Exam I Review - Iowa State University

... water into the matrix through the ATP synthase channel by osmosis, and the energy in this water flow is used to power ATP synthesis. *c. H+ movement down a concentration gradient from the intermembrane space into the mitochondrial matrix through ATP synthase results in ATP synthesis d. All these sta ...

Electron Transport Chain, Oxidative phosphorylation and Pentose

... Chemical energy –to-- electrochemical gradient (electrical energy) –to-- kinetic energy (rotation of the shaft) –to-- chemical energy (ATP) 2. How many Co-enzyme Q10 molecules will be needed to oxidize one molecule of NADH, or one molecule of FADH2. One molecule of CoQ10 3. Fe++/Fe+++ plays major ro ...

Respiration - WordPress.com

... molecules through the two stages of Oxidative Phosphorylation. ...

Macronutrients

... respiration is the name for a series of reactions in which glucose is broken down into CO2, H20; ATP is “produced” ...

Mitochondria: Energy Conversion

... mitochondria have allowed the above electrochemical reactions to be carried out effectively ...

Chapter 6 How Cells Harvest Chemical Energy Overview All living

... Chapter Review, Page 104 Testing Your Knowledge, Page 105 Key Terms  glycolysis  Citric acid (Krebs) cycle  electron transport systems  pyruvate  mitochondria  cytoplasm ...

BIO 330 Cell Biology Lecture Outline Spring 2011 Chapter 10

... A. Mitochondrial location B. Structure Two membranes (outer vs inner) Three regions Intermembrane space Matrix Intracristal spaces C. Functional / structural relationship D. Bacteria lack mitochondria Similar processes occur at the plasma membrane III. The Tricarboxylic Acid Cycle A. Oxidation of py ...

Cellular Respiration PowerPoint review

... Transport Chain can’t function!! These are anaerobic conditions!! ...

chapter7_Sections 5

... pyruvate to CO2 • High-energy molecules formed in the first two stages of cellular respiration deliver electrons and hydrogen ions to electron transfer chains, where ATP forms by electron transfer phosphorylation ...

Sheldon Biology Semester I Review Sheet

... l. Mitochondria: powerplant of cell- turns glucose into ATP; bean shaped; cristae folds to increased surface area for the electron transport chain and oxidative phosphorylation (ETC & chemiosmosis) m. Central vacuole: large structure (bigger than nucleus) stores water to help hold plants up n. Chlor ...

PHOTOSYNTHESIS & RESPIRATION

... •Anaerobic process (no O2 required) •Net production of 2 ATP (make 4 but use 2) •Releases only 2% of chemical energy that is stored in Glucose ...

Question

... Question 11 The theoretical ATP yield is 38 for prokaryotes and 36 for eukaryotes. Why is there a difference? a. 2 ATPs are used during glycolysis for prokaryotes but not eukaryotes b. The Krebs cycle only occurs in eukaryotes c. No FADH2 is produced in prokaryotic respiration d. NADH made during g ...

The Basics of Cellular Respiration

... II) Krebs cycle (Citric Acid Cycle) It is named for Hans Krebs who discovered it in 1953. (It is also called the citric acid cycle” because citric acid is formed at the start of the cycle.) ...

CELLULAR RESPIRATION

... • No ATP is generated during ETC; ATP comes from chemiosmosis! • Source of e- = NADH and FADH2 reduction • Source of H+ = same as above! ...

Respiration

... 1. What is the chemical equation for cellular respiration? 2. Remember: OILRIG A. In the conversion of glucose and oxygen to CO2 and H2O, which molecule is reduced? B. Which is oxidized? C. What happens to the energy that is released in this redox reaction? 3. NAD+ is called a(n) ________________. ...

AP Biology

... 20. What is a facultative anaerobe? organisms that make enough ATP to survive using either fermentation or respiration – yeast and many bacteria 21. What is the evolutionary significance of glycolysis? Ancient prokaryotes most likely used glycolysis to make ATP long before oxygen was present in Eart ...

cell respiration wilk hl ibdp

... • Glucose on oxidation during glycolysis and Krebs cycle , the Co-enzymes NAD and FAD are reduced to NADH + H+ & FADH + H+ ...

