QWC Additional Travel Card Command word: Explain – Give reasons or mechanisms to address how or why something happens Connectives: Whereas, alternatively, unlike, equally, consequently, unless, if, as long as, however, such as, for instance, this means, . . . Question Alex is investigating the activity of an enzyme called salivary amylase. The enzyme breaks down starch into glucose, and is present in saliva in the human mouth. Alex eats chicken and chips for her lunch. She wonders which parts of her lunch will start to be digested by salivary amylase in her mouth. She knows that chicken meat is made of protein. Explain why salivary amylase will start digesting the chips in her mouth but will not start digesting the chicken. Value 6 marks Route Enzymes QWC Additional Travel Card Mark band 1-2 3-4 5-6 Success criteria Answer does not talk about specificity of the enzymes active site for the shape of starch. Limited use of specialist terms. SPAG weak. Answer describes some aspects of lock and key model. Specialist terms mostly used correctly. Occasional errors in SPAG. Answer clearly describes lock and key model and explains substrate specificity. Few, if any, errors in SPAG. Science Points chips/potatoes/plants contain starch (as an energy store) salivary amylase has an active site the shape of the active site complements the shape of a starch molecule only a starch molecule will fit into the enzyme’s active site and form an enzyme-substrate complex this is the ‘lock and key’ model chicken meat is made of protein, not starch protein will not fit into the enzyme’s active site and will not form an enzyme-substrate complex so will not be digested Route Enzymes QWC Additional Travel Card

QWC Additional Travel Card Command word: Outline – Set out key facts, steps or characteristics. Connectives: Whereas, alternatively, unlike, equally, consequently, unless, if, as long as, however, such as, for instance, this means, . . . Question Outline the main stages of photosynthesis and describe what plants do with the glucose made in the process. Value 6 marks Route Photosynthesis QWC Additional Travel Card Mark band 1-2 3-4 5-6 Success criteria There is a brief description of photosynthesis. Some key words but very limited. Poor SPAG Clear description of photosynthesis and at least one example of how glucose is used. Some SPAG errors. There is a clearly structured, balanced and detailed description of photosynthesis and uses of glucose. becomes a full organism. Excellent use of key words. Science Points Photosynthesis is the process by which plants make food/glucose By combining carbon dioxide from the air; With water obtained from the soil Photosynthesis takes place in the leaves; In structures called chloroplasts, which contain chlorophyll Light is absorbed by chlorophyll Light is used to split water into hydrogen and oxygen atoms. These atoms are rearranged/combine with carbon dioxide Oxygen is produced as a by product. Uses of glucose Glucose can be used by the plant for respiration/to generate energy; for active transport Glucose can be stored as starch Glucose can be combined with nitrates from the soil to create proteins such as enzymes Route Photosynthesis QWC Additional Travel Card

QWC Additional Travel Card Command word: Explain – Give reasons or mechanisms to address how or why something happens Connectives: Whereas, alternatively, unlike, equally, consequently, unless, if, as long as, however, such as, for instance, this means, . . . Question Making use of sketched graphs, explain how different factors can affect the rate of photosynthesis and potentially be “limiting factors”. Value 6 marks Route Photosynthesis QWC Additional Travel Card Mark band 1-2 3-4 5-6 Success criteria Names the3 factors that affect/speed up photosynthesis. Little detail about limiting factors. SPAG poor. Describes all three factors that affect the rate of photosynthesis. Explanation lacks detail or is confused. Some SPAG errors. Explains the term limiting factor clearly and how all three limiting factors effect the rate of photosynthesis. Few, if any, errors in SPAG. Science Points 3 factors can limit the speed of photosynthesis - light intensity, carbon dioxide concentration and temperature. A limiting factor is a factor that controls a process. For it to be a limiting factor, there has to be a low supply of this factor. When a limiting factor is increased, the rate of reaction will increase until other limiting factors limit rate. Each factor should be explained, for temperature the link with enzymes should be explained. Photosynthesis is controlled by enzymes. As the temperature increases so does the rate of reaction, up until an optimum. After this point the enzyme is denatured/enzyme’s active site changes shape so no E-S complexes can form. Route Photosynthesis QWC Additional Travel Card

Brief description of one difference or similarity. SPAG poor. Command word: Compare and contrast – What’s similar and different? Connectives: Whereas, alternatively, unlike, equally, consequently, unless, if, as long as, however, such as, for instance, this means, . . . Question Compare and contrast the processes of diffusion, osmosis and active transport. Value 6 marks Route Transport QWC Additional Travel Card Mark band 1-2 3-4 5-6 Success criteria Brief description of one difference or similarity. SPAG poor. Answer includes a description of either similarities or differences. There is good use of specialist terms. Some SPAG errors. There are examples given for both similarities and differences. Most of the key points are included and used accurately. Few, if any, errors in SPAG. Science Points Similarities: Both osmosis and diffusion move molecules/particles down a concentration gradient/high to low concentration Both osmosis and diffusion are passive/do not require energy. Both active transport and osmosis require a partially permeable membrane. Differences Active transport is different to osmosis and diffusion as it require energy/ATP; it moves molecules/particles against a concentration gradient. Active transport requires carrier proteins whereas diffusion and osmosis do not. Route Transport