Cellular Respiration
... • If 6 FADH2 are produced in the Kreb’s cycle, how many glucose molecules did you start with? • How many ATP are made in Kreb’s if you start with 10 ...
... • If 6 FADH2 are produced in the Kreb’s cycle, how many glucose molecules did you start with? • How many ATP are made in Kreb’s if you start with 10 ...
Metabolic Processes Unit
... e. All of the above. 23. The oxygen given off from photosynthesis comes from a. carbon dioxide. b. glucose. c. water. d. all of the above. e. a anc c only. 24. ATP is generated as a. H+ ions enter the thylakoid space. b. H+ ions exit the thylakoid space. c. NADH is oxidized. d. Electrons leave the r ...
... e. All of the above. 23. The oxygen given off from photosynthesis comes from a. carbon dioxide. b. glucose. c. water. d. all of the above. e. a anc c only. 24. ATP is generated as a. H+ ions enter the thylakoid space. b. H+ ions exit the thylakoid space. c. NADH is oxidized. d. Electrons leave the r ...
Energy systems.
... Fuel and energy for this comes from CHO, Fats, Proteins and Creatine phosphate. These fuel sources resynthesise the free Phosphate molecule (Pi) back to the ADP to reform ATP. ...
... Fuel and energy for this comes from CHO, Fats, Proteins and Creatine phosphate. These fuel sources resynthesise the free Phosphate molecule (Pi) back to the ADP to reform ATP. ...
Energy systems.
... Fuel and energy for this comes from CHO, Fats, Proteins and Creatine phosphate. These fuel sources resynthesise the free Phosphate molecule (Pi) back to the ADP to reform ATP. ...
... Fuel and energy for this comes from CHO, Fats, Proteins and Creatine phosphate. These fuel sources resynthesise the free Phosphate molecule (Pi) back to the ADP to reform ATP. ...
Course Content Form - Pima Community College
... Write and calculate equilibrium constants for a chemical reaction, calculate equilibrium concentrations from initial concentrations, apply Le Chatelier's principle to a chemical reaction and predict how changes in concentration, temperature, pressure, and volume influence the equilibrium system. Dis ...
... Write and calculate equilibrium constants for a chemical reaction, calculate equilibrium concentrations from initial concentrations, apply Le Chatelier's principle to a chemical reaction and predict how changes in concentration, temperature, pressure, and volume influence the equilibrium system. Dis ...
Organic Chemistry Answer Key
... D. tendency to make cell membranes hydrophobic Substance A is converted to substance B in a metabolic reaction. Which statement best describes the role of an enzyme during this reaction? A. It adjusts the pH of the reaction medium. B. It provides energy to carry out the reaction. C. It dissolv ...
... D. tendency to make cell membranes hydrophobic Substance A is converted to substance B in a metabolic reaction. Which statement best describes the role of an enzyme during this reaction? A. It adjusts the pH of the reaction medium. B. It provides energy to carry out the reaction. C. It dissolv ...
7.6 Enzymes – summary of mark schemes
... shape / (intramolecular) bonding / conformation of the protein / enzyme is altered; shape / properties of active site altered; substrate no longer fits the active site / no enzyme-substrate / ES complex formed; no enzyme activity / works more slowly (until the inhibitor dissociates); eg CN inhibitio ...
... shape / (intramolecular) bonding / conformation of the protein / enzyme is altered; shape / properties of active site altered; substrate no longer fits the active site / no enzyme-substrate / ES complex formed; no enzyme activity / works more slowly (until the inhibitor dissociates); eg CN inhibitio ...
Anaerobic Fermentation
... CoA is thereby regenerated and returns to pick up more C from pyruvate 3NAD+ and 1FAD reduced to form NADH and FADH2 To do this, a series of intermediates have all their Hydrogens removed Remaining C and O released as 2CO2 1 ATP is produced Oxaloacetate is reformed Cycle runs one time ...
... CoA is thereby regenerated and returns to pick up more C from pyruvate 3NAD+ and 1FAD reduced to form NADH and FADH2 To do this, a series of intermediates have all their Hydrogens removed Remaining C and O released as 2CO2 1 ATP is produced Oxaloacetate is reformed Cycle runs one time ...
integrated-principles-of-zoology-16th-edition-hickman
... Draw, use transparencies, slides or video to illustrate the different isomeric forms of the hexose sugars glucose, fructose, and galactose, and reasons for their different characteristics. Show how the structures fit into enzymes and why different enzymes would be needed to interact with different i ...
... Draw, use transparencies, slides or video to illustrate the different isomeric forms of the hexose sugars glucose, fructose, and galactose, and reasons for their different characteristics. Show how the structures fit into enzymes and why different enzymes would be needed to interact with different i ...
Chapter 6 PowerPoint
... Products have less free energy than reactants H is lower or S is higher or both Spontaneous (may not be instantaneous) Exergonic ...
... Products have less free energy than reactants H is lower or S is higher or both Spontaneous (may not be instantaneous) Exergonic ...
Introductory Microbiology Chap. 5 Chapter Outlines/Notes I
... 1. Example of Competitive Inhibition and its use in Medicine: Sulfa Drugs All cells require folic acid for growth. Folic acid (vitamin B9) in food diffuses or is transported into human cells. However, folic acid cannot cross bacterial cell walls by diffusion or active transport. For this reason bact ...
