Presentation is loading. Please wait.

Presentation is loading. Please wait.

A: B: Unique to A Common to both Unique to B.

Published byErlin Kurniawan Modified over 6 years ago

Similar presentations

Presentation on theme: "A: B: Unique to A Common to both Unique to B."— Presentation transcript:

1 A: B: Unique to A Common to both Unique to B

2 A: facultative anaerobes B: obligate anaerobes
Unique to A Common to both Unique to B Can also respire with O2 Survive in an O2 environment Can switch from anaerobic to aerobic Can respire without O2 Breakdown molecules Glycolysis Fermentation Cannot respire in presence of O2 Cannot survive in O2 environment Must be anaerobic

3 A: aerobic B: anaerobic
Unique to A Common to both Unique to B Citric acid cycle (krebs) Oxidative phophorylation With O2 1 glucose ~ 38 ATP Glycolysis first step Electron acceptors or redox reactions Produce ATP Fermentation Without O2 1 glucose ~ 2 ATP

4 A: glycolysis B: citric acid cycle
Unique to A Common to both Unique to B Starts with glucose (glucose>>pyruvate) Happens in both aerobic and anaerobic respiration outside mitochondria 2 ATP formed Each step catalyzed by enzymes CO2 formed as waste Pyruvate >> acetyl coA>> cycle of hydrocarbons Only in aerobic respiration Inside mitochondria

5 A:oxidized B: reduced Loses e- or charge Losing potential E
Unique to A Common to both Unique to B Loses e- or charge Losing potential E Reducing agent Glucose, NAD+, C in CO2, lower electronegative one, ADP Transfer e- Redox reactions Energy transfer C, carbon chain molecules, S,N,P Gains e- Gaining potential E Oxidizing agent NADH, O2, F, higher electronegative one, ATP

6 A: B: Unique to A Common to both Unique to B

7 A: B: Unique to A Common to both Unique to B

Download ppt "A: B: Unique to A Common to both Unique to B."

Similar presentations

Lecture packet 6 Reading: Chapter 3 (pages 56-62)

Lecture packet 6 Reading: Chapter 3 (pages 56-62)
Ch 9- Cellular Respiration

Ch 9- Cellular Respiration
 Describe the first stage reaction: Glycolysis  Explain the difference in the fermentation option ie. Between lactic acid formation and Alcohol and.

 Describe the first stage reaction: Glycolysis  Explain the difference in the fermentation option ie. Between lactic acid formation and Alcohol and.
Anaerobic Respiration and Fermentation

Anaerobic Respiration and Fermentation
Chapter 7 Cellular Repiration. ATP Makes the World Go ‘Round The main source of energy for all cell life is ATP ATP = adenosine triphosphate ATP is made.

Chapter 7 Cellular Repiration. ATP Makes the World Go ‘Round The main source of energy for all cell life is ATP ATP = adenosine triphosphate ATP is made.
Cellular Respiration: Aerobic Respiration Krebs Cycle Electron Transport Chain and ATP Synthase.

Cellular Respiration: Aerobic Respiration Krebs Cycle Electron Transport Chain and ATP Synthase.
Ch 9- Cellular Respiration How do we get the energy we need? – Food – What in food gives us the energy we need? Cellular Respiration- process that releases.

Ch 9- Cellular Respiration How do we get the energy we need? – Food – What in food gives us the energy we need? Cellular Respiration- process that releases.
INTRODUCTION Cell respiration - means by which cells extract energy stored in food and transfer that energy to molecules of ATP. Energy temporarily stored.

INTRODUCTION Cell respiration - means by which cells extract energy stored in food and transfer that energy to molecules of ATP. Energy temporarily stored.
Chapter 9 Cellular Respiration. I CAN’S/ YOU MUST KNOW The difference between fermentation & cellular respiration The role of glycolysis in oxidizing.

Chapter 9 Cellular Respiration. I CAN’S/ YOU MUST KNOW The difference between fermentation & cellular respiration The role of glycolysis in oxidizing.
C – Describe overall process of respiration

C – Describe overall process of respiration
Overview of Cellular Respiration Section 4.4 Cellular respiration makes ATP by breaking down sugars. If a step requires oxygen, it is called aerobic.

Overview of Cellular Respiration Section 4.4 Cellular respiration makes ATP by breaking down sugars. If a step requires oxygen, it is called aerobic.
Lecture #4Date _________ Chapter 9~ Cellular Respiration: Harvesting Chemical Energy.

Lecture #4Date _________ Chapter 9~ Cellular Respiration: Harvesting Chemical Energy.
Essential Knowledge 2.A.2: Organisms capture and store free energy for use in biological processes.

Essential Knowledge 2.A.2: Organisms capture and store free energy for use in biological processes.
Cellular Respiration.

Cellular Respiration.
Glycolysis, Kreb’s, and ETC

Glycolysis, Kreb’s, and ETC
Cellular Respiration Chapter 9.

Cellular Respiration Chapter 9.
Cellular Respiration Unit 3: Energize Your Life Chapter 9.

Cellular Respiration Unit 3: Energize Your Life Chapter 9.
Chapter 7 Glycolysis and the Citric Acid Cycle. You Must Know  NAD+ and NADH  The role of glycolysis in oxidizing glucose to two molecules of pyruvate.

Chapter 7 Glycolysis and the Citric Acid Cycle. You Must Know  NAD+ and NADH  The role of glycolysis in oxidizing glucose to two molecules of pyruvate.
Krebs Cycle. Cellular Respiration Process by which our cells produce energy from the foods we eat 3 parts: – Glycolysis – Krebs cycle – Electron transport.

Krebs Cycle. Cellular Respiration Process by which our cells produce energy from the foods we eat 3 parts: – Glycolysis – Krebs cycle – Electron transport.
Cellular Respiration Notes Two types of Respiration 1. Anaerobic Cellular Respiration 2. Aerobic Cellular Respiration.

Cellular Respiration Notes Two types of Respiration 1. Anaerobic Cellular Respiration 2. Aerobic Cellular Respiration.

Similar presentations

Ads by Google