knowt logoknowt logo
HomeExploreExamsBlog
knowt logoKnowt
Rating
5.0(5)
Exam Icon
Take a practice test
Flashcard Icon
undefined Flashcards
0.0(0)

Studied by 0 people

Tags
Explore Top Notes
Oral Com 3rd Q (Mock Test for eli)
noteNote
studied byStudied by 53 people
5.0 Stars(2)
Computer Science
noteNote
studied byStudied by 60 people
5.0 Stars(4)
Chapter 20: The Cardiovascular System: Blood Vessels and Circulation
noteNote
studied byStudied by 12 people
5.0 Stars(1)
Organic Molecules - Biology Notes
noteNote
studied byStudied by 20 people
5.0 Stars(1)
4.1: introduction to industry
noteNote
studied byStudied by 7 people
5.0 Stars(1)
Chapter 6:Chemical Reactions: Mole and Mass Relationships
noteNote
studied byStudied by 7 people
5.0 Stars(1)
knowt logo

Chapter 9: Cellular Respiration and Fermentation

9.1 Cellular Respiration: An Overview

Chemical Energy and Food

  • Food gives living things the energy they need to grow

    • Autotrophs make their own food through photosynthesis

    • Heterotrophs must eat other living things for food. All living things,

    • Food molecules store chemical energy for all living things; that energy is released when they break those food molecules down

  • Energy in food can be measured in units called calories

    • A calorie is the amount of energy needed to raise the temperature of 1 gram of water 1 degree Celsius

  • Cells break down food molecules over time, getting a little bit of chemical energy at key steps

Overview of Cellular Respiration

  • Cellular respiration is the process that releases energy by breaking down glucose and other food molecules in the presence of oxygen

    • Cellular respiration gives off carbon dioxide, water, and energy and the process can be summarized like this:

  • The first step of cellular respiration is glycolysis

    • Only a small amount of energy is used to make ATP during this stage; the rest is still locked in the bonds of a molecule called pyruvic acid

  • The second step of cellular respiration is the Krebs cycle

    • Pyruvic acid enters the Krebs cycle, where a little more energy is given off

  • The third step of cellular respiration is the electron transport chain

    • Most of the energy from cellular respiration comes from the electron transport chain; this stage uses oxygen and reactants from the other two stages to finish the job

  • Oxygen is used at the end of the electron transport chain; any time a cell needs more energy, it needs more oxygen, too

  • Chemical pathways that need oxygen are called aerobic

    • The Krebs cycle and electron transport chain are both aerobic

  • A chemical process that does not need oxygen is called anaerobic

    • Glycolysis is an anaerobic process

  • Mitochondria are the organelles most important in cellular respiration

    • The Krebs cycle and electric transport chain take place inside the mitochondria

Comparing Photosynthesis and Cellular Respiration

  • Photosynthesis and cellular respiration can be thought of as opposite processes, as the equations for photosynthesis and cellular respiration are the reverse of each other

  • Photosynthesis produces food molecules and removes carbon dioxide from the air, and cellular respiration puts it back

  • Photosynthesis gives off oxygen, and cellular respiration uses that oxygen to release energy from food

9.2 The Process of Cellular Respiration

Glycolysis

  • Glycolysis is the first stage of cellular respiration

    • During glycolysis, glucose is broken down into 2 molecules of pyruvic acid' ATP and NADH are also made

  • 1 molecule of glucose, which has 6 carbon atoms, is changed into 2 molecules of pyruvic acid, which each have 3 carbon atoms

  • One of the steps of glycolysis passes 4 electrons to an electron carrier called NAD+,  or nicotinamide adenine dinucleotide

  • Glycolysis does not need oxygen, meaning that glycolysis can quickly get chemical energy to cells when there is not any oxygen present

    • When oxygen is present, however, the pyruvic acid and NADH made during glycolysis become the materials needed for the other stages of cellular respiration

The Krebs Cycle

  • The Krebs cycle takes place within the matrix - the innermost space of the mitochondrion

  • During the Krebs cycle, pyruvic acid is broken down into carbon dioxide in a series of steps that release chemical energy

    • Step 1: Pyruvic acid from glycolysis enters the mitochondrion’s matrix

    • Step 2: Enzymes split CO2 off from pyruvic acid, leaving a 2-carbon molecule, and NADH is produced from NAD

