Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide)...
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Transcript of Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide)...
![Page 1: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/1.jpg)
Homework
1. Make a table to contrast the features of fibrous and globular proteins (see next slide)
2. Worksheet protein structure and carbohydrate questions
3. Complete question sheet from todays practical
![Page 2: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/2.jpg)
Protease practical
![Page 3: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/3.jpg)
Proteins - Fibrous v globularFibrous Globular
Shape
Structure
Solubility
Stability
Function
Examples
![Page 4: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/4.jpg)
Proteins - Fibrous v globularFibrous Globular
Shape Long chains Ball
Structure Tightly wound secondary structure, tertiary twisted again quaternary multi chains loop around each other
Secondary usually a mixture of alpha helix and beta sheet, tertiary wound into a globular shape, can be quaternary structure
Solubility Insoluble – chains are h bonded to each other so few exposed groups to interact with water molecules
More soluble – forms a colloid – interactions between hydrophillic R groups and water
Stability So many h bonds that it takes a lot to disrupt the structure. Stable
Easily disrupted – denaturedLess bonds holding it together
Function Structural e.g. hair etc. Metabolism (chemical reactions in cells)
Examples Collagen – tendonsKeratin hair
Haemoglobin, antibodiesEnzymes, some hormones
![Page 5: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/5.jpg)
pH2
pH4
pH10
pH8
pH6
pH7
Fastest = pH7Next = pH63rd = pH104th = pH85th =pH4Denatured = pH2
![Page 6: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/6.jpg)
Results pH Time taken for
solution to clear/m
Rate = 1/timeIn m-1
1087642
![Page 7: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/7.jpg)
Graph
• Independent variable on the x axis =• Dependent variable on y axis =
![Page 8: Homework 1.Make a table to contrast the features of fibrous and globular proteins (see next slide) 2.Worksheet protein structure and carbohydrate questions.](https://reader035.fdocuments.in/reader035/viewer/2022072010/56649daf5503460f94a9d331/html5/thumbnails/8.jpg)
Worksheet questions 1. Remember the change in absorbance takes place because the enzyme is
digesting the protein in the milk powder solution. What is happening in the cuvette at pH7? Use the words protein, amino acids, soluble, insoluble, hydrolysis, enzyme =protease (neutrase) in your answer. (3 marks)
2. Which is the optimum pH for neutrase? (1 mark) What is the evidence from the data for this?(1 mark)
3. The textbook value for optimum pH for neutrase is 5.5-7.5. Do your results agree with this? (1 mark)
4. Why is using the colorimeter better than just taking the time the milk takes to clear by eye for each pH?(1 mark)
5. Can you criticise any of the plot lines (e.g. are they all smooth)? (1 mark)6. Why may these anomalies have occurred? (2 marks)7. How could you make the experiment more reliable? (3 marks)8. Why did we use buffer solutions? (1)