Welcome to class of The citric acid cycle Dr. Meera Kaur.

Slides:

Advertisements

Similar presentations

Fig. 7-2a, p.108. Fig. 7-2b, p.108 a All carbohydrate breakdown pathways start in the cytoplasm, with glycolysis. b Fermentation pathways are completed.

Advertisements

CELLULAR RESPIRATION Lesson 07 & 08. Overview of Cellular Respiration (Lesson 07)

CELLULAR RESPIRATION II

CELL RESPIRATION.

Cellular Pathways that Harvest Chemical Energy

Biology 107 Cellular Respiration October 3, 2003.

Biology 107 Cellular Respiration September 30, 2005.

Respiration The Four Stages.

Citric Acid Cycle & Oxidative Phosphorylation The citric acid cycle, formerly known as the Kreb cycle, begins in the mitochondria as the 2 molecules of.

Cellular Respiration Chapter 9.

Cellular Respiration: Aerobic Respiration Krebs Cycle Electron Transport Chain and ATP Synthase.

Cellular Respiration 7.3 Aerobic Respiration.

CELLULAR RESPIRATION BIOLOGY IB/ SL Option C.3.

Lecture 5 Microbe Metabolism.

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

AP Biology: Ch. 9 Cellular Respiration. Principles of Energy Conservation As open systems, cells require outside energy sources to perform cellular work.

1 Respiration Cellular respiration is a series of reactions that: -are oxidations – loss of electrons -are also dehydrogenations – lost electrons are accompanied.

Cellular Respiration Pages: 98 to 103 and 357 to 368.

Citric Acid Cycle & Oxidative Phosphorylation The citric acid cycle, formerly known as the Kreb cycle, begins in the mitochondria as the 2 molecules of.

 Organisms must take in energy from outside sources.  Energy is incorporated into organic molecules such as glucose in the process of photosynthesis.

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

Bell Ringer On your response board, write out the chemical equation for Cellular Respiration. Be sure to use the formula for a simple carbohydrate, not.

The Krebs Cycle Biology 11 Advanced

Cell Respiration Chapter 9. Slide 2 of 33 Why Respire?  Living cells require energy transfusions to perform most of their tasks  From external sources.

Intro to Cellular Respiration, Glycolysis & Krebs Cycle

AP Biology Ch. 9 – Cellular Respiration. Catabolic pathway Fermentation Aerobic respiration Anaerobic respiration Cellular respiration Redox reaction.

CELLULAR RESPIRATION: HARVESTING CHEMICAL ENERGY The Process of Cellular Respiration 1.Respiration involves glycolysis, the Krebs cycle, and electron transport.

How Cells Harvest Energy Chapter 6

Cellular Respiration Part IV: Oxidative Phosphorylation.

Cellular Respiration. Energy Flow photosynthesis –carried out by plants uses energy from sunlight converts into glucose & oxygen used in cellular respiration.

NS 315 Unit 4: Carbohydrate Metabolism Jeanette Andrade MS,RD,LDN,CDE Kaplan University.

Chapter 7: Cellular Pathways That Harvest Chemical Energy CHAPTER 7 Cellular Pathways That Harvest Chemical Energy.

Chapter 7: Cellular Pathways That Harvest Chemical Energy Cellular Pathways That Harvest Chemical Energy Obtaining Energy and Electrons from GlucoseObtaining.

Aerobic Respiration + The 1980s? Check it out! Check it out!

Cellular Respiration: Harvesting Chemical Energy

Lecture #4Date _________ Chapter 9~ Cellular Respiration: Harvesting Chemical Energy.

Cellular Respiration. I. What is Cellular Respiration?  Cellular Respiration is the series of reactions by which organisms obtain energy by breaking.

CELLULAR RESPIRATION How Cells Harvest Chemical Energy.

Glycolysis, Kreb’s, and ETC

Cellular Respiration Pages: 98 to 103 and 357 to 368.

Intro to Cellular Respiration, Glycolysis & Krebs Cycle

Cellular Respiration AP Biology. The Equation C 6 H 12 O 6 + 6O 2  6CO 2 + 6H ATP C 6 H 12 O 6 = glucose 6O 2 = oxygen gas 6CO 2 = carbon dioxide.

