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Sickle Cell Anaemia – page 126 Now lets see how sickle.

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1 Sickle Cell Anaemia – page 126 http://www.youtube.com/watch?v=9UpwV1tdxcs http://www.youtube.com/watch?v=bCOJkpL7MVw&feature=related Now lets see how sickle cell can be inherited Symbols for alleles = H A = healthy H S = sickle cell Complete question 4, booklet page 7

2 Symbols for alleles = H A = healthy H S = sickle cell A heterozygous sickle cell trait mother has a child with a husband who has the sickle cell disease. What is the chance of the child inheriting the disease? 50% sickle cell disease and 50% sickle cell trait.

3 ABO Blood Groups – Multiple Alleles (showing codominance) for one gene. http://www.medindia.net/animation/blood-groups.asp http://waynesword.palomar.edu/aniblood.htm Allele I A is codominant with I B, but I o is recessive to both. Write out all the possible genotypes and their phenotypes GenotypePhenotype – Blood Group I A A

4 Roan (pinkish) cattle are produced by codominant alleles – explain. Complete question 1 and 2 page 127

5 Answer to question 1 1. What are genotypes of parents? Cows = red, so must be C R C R Calves = 50% red (C R C R ) or roan (C R C W ) So, dad was C R C W

6 C W C B Answer Question 2 Grey Swedish Blue Ducks!

7 Answer to question 2 What are genotypes of offspring? Grey = C W C B, White = C W C W, Black = C B C B How could he always get Swedish blue ducks? Swedish blue = grey, so breed C W C W with C B C B to always get C W C B (grey) offspring. Now for Dihybrid crosses, page 8, 9 and 10

8 Dihybrid Cross – investigating 2 characteristics (phenotypes) at a time. 2 genotypes are therefore written side by side. e.g. SSbb x ssBB See page 8, 9 and 10.

9 Dihybrid Cross Animation – see booklet page 8 http://trc.ucdavis.edu/biosci10v/bis10v/media/ch08/dihyb rid_v2.htmlhttp://trc.ucdavis.edu/biosci10v/bis10v/media/ch08/dihyb rid_v2.html http://science.nhmccd.edu/Biol/dihybrid/dihybrid.html Websites for practise http://www.ksu.edu/biology/pob/genetics/intro.htm Mono and dihybrid problems for brain warm ups http://www.biology.arizona.edu/mendelian_genetics/prob lem_sets/monohybrid_Cross/monohybrid_cross.htmlhttp://www.biology.arizona.edu/mendelian_genetics/prob lem_sets/monohybrid_Cross/monohybrid_cross.html

10 AIMS Collect in homework questions (I can start marking them!) Promonitor Test Give out Question Sheets to those not at yesterday’s lesson. Test Crosses Starter Sex linkage Chi squared Homework for tomorrow – Question 7 on sheets from yesterday

11 Starter - The Test Cross If breeders have e.g. a bitch showing the dominant characteristic (black coat colour) then how can they find out by breeding her, if she is homozygous or heterozygous for black? Always breed with a double recessive dog, (brown). What will the two possible alternative outcomes for the puppies be? She is homozygous – no chance of brown; always all black She is heterozygous – a chance that brown puppies might be born – even one will show bitch is heterozygous. See ratio summary page in booklet.

12 KARYOTYPES

13 What makes one male and one female?

14 Male or female?

15 Linkage of genes can be on any chromosomes including the X and Y sex chromosomes.

16 Linkage LINKAGE - 2 or more genes are located (linked) on the same chromosome. Tall plant Smooth seed Linkage reduces the possible combinations of genes during meiosis and therefore reduces the phenotypes resulting from a cross. So, no ____________ ______________ at ___________ __

17 Why is this boy still bleeding after a fall?

18 Haemophilia – page 124 http://www.youtube.com/watch?v=a8s8Al3rX_4&feature=related http://www.youtube.com/watch?v=F0ZoEGnTAM0&feature=related So clotting can not take place. How is it inherited? See Royal Family Tree page 13

