Metabolism of fats and proteins
... What are the important functions of these biomolecules? Is oxygen required for the electron transport chain to function? If so, what is its role? The electron transport chain is where oxidative phosphorylation occurs. Where does the oxidation occur? How about the phosphorylation? ...
... What are the important functions of these biomolecules? Is oxygen required for the electron transport chain to function? If so, what is its role? The electron transport chain is where oxidative phosphorylation occurs. Where does the oxidation occur? How about the phosphorylation? ...
Study Guide Cellular Respiration
... 35. The Link Reaction: Each of 2 Pyruvic Acid molecule must change to Acetic Acid (2C) which join CoA to form Acetyl CoA 36. Pyruvic Acid (3C) + CoA + NAD Acetyl CoA (2C) + NADH + CO2 37. Krebs Cycle or Citric Acid Cycle: All the enzymes for Citric Acid Cycle are present in inner chamber of Mitoch ...
... 35. The Link Reaction: Each of 2 Pyruvic Acid molecule must change to Acetic Acid (2C) which join CoA to form Acetyl CoA 36. Pyruvic Acid (3C) + CoA + NAD Acetyl CoA (2C) + NADH + CO2 37. Krebs Cycle or Citric Acid Cycle: All the enzymes for Citric Acid Cycle are present in inner chamber of Mitoch ...
Name__________________________________ Date Pd _____
... Click on the Practice and the Review (top right of page) Go through the animations of the ETC. Concept #5 Fermentation All cells are able to synthesize ATP via the process of ___________________________. In many cells, if oxygen is not ________________________, pyruvate is metabolized in a process c ...
... Click on the Practice and the Review (top right of page) Go through the animations of the ETC. Concept #5 Fermentation All cells are able to synthesize ATP via the process of ___________________________. In many cells, if oxygen is not ________________________, pyruvate is metabolized in a process c ...
Glycolysis - Rose
... remember, however, that energy generation is not the only purpose of the pathway, and that in many cell types the formation of glucose metabolites with critical biological roles is as important as the energy produced during the pathway. Overview of Glycolysis Under anaerobic conditions, the glycolyt ...
... remember, however, that energy generation is not the only purpose of the pathway, and that in many cell types the formation of glucose metabolites with critical biological roles is as important as the energy produced during the pathway. Overview of Glycolysis Under anaerobic conditions, the glycolyt ...
answer key
... constant ratio) to saturate the enzyme. (VV pp. 346-347, 351) In (A), the breakdown of [ES] is a first-order process and therefore at high levels of substrate, the reaction approaches zero-order. (2 pts) In (B), there are no first-order steps, so theoretically, there will be no limitation on reactio ...
... constant ratio) to saturate the enzyme. (VV pp. 346-347, 351) In (A), the breakdown of [ES] is a first-order process and therefore at high levels of substrate, the reaction approaches zero-order. (2 pts) In (B), there are no first-order steps, so theoretically, there will be no limitation on reactio ...
Camp 1
... Glucose is converted to other hexoses and to di-, oligo-, and polysaccharides. • The common step in all of these syntheses is activation of glucose by uridine triphosphate (UTP) to form uridine diphosphate glucose (UDP-glucose) + Pi . ...
... Glucose is converted to other hexoses and to di-, oligo-, and polysaccharides. • The common step in all of these syntheses is activation of glucose by uridine triphosphate (UTP) to form uridine diphosphate glucose (UDP-glucose) + Pi . ...
IBBIO Jeopardy Review 01 wiki
... Photosynthesis can be measured directly by the production of oxygen (bubbles) or the uptake of carbon dioxide AND measured indirectly by an increase in biomass of the plant being ...
... Photosynthesis can be measured directly by the production of oxygen (bubbles) or the uptake of carbon dioxide AND measured indirectly by an increase in biomass of the plant being ...
