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Tracing Matter and Energy Rubric

___/4 Correctly sequences four main steps (biosynthesis, digestion, photosynthesis, cellular respiration) for how a labeled carbon atom from atmospheric CO2 can end up in a human muscle protein

___/4 Biosynthesis (type of metabolic process, energy source, matter source, process description)

___/4 Digestion (type of metabolic process, energy source, matter source, process description)

___/4 Photosynthesis (type of metabolic process, energy source, matter source, process description)

___/6 Cellular respiration (type of metabolic process, energy source, matter source, process description for glycolysis, Krebs cycle and ETS of aerobic cellular respiration)

___/2 Diagram or flowchart format is clear and easy to interpret

Tracing Matter and Energy Rubric

___/4 Correctly sequences four main steps (biosynthesis, digestion, photosynthesis, cellular respiration) for how a labeled carbon atom from atmospheric CO2 can end up in a human muscle protein

___/4 Biosynthesis (type of metabolic process, energy source, matter source, process description)

___/4 Digestion (type of metabolic process, energy source, matter source, process description)

___/4 Photosynthesis (type of metabolic process, energy source, matter source, process description)

___/6 Cellular respiration (type of metabolic process, energy source, matter source, process description for glycolysis, Krebs cycle and ETS of aerobic cellular respiration)

___/2 Diagram or flowchart format is clear and easy to interpret

Tracing Matter and Energy Rubric

___/4 Correctly sequences four main steps (biosynthesis, digestion, photosynthesis, cellular respiration) for how a labeled carbon atom from atmospheric CO2 can end up in a human muscle protein

___/4 Biosynthesis (type of metabolic process, energy source, matter source, process description)

___/4 Digestion (type of metabolic process, energy source, matter source, process description)

___/4 Photosynthesis (type of metabolic process, energy source, matter source, process description)

___/6 Cellular respiration (type of metabolic process, energy source, matter source, process description for glycolysis, Krebs cycle and ETS of aerobic cellular respiration)

___/2 Diagram or flowchart format is clear and easy to interpret

Tracing Matter and Energy (p 467-469)

1. Construct a diagram or flowchart to show a plausible set of events that could explain how a labeled carbon atom in a molecule of atmospheric carbon dioxide ends up in a human muscle protein.

2. Label your diagram so that it explains the illustrated sequence of events. Clearly state the following.

a. The type of metabolic process in each step (breakdown or biosynthesis)

b. The energy source for each step

c. The matter source for each step

d. The processes’ role in how the labeled carbon atom from atmospheric CO2 ends up in a human muscle protein.

Tracing Matter and Energy (p 467-469)

1. Construct a diagram or flowchart to show a plausible set of events that could explain how a labeled carbon atom in a molecule of atmospheric carbon dioxide ends up in a human muscle protein.

2. Label your diagram so that it explains the illustrated sequence of events. Clearly state the following.

a. The type of metabolic process in each step (breakdown or biosynthesis)

b. The energy source for each step

c. The matter source for each step

d. The processes’ role in how the labeled carbon atom from atmospheric CO2 ends up in a human muscle protein.

Tracing Matter and Energy (p 467-469)

1. Construct a diagram or flowchart to show a plausible set of events that could explain how a labeled carbon atom in a molecule of atmospheric carbon dioxide ends up in a human muscle protein.

2. Label your diagram so that it explains the illustrated sequence of events. Clearly state the following.

a. The type of metabolic process in each step (breakdown or biosynthesis)

b. The energy source for each step

c. The matter source for each step

d. The processes’ role in how the labeled carbon atom from atmospheric CO2 ends up in a human muscle protein.

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Word Bank:

Four Steps: Biosynthesis, Digestion, Photosynthesis, Cellular respiration, (glycolysis, Krebs cycle, ETS)

Sun, Plant, Cow, Human, Human muscle protein, Carbon dioxide, ATP, Glucose, Proteins, Amino Acids, Biosynthesis / Breakdown

Word Bank:

Four Steps: Biosynthesis, Digestion, Photosynthesis, Cellular respiration, (glycolysis, Krebs cycle, ETS)

Sun, Plant, Cow, Human, Human muscle protein, Carbon dioxide, ATP, Glucose, Proteins, Amino Acids, Biosynthesis / Breakdown

Word Bank:

Four Steps: Biosynthesis, Digestion, Photosynthesis, Cellular respiration, (glycolysis, Krebs cycle, ETS)

Sun, Plant, Cow, Human, Human muscle protein, Carbon dioxide, ATP, Glucose, Proteins, Amino Acids, Biosynthesis / Breakdown

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