19 Albert Sex-linkage in the Royal Family. See page 12

20 Alice Leopold Beatrice Queen Victoria

21 Queen Victoria's male descendants were cursed with poor health. The 19th century British monarch's son Leopold, Duke of Albany, died from blood loss after he slipped and fell. Her grandson Friedrich bled out at age 2; her grandsons Leopold and Maurice, at ages 32 and 23, respectively. The affliction, commonly known as the "Royal disease," spread as Victoria's heirs married into royal families across Europe, decimating the thrones of Britain, Germany, Russia, and Spain. Based on the symptoms, modern researchers concluded that the royals suffered from hemophilia--a genetic disease that prevents blood from clotting--but there was never any concrete evidence. Now, new DNA analysis on the bones of the last Russian royal family, the Romanovs, indicates the Royal disease was indeed hemophilia, a rare subtype known as hemophilia B. Hemophilia prevents proteins known as fibrins from forming a scab over a cut or forming clots to stop internal bleeding. Even minor injuries can lead to bleeding, which lasts for days or weeks and can be fatal. The disease is recessive and is carried on the X chromosome, meaning that men are more likely to develop it, whereas women usually act as carriers and don't show symptoms. Such was the case with Prince Alexei Romanov, son of Tsar Nicholas II, great-grandson of Queen Victoria, and heir to the Russian throne. From an early age, Alexei was prone to prolonged bleeding, and his family feared that he wouldn't make it through his first month of life, says Evgeny Rogaev, a geneticist at the University of Massachusetts Medical School in Worcester. The disease didn't kill Alexei, however: He was murdered at age 13 in 1918 along with the rest of the Russian royal family following the Russian Revolution. Earlier this year, Rogaev and his colleagues reported that, based on DNA analysis, the bodies of two children found near the murder site were indeed those of Alexei and his sister Maria. They further confirmed that the other bodies near the site belonged to the rest of the Romanov family. But Rogaev wanted to solve the final Romanov riddle: Did they really suffer from hemophilia? He and colleagues analyzed DNA from the royal bone fragments again, this time looking for genetic markers of hemophilia. The most common type of the disease, hemophilia A, accounts for about 80% of hemophilia cases and is caused by a mutation to a gene called F8, which encodes a protein involved in blood clotting. They didn't find the mutation. So Rogaev moved on to looking for a rarer form of the disease, hemophilia B, which involves another gene, F9. This time, the team found a mutation in F9, which would have inhibited clotting, in bones from Alexei, his sister Anastasia, and their mother Alexandra. So they had the rare form of Haemophilia B

22 Inheritance of Sex-linked Haemophilia – page 11 There is generally no room for any other genes besides sex genes on the Y chromosome. Answer question 1, page 125, and use page 12 See above punnett square!

23 Red – green colour blindness. What numbers can you see? How is it inherited? Answer question 2, page 125 Mother! He passes his X c to his daughter and his Y to a son.

24 In Fruit flies the gene for eye colour is on the X chromosome. Answer question 3 on page 125 See board for answer

25 Use pages 21 to 24 to find out about and use the Chi squared Test. Key definition (Note down) The Chi 2 statistical test finds out if the difference between observed and expected data is small enough to be due to chance. If the observed is significantly different from the expected, then the genetic theory behind the expected data must be wrong and a new theory must be found. (See next slide)

26 Chi squared can be used: When data is in categories. Where we have a strong theory to predict the expected data. The sample size is large. Remember – only real (raw) data can be used.

27 Starter – question 2, A4 Genetics Problems sheet and 4 c) ii (A3 sheet)

28 XbXb Y

29 AIMS Check Homework page 15 (cats) and quest 7 Autosomal Linkage, page 16/17. Epistasis Genetic Challenge Polygenic inheritance Effect of Environment Homework – Complete questions already set and then Stretch and challenge page 133 + questions 5 and 6 and complete pages 25 - 27 of booklet.

30 Sex – linkage in Cats. How are both black and ginger expressed in female cat coats?

31 Duchenne Muscular Dystrophy Answer question 4/5, page 125

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