    • Step 3: The 2-carbon-atom molecule joins a 4-carbon-atom molecule to become citric acid

    • Step 4: More CO2 and NADH are made as citric acid becomes a 4-carbon-atom molecule

    • Step 5: More reactions make high-energy molecules of ATP, FADH2, and NADH

    • Step 6: The 4-carbon atom molecule can go through the cycle again

  • Because glycolysis makes 2 molecules of pyruvic acid from each glucose molecule, the Krebs cycle “turns” twice for each glucose molecule that enters glycolysis

Electron Transport and ATP Synthesis

  • Carriers from glycolysis and the Krebs cycle go into the last stage of cellular respiration, the electron transport chain

  • The NADH made during glycolysis can enter the mitochondrion to join the NADH and FADH2 made by the Krebs cycle

    • Electrons are then passed from all of those carriers to the electron transport chain, which uses them to change ADP into ATP

  • Together, glycolysis, the Krebs cycle, and the electron transport chain make about 36 molecules of ATP per molecule of glucose

    • Those 36 ATP molecules represent about 36 percent of the total energy of glucose, meaning that the cell is actually better at using food than a car’s engine is at burning gasoline!

9.3 Fermentation

Fermentation

  • Fermentation is the process by which cells release energy in the absence of oxygen

  • Fermentation is an aerobic process and takes place in the cytoplasm

    • There are two different kinds—alcoholic fermentation and lactic acid fermentation

  • In alcoholic fermentation, pyruvic acid from glycolysis is changed into alcohol and carbon dioxide

    • Yeasts and a few other microorganisms use alcoholic fermentation

    • A summary of alcoholic fermentation after glycolysis is as follows:

  • In lactic acid fermentation, pyruvic acid from glycolysis is changed into lactic acid

    • Most living things carry out fermentation by changing pyruvic acid into lactic acid

    • Unlike alcoholic fermentation, lactic acid fermentation does not give off carbon dioxide

    • Like alcoholic fermentation, lactic acid fermentation makes NAD+ so that glycolysis can continue

    • Lactic acid fermentation after glycolysis can be written as:

Energy and Exercise

  • You have three main sources of ATP: ATP already in muscles, ATP made by lactic acid fermentation, and ATP made by cellular respiration

    • At the beginning of a race, the body uses all three sources; however, stored ATP and lactic acid fermentation can give energy only for a short time

  • For quick bursts of energy, the body uses ATP already in muscles and ATP from lactic acid fermentation

  • For exercise longer than 90 seconds, the body uses cellular respiration

AB
Home
Home
Science
Science
Biology
BiologyCells

Chapter 9: Cellular Respiration and Fermentation

9.1 Cellular Respiration: An Overview

Chemical Energy and Food

  • Food gives living things the energy they need to grow

    • Autotrophs make their own food through photosynthesis

    • Heterotrophs must eat other living things for food. All living things,

    • Food molecules store chemical energy for all living things; that energy is released when they break those food molecules down

  • Energy in food can be measured in units called calories

    • A calorie is the amount of energy needed to raise the temperature of 1 gram of water 1 degree Celsius

  • Cells break down food molecules over time, getting a little bit of chemical energy at key steps

Overview of Cellular Respiration

  • Cellular respiration is the process that releases energy by breaking down glucose and other food molecules in the presence of oxygen

    • Cellular respiration gives off carbon dioxide, water, and energy and the process can be summarized like this:

  • The first step of cellular respiration is glycolysis

    • Only a small amount of energy is used to make ATP during this stage; the rest is still locked in the bonds of a molecule called pyruvic acid

  • The second step of cellular respiration is the Krebs cycle

    • Pyruvic acid enters the Krebs cycle, where a little more energy is given off

  • The third step of cellular respiration is the electron transport chain

    • Most of the energy from cellular respiration comes from the electron transport chain; this stage uses oxygen and reactants from the other two stages to finish the job

  • Oxygen is used at the end of the electron transport chain; any time a cell needs more energy, it needs more oxygen, too

  • Chemical pathways that need oxygen are called aerobic

    • The Krebs cycle and electron transport chain are both aerobic

  • A chemical process that does not need oxygen is called anaerobic

    • Glycolysis is an anaerobic process

  • Mitochondria are the organelles most important in cellular respiration

    • The Krebs cycle and electric transport chain take place inside the mitochondria

