the normal number of chromosomes 46 We call these cells DIPLOID. It means that each body cell contains two of each chromosome – one from mum and one from dad. Gametes though, have half the normal number of chromosomes 23 We call these cells HAPLOID. There’s only one copy of each chromosome. You might see this explained elsewhere as ‘2n’. And this might be explained as just ‘n’. At fertilisation, a haploid sperm will fuse with a haploid egg.... which makes a cell with the normal, diploid number of chromosomes

WHADOOSH! nn 2n

Gametes are Formed by Meiosis Meiosis is just a type of cell division. Unlike mitosis though, it’s outcome is insanely different. Meiosis happens in your reproductive organs. Ovaries if your a girl... Testicles if you’re a dude... But how ? Someone draw the outcome of mitosis here: As you can see by __________’s brilliant drawing, mitosis results in TWO, IDENTICAL DAUGHTER CELLS! Just like the parent cell, the daughter cells are both diploid too.

Meiosis Involves 2 Nuclear Divisions It’s easy to explain why meiosis requires two nuclear divisions. You already know that gametes need to be haploid divisions will get you from diploid to haploid. MumDad Meiosis begins by just taking a regular, diploid body cell. Meiosis IMeiosis II 2n 2 x 2n 2n n n n n

A Quick Summary Just like any cell in the cell cycle, a regular cell is minding it’s own business as it goes through interphase. We know that during interphase, a cell with replicate it’s DNA. Meiosis I then occurs. Homologous pairs are separated, halving the chromosome number. Meiosis II then occurs. Now, sister chromatids are separated. Meiosis II is what causes ‘2n’ (diploid) cells to become ‘n’ (haploid) cells.

Prophase Metaphase Anaphase Telophase Remember these words? meiosis I I I I I meiosis II Prophase II Metaphase II Anaphase II Telophase II

MEIOSIS CREATES GENETIC VARIATION

Genetic Variation During all of the amazing things that happen during meiosis, two events in particular, are very interesting. These two processes create genetic variation during meiosis: 1.Crossing Over 2.Independent Segregation of Chromosomes Independent segregation happens in metaphase I. Basically, when the homologous chromosomes line up, they do so randomly. This means that when they are pulled apart in anaphase, the combination of chromosomes going into the daughter cells is also random. Independent segregation happens in metaphase I. Basically, when the homologous chromosomes line up, they do so randomly. This means that when they are pulled apart in anaphase, the combination of chromosomes going into the daughter cells is also random. Crossing over occurs during prophase I. Basically the two chromosomes in each homologous pair twist around each other. Wherever they ‘touch’, genetic material is swapped between them. At the end of crossing over the genetic composition of each c’some is now different Crossing over occurs during prophase I. Basically the two chromosomes in each homologous pair twist around each other. Wherever they ‘touch’, genetic material is swapped between them. At the end of crossing over the genetic composition of each c’some is now different

Crossing Over During prophase I, the individual chromosomes of each homologous pair, come into very close contact with each other. They twist and almost look ‘tangled’. Wherever the chromatids cross over, is called a chiasma Now we are ready for the next process that confers genetic variation.... INDEPENDENT SEGREGATION OF CHROMOSOMES...