Difference between revisions of "AY Honors/Biochemistry/Answer Key"
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− | === | + | <noinclude></translate></noinclude> |
+ | <section begin="Body" /> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 1. Define the following terms: --> | ||
+ | |||
+ | <noinclude></translate></noinclude> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1a}} <!--T:3--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:40--> | <!--T:40--> | ||
A carbohydrate is a molecule that is present in living organisms consisting of carbon, hydrogen, and oxygen atoms. | A carbohydrate is a molecule that is present in living organisms consisting of carbon, hydrogen, and oxygen atoms. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1a --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1b}} <!--T:4--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:41--> | <!--T:41--> | ||
Lipids are a group of molecules that include fats, waxes, sterols, Vitamin A, Vitamin D, Vitamin E, Vitamin K, monoglycerides, diglycerides, triglycerides, phospholipids. Lipids store energy, used in binding protein targets, and structural components of the cell membrane. | Lipids are a group of molecules that include fats, waxes, sterols, Vitamin A, Vitamin D, Vitamin E, Vitamin K, monoglycerides, diglycerides, triglycerides, phospholipids. Lipids store energy, used in binding protein targets, and structural components of the cell membrane. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1b --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1c}} <!--T:5--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:42--> | <!--T:42--> | ||
Fatty Acids are carboxylic acids with a long hydrocarbon chain. They can be saturated or unsaturated. | Fatty Acids are carboxylic acids with a long hydrocarbon chain. They can be saturated or unsaturated. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1c --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1d}} <!--T:6--> | ||
+ | <noinclude><translate></noinclude> | ||
Proteins consist of one or more long chains of amino acid residues. They are large biomolecules. Proteins have a lot of functions in organisms such as DNA replication, catalyzing metabolic reactions, responding to stimuli, and transporting molecules from one to another. | Proteins consist of one or more long chains of amino acid residues. They are large biomolecules. Proteins have a lot of functions in organisms such as DNA replication, catalyzing metabolic reactions, responding to stimuli, and transporting molecules from one to another. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1d --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1e}} <!--T:7--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:43--> | <!--T:43--> | ||
A peptide is a compound consisting of two or more amino acids that are linked in a chain. They are short chains of amino acids. | A peptide is a compound consisting of two or more amino acids that are linked in a chain. They are short chains of amino acids. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1e --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1f}} <!--T:8--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:44--> | <!--T:44--> | ||
Enzymes are biological molecules that act as catalysts. They accelerate the chemical reactions. | Enzymes are biological molecules that act as catalysts. They accelerate the chemical reactions. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1f --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1g}} <!--T:9--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:45--> | <!--T:45--> | ||
Amino Acids are used by cells in the body to build proteins. | Amino Acids are used by cells in the body to build proteins. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1g --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1h}} <!--T:10--> | ||
+ | <noinclude><translate></noinclude> | ||
Nucleic acids can be DNA, RNA, mRNA, and TRNA. They help replicate cells, and build proteins. | Nucleic acids can be DNA, RNA, mRNA, and TRNA. They help replicate cells, and build proteins. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1h --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1i}} <!--T:11--> | ||
+ | <noinclude><translate></noinclude> | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1i --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1j}} <!--T:12--> | ||
+ | <noinclude><translate></noinclude> | ||
<!--T:46--> | <!--T:46--> | ||
A triglyceride is an ester which is a formation of carboxylic acid and alcohol. Triglycerides are the main body fat in mammals and vegetable fat. | A triglyceride is an ester which is a formation of carboxylic acid and alcohol. Triglycerides are the main body fat in mammals and vegetable fat. | ||
− | == | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1j --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=1k}} <!--T:13--> | ||
+ | <noinclude><translate></noinclude> | ||
− | ==2. What is the importance of water in organisms? What are the main physical and chemical characteristics of the water molecule? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 1k --> | ||
+ | {{CloseReq}} <!-- 1 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=2}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 2. What is the importance of water in organisms? What are the main physical and chemical characteristics of the water molecule? --> | ||
− | ==3. What does metabolism mean? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 2 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=3}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 3. What does metabolism mean? --> | ||
− | ==4. Biochemically, why do we feel hungry? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 3 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=4}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 4. Biochemically, why do we feel hungry? --> | ||
− | ==5. Explain how the glucose pathway occurs. | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 4 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=5}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 5. Explain how the glucose pathway occurs. --> | ||
[[File:Gluconeogenesis_pathway.png|thumb|400px]] | [[File:Gluconeogenesis_pathway.png|thumb|400px]] | ||
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{{clear}} | {{clear}} | ||
− | ==6. Which human cells depend only on this pathway for energy? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 5 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=6}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 6. Which human cells depend only on this pathway for energy? --> | ||
brain cells | brain cells | ||
− | ==7. Which molecule links the glucose pathway and the Krebs Cycle? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 6 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=7}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 7. Which molecule links the glucose pathway and the Krebs Cycle? --> | ||