Lecture 7 Citric acid cycle
... Stage 1: oxidation of fatty acids, glucose, and some amino acids yields acetylCoA. Stage 2: oxidation of acetyl groups in the citric acid cycle includes four steps in which electrons are abstracted. ...
... Stage 1: oxidation of fatty acids, glucose, and some amino acids yields acetylCoA. Stage 2: oxidation of acetyl groups in the citric acid cycle includes four steps in which electrons are abstracted. ...
Chemistry SL HL Assessment Statements 2009 Revised
... Negative effects include: • increased risk of heart disease from elevated levels of LDL cholesterol and trans fatty acids; the major source of LDL cholesterol is saturated fats, in particular lauric (C12), myristic (C14) and ...
... Negative effects include: • increased risk of heart disease from elevated levels of LDL cholesterol and trans fatty acids; the major source of LDL cholesterol is saturated fats, in particular lauric (C12), myristic (C14) and ...
Cell Resp. Power Point Brief SV
... substrate (a molecule) to ADP, yielding ATP: ex: 1,3 Bisphosphate glycerate loses a phosphate to ADP-----> ATP 2) ______________________ Phosphorylation: Energy from redox reactions in electrontransport chain is used to make ATP. ...
... substrate (a molecule) to ADP, yielding ATP: ex: 1,3 Bisphosphate glycerate loses a phosphate to ADP-----> ATP 2) ______________________ Phosphorylation: Energy from redox reactions in electrontransport chain is used to make ATP. ...
Glycogen Metabolism and Gluconeogenesis
... phosphorylates both glycogen phosphorylase and synthase • Synthase I (dephos.) is always active • Synthase D (phos.) is dependent on [G-6-P] • The same event that turns one on turns the other one off. ...
... phosphorylates both glycogen phosphorylase and synthase • Synthase I (dephos.) is always active • Synthase D (phos.) is dependent on [G-6-P] • The same event that turns one on turns the other one off. ...
Document
... 7. Name molecules can produce ATP(energy) other than sugars. What are the product names can be used as a energy and waste produce after producing ATP or energy source? Protein- Ketone acid(as a energy source), Urea (Waste), Fat – Keto bodies(as a energy source) 8. Name the pathway before an amino ac ...
... 7. Name molecules can produce ATP(energy) other than sugars. What are the product names can be used as a energy and waste produce after producing ATP or energy source? Protein- Ketone acid(as a energy source), Urea (Waste), Fat – Keto bodies(as a energy source) 8. Name the pathway before an amino ac ...
1) Which of the following is (are) true for anabolic
... 8) Sucrose is a disaccharide, composed of the monosaccharides glucose and fructose. The hydrolysis of sucrose by the enzyme sucrase results in A) the release of water from sucrose as the bond between glucose and fructose is broken. B) bringing glucose and fructose together to form sucrose. C) produ ...
... 8) Sucrose is a disaccharide, composed of the monosaccharides glucose and fructose. The hydrolysis of sucrose by the enzyme sucrase results in A) the release of water from sucrose as the bond between glucose and fructose is broken. B) bringing glucose and fructose together to form sucrose. C) produ ...
Chapter 3 Review Questions
... 2. Carbohydrates and lipids both contain the elements ____carbon__________, __hydrogen__________, and ________oxygen_________. 3. Proteins are made of ___amino acids________________ 4. __polynucleotides or nucleic acids____________ are made of nucleotides. 5. Examples of lipids include _____fats/oil ...
... 2. Carbohydrates and lipids both contain the elements ____carbon__________, __hydrogen__________, and ________oxygen_________. 3. Proteins are made of ___amino acids________________ 4. __polynucleotides or nucleic acids____________ are made of nucleotides. 5. Examples of lipids include _____fats/oil ...
I I I I I I I I I I I I I I I I I I I I
... Prokaryotes are smaller in size than eukaryotes. B. Prokaryotes sexually reproduce, eukaryotes do not. C. Eukaryotes sexually reproduce, prokaryotes do not. D. Eukaryotes possess a nucleus, prokaryotes do not. ...
