pertains to all chemical reaction and physical workings of the cell

there's two types; anabolism and catabolism

Metabolism is the process of converting oxygen into carbon dioxide.

Metabolism is the process of breaking down food into energy.

Metabolism is the process of synthesizing proteins in the body.

Which of the following correctly describes anabolism?

any process that results in synthesis of cell molecule and structures

a building and bond-making process that forms larger macromolecules from smaller ones

requires the input of energy (endergonic)

breaks the bonds of larger molecules into smaller molecules

Which of the following correctly describes catabolism?

breaks the bonds of larger molecules into smaller molecules

any process that results in synthesis of cell molecule and structures

a building and bond-making process that forms larger macromolecules from smaller ones

requires the input of energy (endergonic)

True or false: energy is stored in the bonds of ATP

energy is stored in the bonds of ATP

energy is stored in the bonds of water

energy is stored in the bonds of glucose

energy is stored in the bonds of DNA

What is oxidoreductases?

Oxidoreductases are enzymes that remove electrons from one substrate and add them to another

Oxidoreductases are enzymes that catalyze hydrolysis reactions.

Oxidoreductases are enzymes that catalyze synthesis reactions.

Oxidoreductases are enzymes that catalyze phosphorylation reactions.

a redox pair is an electron donor and an electron acceptor involved in a redox reaction

A redox pair is a pair of chemical species that undergo a neutralization reaction.

A redox pair is a pair of chemical species that undergo a combustion reaction.

A redox pair is a pair of chemical species that undergo a precipitation reaction.

If a bacteria doesn't have electron transport chain then

it has to use fermentation to produce ATP

It can generate ATP through photosynthesis.

It can still generate ATP through glycolysis.

Which of the following correctly describes Aerobic respiration?

a series of reactions that convert glucose to CO2 and allows the cell to recover significant amounts of energy

utilizes glycolysis, the krebs cycle, and the electron transport chain (respiratory)

relied on free oxygen as the final electron and hydrogen acceptor

uses NO-3, SO42-, CO33- (nitrate, sulfate, carbonate) and other oxidized inorganic compounds as terminal electron acceptors

organic compounds are terminal electron acceptors

Which of the following correctly describes Anaerobic respiration?

utilizes glycolysis, the krebs cycle, and the electron transport chain (respiratory)

used by strictly anaerobic organisms and others who are able to metabolize with or without oxygen

uses NO-3, SO42-, CO33- (nitrate, sulfate, carbonate) and other oxidized inorganic compounds as terminal electron acceptors

a series of reactions that convert glucose to CO2 and allows the cell to recover significant amounts of energy

organic compounds are terminal electron acceptors

Which of the following correctly describes fermentation?

incomplete oxidation of glucose

organic compounds are terminal electron acceptors

utilizes glycolysis, the krebs cycle, and the electron transport chain (respiratory)

uses NO-3, SO42-, CO33- (nitrate, sulfate, carbonate) and other oxidized inorganic compounds as terminal electron acceptors

What is the terminal electron and hydrogen acceptor for aerobic respiration?

nitrate, sulfate, carbonate, and other oxidized inorganic compounds

What is the terminal electron and hydrogen acceptor for anaerobic respiration?

nitrate, sulfate, carbonate, and other oxidized inorganic compounds

What is the terminal electron and hydrogen acceptor for fermentation?

nitrate, sulfate, carbonate, and other oxidized inorganic compounds

where is the electron transport chain embedded in?

cytoplasmic membrane in bacteria

What is the proton motive force?

The proton motive force is the electrochemical gradient of protons across a membrane.

The proton motive force is the energy generated by the movement of electrons.

The proton motive force is the movement of protons through a membrane.

The proton motive force is the concentration gradient of protons across a membrane.

MB CH7- Microbial Metabolism PT1 Quiz

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MB CH7- Microbial Metabolism PT1 Quiz

Quiz

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Science

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University

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Practice Problem

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Easy

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NGSS

HS-LS1-7, HS-LS2-3, HS-LS2-5

Standards-aligned

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45 questions

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MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the relationship among metabolism, catabolism, and anabolism?

Metabolism is the process of breaking down larger molecules into smaller ones, while catabolism is the synthesis of cell molecules and structures.

Metabolism is the process of breaking down larger molecules into smaller ones, while anabolism is the synthesis of cell molecules and structures.

Metabolism is the process of synthesizing larger molecules from smaller ones, while catabolism is the breakdown of cell molecules and structures.

Metabolism is the process of synthesizing larger molecules from smaller ones, while anabolism is the breakdown of cell molecules and structures.

Tags

NGSS.HS-LS1-7

NGSS.HS-LS2-3

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

Which are the three main catabolic pathways and their estimated ATP yield?

Glycolysis (2 ATP), Krebs cycle (2 ATP), and electron transport chain (36 ATP)

Glycolysis (4 ATP), Krebs cycle (2 ATP), and electron transport chain (38 ATP)

Glycolysis (2 ATP), Krebs cycle (4 ATP), and electron transport chain (36 ATP)

Glycolysis (4 ATP), Krebs cycle (4 ATP), and electron transport chain (38 ATP)

Tags

NGSS.HS-LS1-7

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the process of glycolysis?

Conversion of glucose to CO2 and recovery of energy

Conversion of glucose to pyruvic acid and release of energy

Conversion of pyruvic acid to glucose and storage of energy

Conversion of pyruvic acid to CO2 and release of energy

Tags

NGSS.HS-LS2-3

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What goes into the Krebs cycle and what comes out of it?

Acetyl CoA goes in and CO2, ATP, NADH, and FADH2 come out

CO2 goes in and acetyl CoA, ATP, NADH, and FADH2 come out

NADH goes in and CO2, ATP, acetyl CoA, and FADH2 come out

FADH2 goes in and CO2, ATP, acetyl CoA, and NADH come out

Tags

NGSS.HS-LS1-7

NGSS.HS-LS2-3

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the significance of the electron transport system?

It transfers energy stored in acetyl CoA to NAD and FAD

It transfers electrons from reduced carriers to generate ATP

It converts glucose to pyruvic acid and releases energy

It breaks down larger molecules into smaller ones and releases energy

Tags

NGSS.HS-LS1-7

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

How does anaerobic respiration differ from aerobic respiration?

Anaerobic respiration uses oxygen as the final electron acceptor, while aerobic respiration uses other oxidized inorganic compounds

Anaerobic respiration uses other oxidized inorganic compounds as the final electron acceptor, while aerobic respiration uses oxygen

Anaerobic respiration does not require oxygen, while aerobic respiration does

Anaerobic respiration produces more ATP than aerobic respiration

Tags

NGSS.HS-LS1-7

NGSS.HS-LS2-3

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

How are noncarbohydrate compounds catabolized?

They are converted into glucose through glycolysis

They are broken down into smaller molecules through the Krebs cycle

They are used as terminal electron acceptors in the electron transport chain

They are converted into ATP through fermentation

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MB CH7- Microbial Metabolism PT1 Quiz

45 questions

What is the relationship among metabolism, catabolism, and anabolism?

Which are the three main catabolic pathways and their estimated ATP yield?

What is the process of glycolysis?

What goes into the Krebs cycle and what comes out of it?

What is the significance of the electron transport system?

How does anaerobic respiration differ from aerobic respiration?

How are noncarbohydrate compounds catabolized?

What is the final destination for electrons being transferred through the electron transport chain?

What is the final destination for protons pumped across the membrane in the electron transport chain?

what is metabolism?

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