Oxaloacetate is an intermediate in both these biochemical pathways, in the production of glucose from pyruvate and the Krebs Cycle . it is also involved in the urea cycle, the glyoxylate cycle, amino acid synthesis, and fatty acid synthesis. | Oxaloacetate is an intermediate in both these biochemical pathways, in the production of glucose from pyruvate and the Krebs Cycle . it is also involved in the urea cycle, the glyoxylate cycle, amino acid synthesis, and fatty acid synthesis. | ||
− | ==8. What is the importance of the Krebs Cycle? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 7 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=8}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 8. What is the importance of the Krebs Cycle? --> | ||
The citric acid cycle (also known as the Krebs Cycle after its discoverer '''Hans Adolf Krebs''') is a crucial metabolic pathway that takes the breakdown products from the food we eat (proteins, fats and sugars) and produces three NADH, one FADH2, and one GTP molecule. the NADH and FADH2 are fed into the oxidative phosphorylation (electron transport) pathway producing ATP the body's main energy storage molecule. NADH and FADH generate 2.5 and 1.5 ATP molecules respectively in oxidative phosphorylation. GTP can also be used to form an extra ATP. | The citric acid cycle (also known as the Krebs Cycle after its discoverer '''Hans Adolf Krebs''') is a crucial metabolic pathway that takes the breakdown products from the food we eat (proteins, fats and sugars) and produces three NADH, one FADH2, and one GTP molecule. the NADH and FADH2 are fed into the oxidative phosphorylation (electron transport) pathway producing ATP the body's main energy storage molecule. NADH and FADH generate 2.5 and 1.5 ATP molecules respectively in oxidative phosphorylation. GTP can also be used to form an extra ATP. | ||
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Porphyrins from succinyl-CoA are important components of the hemoproteins, such as hemoglobin, myoglobin and various cytochromes. | Porphyrins from succinyl-CoA are important components of the hemoproteins, such as hemoglobin, myoglobin and various cytochromes. | ||
− | ==9. What is the function of lipids? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 8 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=9}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 9. What is the function of lipids? --> | ||
− | ==10. Why are lipids insoluble in water? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 9 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=10}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 10. Why are lipids insoluble in water? --> | ||
− | ==11. Why are lipids, and not glucose, used for energy storage? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 10 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=11}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 11. Why are lipids, and not glucose, used for energy storage? --> | ||
The total energy gained from one (six-carbon) molecule of glucose in the citric acid cycle and oxidative phosphorylation equals about 30 ATP molecules. The number of ATP molecules derived from the same number of carbon atoms in a fatty acid chain is 40. So lipids are more efficient for energy storage. | The total energy gained from one (six-carbon) molecule of glucose in the citric acid cycle and oxidative phosphorylation equals about 30 ATP molecules. The number of ATP molecules derived from the same number of carbon atoms in a fatty acid chain is 40. So lipids are more efficient for energy storage. | ||
− | ==12. What is beta oxidation? Why does this pathway receive this name? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 11 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=12}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 12. What is beta oxidation? Why does this pathway receive this name? --> | ||
− | ==13. What are essential and non-essential amino acids? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 12 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=13}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 13. What are essential and non-essential amino acids? --> | ||
<!--T:47--> | <!--T:47--> | ||
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Our bodies make these amino acids. There are 4 types: asparagine, alanine, glutamic acid, aspartic acid. | Our bodies make these amino acids. There are 4 types: asparagine, alanine, glutamic acid, aspartic acid. | ||
− | ==14. What are ketone bodies, where are they produced, and what are the consequences of excess production? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 13 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=14}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 14. What are ketone bodies, where are they produced, and what are the consequences of excess production? --> | ||
− | ==15. What compounds are formed by the binding of amino acids? What are the main functions of these compounds? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 14 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=15}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 15. What compounds are formed by the binding of amino acids? What are the main functions of these compounds? --> | ||
<!--T:51--> | <!--T:51--> | ||
Amino Acids forms proteins. They are organic compounds when combined that help build cells. When proteins from the Amino Acids break down they leave Amino Acids. The body uses the amino acids to break down food, grow, repair cells and skin cells. They can be stored and used for energy. | Amino Acids forms proteins. They are organic compounds when combined that help build cells. When proteins from the Amino Acids break down they leave Amino Acids. The body uses the amino acids to break down food, grow, repair cells and skin cells. They can be stored and used for energy. | ||
− | ==16. What is the importance of nucleic acids? What is its structure like and what are its components? | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 15 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=16}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 16. What is the importance of nucleic acids? What is its structure like and what are its components? --> | ||
− | ==17. Draw a DNA molecule, with four nucleotides, naming its components. | + | <noinclude></translate></noinclude> |
+ | {{CloseReq}} <!-- 16 --> | ||
+ | {{ansreq|page={{#titleparts:{{PAGENAME}}|2|1}}|num=17}} | ||
+ | <noinclude><translate></noinclude> | ||
+ | <!-- 17. Draw a DNA molecule, with four nucleotides, naming its components. --> | ||
+ | <noinclude></translate></noinclude> | ||
+ | {{CloseReq}} <!-- 17 --> | ||
+ | <noinclude><translate></noinclude> | ||
==References== <!--T:30--> | ==References== <!--T:30--> | ||
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<!--T:32--> | <!--T:32--> | ||
<noinclude></translate></noinclude> | <noinclude></translate></noinclude> | ||
+ | <section end="Body" /> |
Revision as of 22:28, 24 December 2020
1
1a
A carbohydrate is a molecule that is present in living organisms consisting of carbon, hydrogen, and oxygen atoms.
