Chapter 15: Problem 5
Match the terms in the two columns. (a) Cellular energy currency _____ (b) Anabolic electron carrier _____ (c) Phototroph _____ (d) Catabolic electron carrier _____ (e) Oxidation-reduction reaction _____ (f) Activated carrier of two-carbon fragments _____ (g) Vitamin _____ (h) Anabolism _____ (i) Amphibolic reaction _____ (j) Catabolism _____ 1\. \(\mathrm{NAD}^{+}\) 2\. Coenzyme A 3\. Precursor to coenzymes 4\. Yields energy 5\. Requires energy 6\. ATP 7\. Transfers electrons 8\. \(\mathrm{NADP}^{+}\) 9\. Converts light energy into chemical energy 10\. Used in anabolism and catabolism
Short Answer
Expert verified
a-6, b-8, c-9, d-1, e-7, f-2, g-3, h-5, i-10, j-4
Step by step solution
01
Match Cellular Energy Currency
Identify which term from column 1 represents the cellular energy currency. The common term for cellular energy is ATP. Therefore, (a) Cellular energy currency matches with 6.
02
Match Anabolic Electron Carrier
Determine which term from column 2 is an anabolic electron carrier. The electron carrier primarily involved in anabolic reactions is NADP⁺. So, (b) Anabolic electron carrier matches with 8.
03
Identify Phototroph
Phototrophs are organisms that convert light energy into chemical energy. Hence, (c) Phototroph matches with 9.
04
Match Catabolic Electron Carrier
Find the term in column 2 that matches as a catabolic electron carrier. NAD⁺ is involved in catabolic reactions. Thus, (d) Catabolic electron carrier matches with 1.
05
Identify Oxidation-Reduction Reaction
Oxidation-reduction reactions involve the transfer of electrons. Thus, (e) Oxidation-reduction reaction matches with 7.
06
Match Activated Carrier of Two-Carbon Fragments
Locate the term in column 2 that indicates an activated carrier for two-carbon fragments. Coenzyme A is known for this role, so (f) Activated carrier of two-carbon fragments matches with 2.
07
Identify Vitamin
Vitamins often serve as precursors to coenzymes. Therefore, (g) Vitamin matches with 3.
08
Match Anabolism
Anabolism refers to the building up of complex molecules, which requires energy. Therefore, (h) Anabolism matches with 5.
09
Identify Amphibolic Reaction
Amphibolic reactions are those that can be used in both anabolism and catabolism. Thus, (i) Amphibolic reaction matches with 10.
10
Match Catabolism
Catabolism involves the breakdown of molecules to release energy. Thus, (j) Catabolism matches with 4.
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Key Concepts
These are the key concepts you need to understand to accurately answer the question.
Cellular Energy
Cellular energy is the fuel that powers all the processes within a cell. It is vital for maintaining the cell's structure and function.
At the core of cellular energy is ATP or adenosine triphosphate. ATP is often called the "molecular currency" of energy transfer within cells.
It stores energy in its high-energy phosphate bonds, and when these bonds are broken, energy is released.
Cells use this energy to perform various functions such as muscle contraction, nerve impulse propagation, and chemical synthesis.
At the core of cellular energy is ATP or adenosine triphosphate. ATP is often called the "molecular currency" of energy transfer within cells.
It stores energy in its high-energy phosphate bonds, and when these bonds are broken, energy is released.
Cells use this energy to perform various functions such as muscle contraction, nerve impulse propagation, and chemical synthesis.
- Without ATP, cells wouldn't be able to function or even survive.
Anabolic Reactions
Anabolic reactions are essential for growth and repair in living organisms. They involve the synthesis of complex molecules from simpler ones.
These reactions typically require an input of energy, often derived from ATP. In anabolism, small molecules like amino acids and nucleotides are assembled into larger molecules like proteins and nucleic acids.
This process is crucial for cell growth, repair, and the maintenance of cellular structures.
These reactions typically require an input of energy, often derived from ATP. In anabolism, small molecules like amino acids and nucleotides are assembled into larger molecules like proteins and nucleic acids.
This process is crucial for cell growth, repair, and the maintenance of cellular structures.
- Anabolic reactions are important for tissue growth and the development of organ systems.
Catabolic Reactions
Catabolic reactions break down complex molecules into simpler ones, releasing energy in the process.
This energy is then utilized to power various cellular activities. For example, the breakdown of glucose in the process of glycolysis is a well-known catabolic pathway.
These reactions make nutrients and stored molecules available as energy through processes like respiration and digestion.