Cellular Respiration.

CHAPTER 7.3 PAGES Aerobic Cellular Respiration.

Cellular Respiration The controlled release of energy in the form of ATP Emily Kennedy 3A.

Cellular Respiration Making ATP. Cellular Respiration Cell respiration is the controlled release of energy from organic compounds in cells to form ATP.

Aerobic Respiration Section 9:2. Overview Krebs Cycle: In the presence of O2, Pyruvic Acid oxidizes, the reduction of NAD + to NADH, and FAD to FADH,

Cellular Respiration. Learning objectives SWBAT: Understand that cellular respiration involves a series of enzyme-catalyzed reactions that harvest free.

Cell Respiration. What is Cell Respiration? Its related to the respiratory system in that the lungs bring in the oxygen needed for cell respiration Its.

AP Biology Cellular Respiration Overview Part 1. Process of Cellular Respiration.

Cellular Respiration What is Cellular Respiration? Step-by-step breakdown of high- energy glucose molecules to release energy Takes place day and night.

Electron Transport System & Chemiosmosis

School of Sciences, Lautoka Campus BIO509 Lecture 27: Respiration

Cellular Respiration & Fermentation

Cellular Respiration Stage 2:Oxidation of Pyruvate Stage 3: Krebs Cycle Stage 4: ETC

How Cells Harvest Chemical Energy

Cellular Respiration

Cellular Respiration Stage 2:Oxidation of Pyruvate Stage 3: Krebs Cycle Stage 4: ETC

AP & Pre-AP Biology Serrano High School

Cellular Respiration Continued

Cellular Respiration Chapter 6.

Cellular Respiration Chapter 6.

Cellular Respiration Cellular respiration takes the sugars from food and turns it into ATP. ATP is the energy currency of biological systems, and the energy.

The Krebs Cycle and Electron Transport

Chapter 7 Cellular Respiration

Period 3: Take a textbook and turn to page 115.

credit: modification of work by Mariana Ruiz Villareal

Aerobic Respiration Section 9:2.

Cellular Respiration.

Chapter 7 Cellular Respiration

Presentation transcript:

Welcome to class of The citric acid cycle Dr. Meera Kaur

The citric acid cycle The citric acid cycle is also known as tricarboxylic acid (TCA) cycle, or the Krebs cycle (named after its discoverer). It takes place in the mitochondria of the eucaryotic cells. All the reactions of TCA cycle are catalyzed by enzymes present in the mitochondrial inner membrane or enzymes attached to the inner surface of the interior membrane.

Reactions of the citric acid cycle The TCA cycle begins at the 12o’clock position 1.Acetyl CoA and oxaloacatate combine to form citrate. 2.Citric acid eventually loses two carbon atoms as carbon dioxide. 3.At the end of the pathway, a molecule of oxaloacetate remains, which is why the pathway is called cycle. 4.Each turn of TCA cycle yields three molecules of NADH, one of FADH 2, and one of ATP. 5.Two turn of citric acid cycle are necessary to oxidize completelytwo molecule of acetyl CoA (obtained from one molecule of glucose). 6.The complete oxidation of one molecule of glucose yields 38 ATP.

The citric acid cycle is an energy-generating catalytic cycle

Tricarboxylic cycle

Citric acid cycle intermediates as biosynthetic precursors

Anaplerotic reactions of the citric acid cycle

Oxidative phosphorylation Oxidative phosphorylation is the 3 rd stage of cellular respiration. In eucaryots, it takes place in the mitochondria. ATP synthesis is driven by electron transfer to oxygen. It involves the reduction of oxygen to water with electron donated by NADH and FADH 2 and occurs equally well in light or darkness The conservation of free energy involves the passage of electron through a chain of membrane bound oxidation-reduction (redox) carriers and pumping of proton across the membrane, producing an electrochemical gradients, the proton-motive forces. This force drives the synthesis of ATP by membrane bound enzyme complexes through which protons flow back across the membrane.