Mapping the Body.indd

... 64) True or False? Gram negative bacteria are pathogens, while Gram positives are beneficial and many live in our gut. 65) True or False? Gram positive bacteria have a thick cell wall made of peptidoglycan. 66) True or False? Gram positive bacteria have toxic sugars on their outer surface. 67) Which ...

Chapter 8 Lecture Notes - Science Learning Center

... Cell Respiration The overall reaction for cell respiration is: C6H12O6 + 6O2 → 6CO2 + 6H2O + ATP (this reaction is the reverse of photosynthesis) There are three stages to cell respiration: glycolysis, Krebs cycle, and electron transport chain/oxidative phosphorylation. ...

Cellular Respiration - Local.brookings.k12.sd.us

... prokaryotes probably used glycolysis to make ATP before oxygen was present • Earliest fossil bacteria present 3.5 billion years ago but large amounts of oxygen not present until 2.7 billion years ago • Glycolysis happens in cytoplasm without membrane bound organelles suggests it was found in early p ...

PPT - gserianne.com

... • heat, light, sound, electricity, mechanical energy, chemical energy • changed from one form to another, but NEVER destroyed (law of conservation of energy) • involved in all metabolic reactions Release of chemical energy • most metabolic processes depend on chemical energy • oxidation of glucose g ...

AP Biology Chapter 5 Notes

... You are welcome to write your notes in a notebook as well but this sheet will be due in your binders at the end of each unit. Your book research must say something different then the classroom notes unless boxes are merged. ...

Name: Date: Period: ______ Unit 6, Part 2 Notes – Aerobic Cellular

... membrane into the intermembrane space. 4. The last molecule to receive the electrons is oxygen gas (O 2). Oxygen gas combines with the electrons and H+ to form H2O, one of the products of aerobic cellular respiration. 5. H+ builds up in the intermembrane space and wants to flow back down its concent ...

Chapter 9 - Cellular Respiration

... CoA (begin w/ 2): CO2 is released; NAD+ --> NADH; coenzyme A (from B vitamin), makes molecule very reactive From this point, each turn 2 C atoms enter (pyruvate) and 2 exit (carbon dioxide) Oxaloacetate is regenerated (the “cycle”) For each pyruvate that enters: 3 NAD+ reduced to NADH; 1 FAD+ reduce ...

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Mitochondrion

The mitochondrion (plural mitochondria) is a double membrane-bound organelle found in most eukaryotic cells. The word mitochondrion comes from the Greek μίτος, mitos, i.e. ""thread"", and χονδρίον, chondrion, i.e. ""granule"" or ""grain-like"".Mitochondria range from 0.5 to 1.0 μm in diameter. A considerable variation can be seen in the structure and size of this organelle. Unless specifically stained, they are not visible. These structures are described as ""the powerhouse of the cell"" because they generate most of the cell's supply of adenosine triphosphate (ATP), used as a source of chemical energy. In addition to supplying cellular energy, mitochondria are involved in other tasks, such as signaling, cellular differentiation, and cell death, as well as maintaining control of the cell cycle and cell growth. Mitochondria have been implicated in several human diseases, including mitochondrial disorders, cardiac dysfunction, and heart failure. A recent University of California study including ten children diagnosed with severe autism suggests that autism may be correlated with mitochondrial defects as well.Several characteristics make mitochondria unique. The number of mitochondria in a cell can vary widely by organism, tissue, and cell type. For instance, red blood cells have no mitochondria, whereas liver cells can have more than 2000. The organelle is composed of compartments that carry out specialized functions. These compartments or regions include the outer membrane, the intermembrane space, the inner membrane, and the cristae and matrix. Mitochondrial proteins vary depending on the tissue and the species. In humans, 615 distinct types of protein have been identified from cardiac mitochondria, whereas in rats, 940 proteins have been reported. The mitochondrial proteome is thought to be dynamically regulated. Although most of a cell's DNA is contained in the cell nucleus, the mitochondrion has its own independent genome. Further, its DNA shows substantial similarity to bacterial genomes.

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Mitochondrion