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GENETICS (1.9) EXTERNAL. Intro  Genetics – study of inheritance. How genetic information is transferred from one generation to the next.

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Presentation on theme: "GENETICS (1.9) EXTERNAL. Intro  Genetics – study of inheritance. How genetic information is transferred from one generation to the next."— Presentation transcript:

1 GENETICS (1.9) EXTERNAL

2 Intro  Genetics – study of inheritance. How genetic information is transferred from one generation to the next.

3 Genetic Code  Genetic code – instructions for growth and development of the entire organism.

4 Genetic Code  Genetic code – instructions for growth and development of the entire organism.  This code determines whether a fertilised egg develops into a tree, bird, human etc. 

5 Genetic Code  Genetic code – instructions for growth and development of the entire organism.  This code determines whether a fertilised egg develops into a tree, bird, human etc.  This code is carried on the DNA which is found in the chromosomes contained in the nucleus of each cell.

6 Draw them, and have arrows pointing the direction from smallest to largest.

7 Chromosomes  Long, thread-like structures found in the nucleus of every cell.

8 Chromosomes  Long, thread-like structures found in the nucleus of every cell.  Each member of a species has the same number of chromosomes (eg. Horses have 66, humans have 46)

9 Chromosomes  Long, thread-like structures found in the nucleus of every cell.  Each member of a species has the same number of chromosomes (eg. Horses have 66, humans have 46)  Chromosomes are made up of DNA (DeoxyriboNucleic Acid), as well as protein.

10 Chromosomes  Long, thread-like structures found in the nucleus of every cell.  Each member of a species has the same number of chromosomes (eg. Horses have 66, humans have 46)  Chromosomes are made up of DNA (DeoxyriboNucleic Acid), as well as protein.  Chromosomes come in pairs, of similar size and shape, called homologous pairs – humans have 23 pairs.

11 Chromosomes  The 2 chromosomes of an homologous pair carry genetic information for the same characteristics (eg. Hair colour).

12 Chromosomes  The 2 chromosomes of an homologous pair carry genetic information for the same characteristics (eg. Hair colour).  One chromosome of each pair is inherited from the male parent, and the other from the female parent.

13 Chromosomes  The 2 chromosomes of an homologous pair carry genetic information for the same characteristics (eg. Hair colour).  One chromosome of each pair is inherited from the male parent, and the other from the female parent.  Chromosomes are not visible until just before the cell divides, when each chromosome becomes shorter and thicker and can be seen through a microscope.

14 DNA  DNA is a long molecule that has the same basic structure in all living things.

15 DNA  DNA is a long molecule that has the same basic structure in all living things.  All genetic info a cell needs to grow, function, and reproduce is coded within the cell’s DNA.

16 DNA  DNA is a long molecule that has the same basic structure in all living things.  All genetic info a cell needs to grow, function, and reproduce is coded within the cell’s DNA.  DNA carries the info for which cells grow, when they grow, which cells make hair, or feathers/fur and what colour this will be.

17 Structure of DNA  Known as a double helix

18 Structure of DNA  Known as a double helix  When untwisted, it looks like a ladder. The ‘sides’ of the ladder are made up of thousands of sugar and phosphate groups

19 Structure of DNA  Known as a double helix  When untwisted, it looks like a ladder. The ‘sides’ of the ladder are made up of thousands of sugar and phosphate groups  The ‘rungs’ of the ladder are made of nitrogen bases – the bases join to the sugar molecules.

20 Structure of DNA  Known as a double helix  When untwisted, it looks like a ladder. The ‘sides’ of the ladder are made up of thousands of sugar and phosphate groups  The ‘rungs’ of the ladder are made of nitrogen bases – the bases join to the sugar molecules.  Bases are very important because their order forms the genetic code.

21 Base pairing  A – T  C – G ALWAYS

22 Proteins  The order of bases along the DNA molecule is the genetic code – this code ‘tells’ the cell what substances to make so the cell can live, grow and replicate.

23 Proteins  The order of bases along the DNA molecule is the genetic code – this code ‘tells’ the cell what substances to make so the cell can live, grow and replicate.  Three bases in a row are called a triplet and code for a particular amino acid

24 Proteins  The order of bases along the DNA molecule is the genetic code – this code ‘tells’ the cell what substances to make so the cell can live, grow and replicate.  Three bases in a row are called a triplet and code for a particular amino acid  Amino acids are the building blocks of proteins.

25 Proteins  The order of bases along the DNA molecule is the genetic code – this code ‘tells’ the cell what substances to make so the cell can live, grow and replicate.  Three bases in a row are called a triplet and code for a particular amino acid  Amino acids are the building blocks of proteins.  A gene is made of a sequence of amino’s coding for a particular protein.

26 Proteins  Are important because: - They form skin, bones, hair - Make up enzymes which control the chemical reaction of cells (eg. Pepsin and lipase are produced by cells to digest our food)

27 DNA replication  (I will draw on the board)

28 Mutations  Errors can occur in the base pairing when DNA replicates, giving a changed order of bases.

29 Mutations  Errors can occur in the base pairing when DNA replicates, giving a changed order of bases.  A mutation = a change in the genetic code.

30 Mutations  Errors can occur in the base pairing when DNA replicates, giving a changed order of bases.  A mutation = a change in the genetic code.  They may be spontaneous and random, or they can be influenced by environmental factors such as: - Radiation from the sun/nuclear reaction

31 Mutations  Errors can occur in the base pairing when DNA replicates, giving a changed order of bases.  A mutation = a change in the genetic code.  They may be spontaneous and random, or they can be influenced by environmental factors such as: - Radiation from the sun/nuclear reaction - Chemicals known as carcinogens (nicotine etc)

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