Comparing Photosynthesis and Cellular Respiration

  • Photosynthesis and cellular respiration can be thought of as opposite processes, as the equations for photosynthesis and cellular respiration are the reverse of each other

  • Photosynthesis produces food molecules and removes carbon dioxide from the air, and cellular respiration puts it back

  • Photosynthesis gives off oxygen, and cellular respiration uses that oxygen to release energy from food

9.2 The Process of Cellular Respiration

Glycolysis

  • Glycolysis is the first stage of cellular respiration

    • During glycolysis, glucose is broken down into 2 molecules of pyruvic acid' ATP and NADH are also made

  • 1 molecule of glucose, which has 6 carbon atoms, is changed into 2 molecules of pyruvic acid, which each have 3 carbon atoms

  • One of the steps of glycolysis passes 4 electrons to an electron carrier called NAD+,  or nicotinamide adenine dinucleotide

  • Glycolysis does not need oxygen, meaning that glycolysis can quickly get chemical energy to cells when there is not any oxygen present

    • When oxygen is present, however, the pyruvic acid and NADH made during glycolysis become the materials needed for the other stages of cellular respiration

The Krebs Cycle

  • The Krebs cycle takes place within the matrix - the innermost space of the mitochondrion

  • During the Krebs cycle, pyruvic acid is broken down into carbon dioxide in a series of steps that release chemical energy

    • Step 1: Pyruvic acid from glycolysis enters the mitochondrion’s matrix

    • Step 2: Enzymes split CO2 off from pyruvic acid, leaving a 2-carbon molecule, and NADH is produced from NAD

    • Step 3: The 2-carbon-atom molecule joins a 4-carbon-atom molecule to become citric acid

    • Step 4: More CO2 and NADH are made as citric acid becomes a 4-carbon-atom molecule

    • Step 5: More reactions make high-energy molecules of ATP, FADH2, and NADH

    • Step 6: The 4-carbon atom molecule can go through the cycle again

  • Because glycolysis makes 2 molecules of pyruvic acid from each glucose molecule, the Krebs cycle “turns” twice for each glucose molecule that enters glycolysis

Electron Transport and ATP Synthesis

  • Carriers from glycolysis and the Krebs cycle go into the last stage of cellular respiration, the electron transport chain

  • The NADH made during glycolysis can enter the mitochondrion to join the NADH and FADH2 made by the Krebs cycle

    • Electrons are then passed from all of those carriers to the electron transport chain, which uses them to change ADP into ATP

  • Together, glycolysis, the Krebs cycle, and the electron transport chain make about 36 molecules of ATP per molecule of glucose

    • Those 36 ATP molecules represent about 36 percent of the total energy of glucose, meaning that the cell is actually better at using food than a car’s engine is at burning gasoline!

9.3 Fermentation

Fermentation

  • Fermentation is the process by which cells release energy in the absence of oxygen

  • Fermentation is an aerobic process and takes place in the cytoplasm

    • There are two different kinds—alcoholic fermentation and lactic acid fermentation

  • In alcoholic fermentation, pyruvic acid from glycolysis is changed into alcohol and carbon dioxide

    • Yeasts and a few other microorganisms use alcoholic fermentation

    • A summary of alcoholic fermentation after glycolysis is as follows:

  • In lactic acid fermentation, pyruvic acid from glycolysis is changed into lactic acid

    • Most living things carry out fermentation by changing pyruvic acid into lactic acid

    • Unlike alcoholic fermentation, lactic acid fermentation does not give off carbon dioxide

    • Like alcoholic fermentation, lactic acid fermentation makes NAD+ so that glycolysis can continue

    • Lactic acid fermentation after glycolysis can be written as:

Energy and Exercise

  • You have three main sources of ATP: ATP already in muscles, ATP made by lactic acid fermentation, and ATP made by cellular respiration

    • At the beginning of a race, the body uses all three sources; however, stored ATP and lactic acid fermentation can give energy only for a short time

  • For quick bursts of energy, the body uses ATP already in muscles and ATP from lactic acid fermentation

  • For exercise longer than 90 seconds, the body uses cellular respiration