... 1. Example of Competitive Inhibition and its use in Medicine: Sulfa Drugs All cells require folic acid for growth. Folic acid (vitamin B9) in food diffuses or is transported into human cells. However, folic acid cannot cross bacterial cell walls by diffusion or active transport. For this reason bact ...
Chapter 5 Test Review
... Chapter 5 Test Review Section 1 1. What molecule do organisms use to temporarily store energy released from carbohydrates and lipids? ...
... Chapter 5 Test Review Section 1 1. What molecule do organisms use to temporarily store energy released from carbohydrates and lipids? ...
Muscle Tissue C1
... • Occurs when O2 delivery cannot keep up with O2 use • As contractile activity increases, O2 consumption may increase above O2 delivery capability, so anaerobic metabolism begins • Pyruvic acid lactic acid when not enough O2 • Lactic acid (lactate) • Makes muscle cells acidic, less efficient • Dif ...
... • Occurs when O2 delivery cannot keep up with O2 use • As contractile activity increases, O2 consumption may increase above O2 delivery capability, so anaerobic metabolism begins • Pyruvic acid lactic acid when not enough O2 • Lactic acid (lactate) • Makes muscle cells acidic, less efficient • Dif ...
9.2 The Process of Respiration
... B. Kreb's Cycle/Citric Acid Cycle (Follow the electrons) Will only occur if O2 is present!!! Input Pyruvic Acid from Glycolysis Intermediate Molecule= Citric Acid (hence the name) Output NAD+ NADH (Carry electrons and energy) FAD+ FADH ...
... B. Kreb's Cycle/Citric Acid Cycle (Follow the electrons) Will only occur if O2 is present!!! Input Pyruvic Acid from Glycolysis Intermediate Molecule= Citric Acid (hence the name) Output NAD+ NADH (Carry electrons and energy) FAD+ FADH ...
UNIT 4 STUDY GUIDE: Energetics
... 10) Where do the light reactions take place? Where does the Calvin cycle take place? 11) Summarize the “main events” of the light reactions. (HINT: your summary should include 7-10 details or steps!...in other words more explanation than: “light goes in, ATP and NADPH come out”) ...
... 10) Where do the light reactions take place? Where does the Calvin cycle take place? 11) Summarize the “main events” of the light reactions. (HINT: your summary should include 7-10 details or steps!...in other words more explanation than: “light goes in, ATP and NADPH come out”) ...
Carbohydrates lipids and prpoteins 3.2
... Animals tend to use carbohydrates primarily for short-term energy storage, while lipids are used more for longterm energy storage Carbohydrates are stored as glycogen in animals while lipids are stored as fats (in plants carbohydrates are stored as cellulose and lipids as oils) Lipids have less effe ...
... Animals tend to use carbohydrates primarily for short-term energy storage, while lipids are used more for longterm energy storage Carbohydrates are stored as glycogen in animals while lipids are stored as fats (in plants carbohydrates are stored as cellulose and lipids as oils) Lipids have less effe ...
Clinical biochemistry
... IEM arises from a damaged gene which leads to abnormal enzyme. May be autosomal or sex-linked. May be recessive or dominant in expression. Heterozygote will have both normal and abnormal alleles. But homozygote will have two alleles the same on each chromosome. ...
... IEM arises from a damaged gene which leads to abnormal enzyme. May be autosomal or sex-linked. May be recessive or dominant in expression. Heterozygote will have both normal and abnormal alleles. But homozygote will have two alleles the same on each chromosome. ...
Unit 3 Study Guide: Energetics
... 12) Where do the light reactions take place? Where does the Calvin cycle take place? 13) Summarize the “main events” of the light reactions. (HINT: your summary should include 7-12 details or steps!…in other words more explanation than: “light goes in, ATP and NADPH come out”) 14) What is the differ ...
... 12) Where do the light reactions take place? Where does the Calvin cycle take place? 13) Summarize the “main events” of the light reactions. (HINT: your summary should include 7-12 details or steps!…in other words more explanation than: “light goes in, ATP and NADPH come out”) 14) What is the differ ...
Energy and Respiration
... The value of RQ is equal to 1 if carbohydrates are the respiratory substrates in aerobic respiration. Fats When the respiratory substrate is fat, the RQ is about 0.7. Example: Tripalmitin ...
... The value of RQ is equal to 1 if carbohydrates are the respiratory substrates in aerobic respiration. Fats When the respiratory substrate is fat, the RQ is about 0.7. Example: Tripalmitin ...
Basal metabolic rate
Basal metabolic rate (BMR) is the minimal rate of energy expenditure per unit time by endothermic animals at rest. (McNab, B. K. 1997). On the Utility of Uniformity in the Definition of Basal Rate of Metabolism. Physiol. Zool. Vol.70; Metabolism refers to the processes that the body needs to function. Basal Metabolic Rate is the amount of energy expressed in calories that a person needs to keep the body functioning at rest. Some of those processes are breathing, blood circulation, controlling body temperature, cell growth, brain and nerve function, and contraction of muscles. Basal metabolic rate (BMR) affects the rate that a person burns calories and ultimately whether you maintain, gain, or lose weight. Your basal metabolic rate accounts for about 60 to 75% of the calories you burn every day. It is influenced by several factors.