This energy is then utilized to power various cellular activities. For example, the breakdown of glucose in the process of glycolysis is a well-known catabolic pathway.
These reactions make nutrients and stored molecules available as energy through processes like respiration and digestion.
- Catabolic reactions are key for energy production and cellular respiration.
Electron Carriers
Electron carriers are molecules that play a critical role in transferring electrons during chemical reactions in cells.
They are essential for cellular respiration and photosynthesis. NAD⁺ and NADP⁺ are common electron carriers in cellular processes.
During redox reactions, these carriers accept and donate electrons, helping to transfer energy.
They are essential for cellular respiration and photosynthesis. NAD⁺ and NADP⁺ are common electron carriers in cellular processes.
During redox reactions, these carriers accept and donate electrons, helping to transfer energy.
- Electron carriers are vital for the efficient release and transfer of energy within cells.
Oxidation-Reduction Reactions
Oxidation-reduction reactions, also known as redox reactions, are chemical processes that involve the transfer of electrons.
These reactions play a crucial role in energy production and metabolism. In these reactions, one molecule is oxidized (loses electrons), while another is reduced (gains electrons).
Redox reactions are involved in processes like cellular respiration, where energy is extracted from nutrients.
These reactions play a crucial role in energy production and metabolism. In these reactions, one molecule is oxidized (loses electrons), while another is reduced (gains electrons).
Redox reactions are involved in processes like cellular respiration, where energy is extracted from nutrients.
- Redox reactions are fundamental to the mechanisms that cells use to produce energy.
Vitamins
Vitamins are organic molecules that are essential in small quantities for healthy growth, development, and metabolism.
Many vitamins serve as precursors to coenzymes, which play critical roles in metabolic pathways. For instance, B vitamins are involved in energy production, and vitamin C functions as an antioxidant.
A deficiency in vitamins can lead to various health problems, highlighting their importance in a balanced diet.
Many vitamins serve as precursors to coenzymes, which play critical roles in metabolic pathways. For instance, B vitamins are involved in energy production, and vitamin C functions as an antioxidant.
A deficiency in vitamins can lead to various health problems, highlighting their importance in a balanced diet.
- Vitamins are crucial for the functioning of essential enzymes in the body.
Anabolism and Catabolism
Anabolism and catabolism are two opposing metabolic processes.
Anabolism refers to the building up of complex molecules and requires energy, while catabolism refers to their breakdown, releasing energy. Both processes are essential for maintaining the balance and health of organisms.
Together, they form metabolic pathways which allow organisms to grow, reproduce, repair damage, and respond to their environments.
Anabolism refers to the building up of complex molecules and requires energy, while catabolism refers to their breakdown, releasing energy. Both processes are essential for maintaining the balance and health of organisms.
Together, they form metabolic pathways which allow organisms to grow, reproduce, repair damage, and respond to their environments.
- These processes are interconnected and help in the regulation and maintenance of cellular balance.
ATP
ATP, or adenosine triphosphate, is the primary energy carrier in cells.
ATP stores energy in its phosphate bonds and releases it to fuel cellular processes when these bonds are broken. The conversion of ATP to ADP (adenosine diphosphate) and inorganic phosphate releases energy.
This reaction is fundamental for processes like muscle contraction and biosynthetic pathways.
ATP stores energy in its phosphate bonds and releases it to fuel cellular processes when these bonds are broken. The conversion of ATP to ADP (adenosine diphosphate) and inorganic phosphate releases energy.
This reaction is fundamental for processes like muscle contraction and biosynthetic pathways.
- Without ATP, cells couldn't perform any energy-requiring functions.
Coenzyme A
Coenzyme A is a vital molecule that plays a key role in metabolic pathways.
It is primarily involved in the transfer of acyl groups in metabolic reactions, especially during the synthesis and breakdown of fatty acids. Coenzyme A acts as a carrier for two-carbon fragments, which are essential in the Krebs cycle and fatty acid metabolism.
It is derived from the vitamin pantothenic acid, showing the importance of vitamins in metabolic processes.
It is primarily involved in the transfer of acyl groups in metabolic reactions, especially during the synthesis and breakdown of fatty acids. Coenzyme A acts as a carrier for two-carbon fragments, which are essential in the Krebs cycle and fatty acid metabolism.
It is derived from the vitamin pantothenic acid, showing the importance of vitamins in metabolic processes.
- Coenzyme A is crucial for the efficient metabolism of lipids and other substrates in the cell.