1b
Lipids are a group of molecules that include fats, waxes, sterols, Vitamin A, Vitamin D, Vitamin E, Vitamin K, monoglycerides, diglycerides, triglycerides, phospholipids. Lipids store energy, used in binding protein targets, and structural components of the cell membrane.
1c
Fatty Acids are carboxylic acids with a long hydrocarbon chain. They can be saturated or unsaturated.
1d
Proteins consist of one or more long chains of amino acid residues. They are large biomolecules. Proteins have a lot of functions in organisms such as DNA replication, catalyzing metabolic reactions, responding to stimuli, and transporting molecules from one to another.
1e
A peptide is a compound consisting of two or more amino acids that are linked in a chain. They are short chains of amino acids.
1f
Enzymes are biological molecules that act as catalysts. They accelerate the chemical reactions.
1g
Amino Acids are used by cells in the body to build proteins.
1h
Nucleic acids can be DNA, RNA, mRNA, and TRNA. They help replicate cells, and build proteins.
1i
1j
A triglyceride is an ester which is a formation of carboxylic acid and alcohol. Triglycerides are the main body fat in mammals and vegetable fat.
1k
2
3
4
5
It is a metabolic pathway that results in the generation of glucose from certain non-carbohydrate carbon substrates; eg protein breakdown products (certain amino acids), glycerol from breakdown of triglycerides (lipids) and from other steps in metabolism including pyruvate and lactate.
6
brain cells
7
Oxaloacetate is an intermediate in both these biochemical pathways, in the production of glucose from pyruvate and the Krebs Cycle . it is also involved in the urea cycle, the glyoxylate cycle, amino acid synthesis, and fatty acid synthesis.
8
The citric acid cycle (also known as the Krebs Cycle after its discoverer Hans Adolf Krebs) is a crucial metabolic pathway that takes the breakdown products from the food we eat (proteins, fats and sugars) and produces three NADH, one FADH2, and one GTP molecule. the NADH and FADH2 are fed into the oxidative phosphorylation (electron transport) pathway producing ATP the body's main energy storage molecule. NADH and FADH generate 2.5 and 1.5 ATP molecules respectively in oxidative phosphorylation. GTP can also be used to form an extra ATP.
Citric acid cycle intermediates also also starting products for many important biosynthetic processes. Fatty acid synthesis and the production of cholesterol, which in turn, is used to synthesise the steroid hormones, bile salts, and vitamin D. Non-essential amino acids proline, glutamine and arginine the last two are converted to form the purines that are used as the bases in DNA and RNA, as well as in ATP, AMP, GTP, NAD, FAD and CoA. Aspartate from oxaloacetate can be converted unto the pyrimidines- thymine, cytosine and uracil, the complementary bases to the purine bases in DNA and RNA, and are also components of CTP, UMP, UDP and UTP. Porphyrins from succinyl-CoA are important components of the hemoproteins, such as hemoglobin, myoglobin and various cytochromes.
9
10
11
The total energy gained from one (six-carbon) molecule of glucose in the citric acid cycle and oxidative phosphorylation equals about 30 ATP molecules. The number of ATP molecules derived from the same number of carbon atoms in a fatty acid chain is 40. So lipids are more efficient for energy storage.
12
13
Essential Amino Acids
There are amino acids that cannot be made by the human body. They only come from food. There are 9 types of Essential Amino Acids. They are isoleucine, leucine, histidine, lysine, methionine, phenylalanine, threonine, valine, tryptophan
Non-Essential Amino Acids
Our bodies make these amino acids. There are 4 types: asparagine, alanine, glutamic acid, aspartic acid.
14
15
Amino Acids forms proteins. They are organic compounds when combined that help build cells. When proteins from the Amino Acids break down they leave Amino Acids. The body uses the amino acids to break down food, grow, repair cells and skin cells. They can be stored and used for energy.
16
17
References