Exemplar Mendel Newspaper Homework. DNA structure, function and fingerprinting B2 5.4 Text p.192-3.

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Presentation transcript:

Exemplar Mendel Newspaper Homework

DNA structure, function and fingerprinting B2 5.4 Text p.192-3

Lesson outcomes Explain simply the structure of DNA. Explain how a gene codes for a specific protein. Know that a mutation is a change in the code, and that it results in a different protein. Mutations create different versions of genes called ALLELES. DNA fingerprinting- principle and applications.

Video – Mendel Big Questions- first half Why did people not accept his ideas at first? No one could see chromosomes so no proof of their existence. Results too perfect? Fiddled? Only a monk not a scientist. Published results in an obscure journal which no one read.

Mendel syllabus explain why Mendel proposed the idea of separately inherited factors and why the importance of this discovery was not recognised until after his death They should understand that Mendel’s work preceded the work by other scientists which linked Mendel’s ‘inherited factors’ with chromosomes

DNA Show and tell model Basic components and how a gene codes for a protein Colour label and stick in a picture of DNA

Why are cells different? An oak tree has about 30 different types of cells. How many different types of cells are humans made of? Our bodies have more than 300 different types of cells. Why do cells have different characteristics?

Why are cells different? Different types of cells produce different types of proteins. Enzymes in plants control photosynthesis. Keratin is a protein in hair, nails and some skin cells. Elastin and collagen are other proteins in skin. Outer shells of insects contain hardening proteins. What are proteins made of?

Proteins are long molecules made from chemical units called amino acids. protein molecule amino acid What happens if amino acids are combined in a different order? Different combinations of amino acids make different proteins.

Connecting proteins and genes Consider the following two statements… Genes carry the instructions for inherited characteristics. Cells have different characteristics because they make different types of proteins. What is the connection between genes and proteins? Genes contain the instructions for making proteins. What molecule has the instructions for making proteins?

How do genes make proteins? Genes are made of DNA. Proteins are made of amino acids. Each amino acid is coded for on the DNA by its own special sequence of three bases called a triplet: triplet amino acid

How do genes make proteins? The amino acids join together to form a protein molecule. Each gene contains the sequence of bases for one protein. The order of triplets in a gene determines the sequence of amino acids. Why is the sequence of bases in DNA called the genetic code?

How do genes make proteins? The genetic code is the order of DNA bases which determines the sequence of amino acids in a protein. How many triplets code for a protein of 20 amino acids? 1 amino acid = 1 triplet 20 amino acids = 20 triplets How many bases code for a protein of 20 amino acids? 20 triplest x 3 bases per triplet = 60 BASES

DNA mutations and proteins A mutation is a change in the sequence of bases in DNA. Mutations can be caused by mistakes in copying DNA or the effects of ionising radiation, cigarette smoke, UV light and heavy metal ions. Will the mutated version of DNA make the same protein? mutation

DNA mutations and proteins A DNA mutation changes the amino acid sequence and so a different protein may be produced. If genes produce incorrect proteins, cells may not function properly. This is the cause of many inherited diseases. Link to mutation explanation

Genetic code quiz

DNA model WHAT DO WE ALREADY KNOW?

DNA (deoxyribonucleic acid) The order of the bases on DNA form the genetic code 3 bases are the code for an amino acid 2 backbones twisted together makes DNA a double helix

DNA syllabus Chromosomes are made up of large molecules of DNA (deoxyribo nucleic acid) which has a double helix structure. A gene is a small section of DNA. Each gene codes for a particular combination of amino acids which make a specific protein. Additional guidance: Candidates are not expected to know the names of the four bases or how complementary pairs of bases enable DNA replication to take place.

Genetic fingerprinting Read text p. 209

DNA fingerprinting syllabus Each person (apart from identical twins) has unique DNA. This can be used to identify individuals in a process known as DNA fingerprinting.

Build your own protein molecule

Exemplar Mendel Newspaper Homework