... Prokaryotes are smaller in size than eukaryotes. B. Prokaryotes sexually reproduce, eukaryotes do not. C. Eukaryotes sexually reproduce, prokaryotes do not. D. Eukaryotes possess a nucleus, prokaryotes do not. ...
Cellular Respiration NOTES
... When NO OXYGEN is available, organisms have to use another pathway called fermentation (or ANaerobic) respiration. Regardless of the organism (bacteria to human), all organisms use glycolysis as an initial step. Remember, glycolysis results in a net gain of 2 ATP (useful) and 2 NADH (without oxygen, ...
... When NO OXYGEN is available, organisms have to use another pathway called fermentation (or ANaerobic) respiration. Regardless of the organism (bacteria to human), all organisms use glycolysis as an initial step. Remember, glycolysis results in a net gain of 2 ATP (useful) and 2 NADH (without oxygen, ...
What is an inference
... What organelle in the cell carries How many total ATP is made out cellular respiration? from one molecule of glucose? ...
... What organelle in the cell carries How many total ATP is made out cellular respiration? from one molecule of glucose? ...
Ch. 8 Review Sheet
... Use the above diagram to answer this question and the next 11 questions: Identify the substances represented by the arrows. Roman numeral I represents the first stage of photosynthesis; Roman numeral II represents the second stage of photosynthesis. 20. Which arrow represents glucose? A. 1 B. 5 ...
... Use the above diagram to answer this question and the next 11 questions: Identify the substances represented by the arrows. Roman numeral I represents the first stage of photosynthesis; Roman numeral II represents the second stage of photosynthesis. 20. Which arrow represents glucose? A. 1 B. 5 ...
Cell respiration -2
... I- Substrate-level phosphorylation: • Some ATP is generated in glycolysis and in Krebs cycle by Substrate-level phosphorylation. Phosphate group is transferred from an organic molecule (the substrate) to ADP, forming 10% ATP (4 ATP). ...
... I- Substrate-level phosphorylation: • Some ATP is generated in glycolysis and in Krebs cycle by Substrate-level phosphorylation. Phosphate group is transferred from an organic molecule (the substrate) to ADP, forming 10% ATP (4 ATP). ...
Cell Respiration Outline | Date: Mitochondrion • Structure o Double
... Aerobic metabolism o Mitochondria o Oxygen reaches cells, provides maximum energy production o Includes Krebs cycle and oxidative phosphorylation (electron transport chain) ...
... Aerobic metabolism o Mitochondria o Oxygen reaches cells, provides maximum energy production o Includes Krebs cycle and oxidative phosphorylation (electron transport chain) ...
Respiration - mcdowellscience
... • Respiration = the process of breaking down glucose to use for ENERGY – If glucose were gasoline, then respiration would be the engine running in your car. • (you can’t go anywhere if the engine’s not running!) ...
... • Respiration = the process of breaking down glucose to use for ENERGY – If glucose were gasoline, then respiration would be the engine running in your car. • (you can’t go anywhere if the engine’s not running!) ...
Glucose
Glucose is a sugar with the molecular formula C6H12O6. The name ""glucose"" (/ˈɡluːkoʊs/) comes from the Greek word γλευκος, meaning ""sweet wine, must"". The suffix ""-ose"" is a chemical classifier, denoting a carbohydrate. It is also known as dextrose or grape sugar. With 6 carbon atoms, it is classed as a hexose, a sub-category of monosaccharides. α-D-glucose is one of the 16 aldose stereoisomers. The D-isomer (D-glucose) occurs widely in nature, but the L-isomer (L-glucose) does not. Glucose is made during photosynthesis from water and carbon dioxide, using energy from sunlight. The reverse of the photosynthesis reaction, which releases this energy, is a very important source of power for cellular respiration. Glucose is stored as a polymer, in plants as starch and in animals as glycogen.