CHM 365 Name: Exam 2 Oct. 13, 2004 Do all of the questions. Part I
... Edman degradation will: a) determine the C-terminal amino acid by using a carboxypeptidase. b) cleave the protein into a multitude of smaller peptides. c) compare overlapping sets of peptide fragments. d) determine the N-terminal amino acid. e) generate two different, but overlapping sets of peptide ...
... Edman degradation will: a) determine the C-terminal amino acid by using a carboxypeptidase. b) cleave the protein into a multitude of smaller peptides. c) compare overlapping sets of peptide fragments. d) determine the N-terminal amino acid. e) generate two different, but overlapping sets of peptide ...
Respiration - Ms. Killikelly's Science Classes
... move to stage 3-Krebs Cycle ► NADH move to stage 4-Electron Transport/Chemiosmosis (produce ATP by oxidative phosphorylation) ► CO2 exits as waste ► H+ remain dissolved in the matrix ...
... move to stage 3-Krebs Cycle ► NADH move to stage 4-Electron Transport/Chemiosmosis (produce ATP by oxidative phosphorylation) ► CO2 exits as waste ► H+ remain dissolved in the matrix ...
Organic Macromolecules
... 4 calories per gram Purpose or Role: •Membrane channels •Enzymes are proteins that act as catalysts and control chemical reactions ...
... 4 calories per gram Purpose or Role: •Membrane channels •Enzymes are proteins that act as catalysts and control chemical reactions ...
Electron Transport Chain _ETC
... outside the inner membrane. This causes H+ to enter into mitochondria through the channels (Fo); this proton influx causes ATP synthesis by ATP synthase. According to the estimated free energy of synthesis, it was presumed that around 3 protons are required per ATP synthesized. Hence when one NADH t ...
... outside the inner membrane. This causes H+ to enter into mitochondria through the channels (Fo); this proton influx causes ATP synthesis by ATP synthase. According to the estimated free energy of synthesis, it was presumed that around 3 protons are required per ATP synthesized. Hence when one NADH t ...
CellularRespirationReview
... molecules plus the two carbons in the two CO2 molecules from the prep step are evidence that the initial six carbon sugar molecule is completely broken ...
... molecules plus the two carbons in the two CO2 molecules from the prep step are evidence that the initial six carbon sugar molecule is completely broken ...
fermentation & evolution
... Fig. 9.17a Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings ...
... Fig. 9.17a Copyright © 2002 Pearson Education, Inc., publishing as Benjamin Cummings ...
1 The diagram below represents a biological process 5
... 1) They control the transport of materials. 2) They provide energy for chemical reactions. 3) They affect the rate of chemical reactions. 4) They absorb oxygen from the environment. 1) water 2) oxygen 3) nitrogen 4) carbon 15. Two chemical equations are shown below. 9. Which substances are inorganic ...
... 1) They control the transport of materials. 2) They provide energy for chemical reactions. 3) They affect the rate of chemical reactions. 4) They absorb oxygen from the environment. 1) water 2) oxygen 3) nitrogen 4) carbon 15. Two chemical equations are shown below. 9. Which substances are inorganic ...
Respiration
... including yeast and many bacteria, can survive using either fermentation or respiration. •At a cellular level, human muscle cells can behave as facultative anaerobes, but nerve cells cannot. •For facultative anaerobes, pyruvate is a fork in the metabolic road that leads to two alternative routes. ...
... including yeast and many bacteria, can survive using either fermentation or respiration. •At a cellular level, human muscle cells can behave as facultative anaerobes, but nerve cells cannot. •For facultative anaerobes, pyruvate is a fork in the metabolic road that leads to two alternative routes. ...
Chemistry - cloudfront.net
... are radioactive and decay at a known rate called the half-life. Knowing the half-life enables us to measure the age of fossils or to estimate the age of the earth. Radioisotopes (radioactive isotopes) are useful in many other ways. For example, radioactive iodine (I-131) can be used both to diagnose ...
... are radioactive and decay at a known rate called the half-life. Knowing the half-life enables us to measure the age of fossils or to estimate the age of the earth. Radioisotopes (radioactive isotopes) are useful in many other ways. For example, radioactive iodine (I-131) can be used both to diagnose ...
Unit 04 Lecture Notes - Roderick Anatomy and Physiology
... • I can explain the process of Translation. (Where, what molecules are involved and why it’s important) ...
... • I can explain the process of Translation. (Where, what molecules are involved and why it’s important) ...
AP BIOLOGY Chapter 8 Metabolism
... both plants and animals have mitochondria How many carbons are in a glucose molecule? 6; C6H12O6 ...
... both plants and animals have mitochondria How many carbons are in a glucose molecule? 6; C6H12O6 ...
Practice Exam III
... 3). For the reaction catalyzed by adenylate kinase: ATP + AMP 2 ADP The overall G’ 0 even though the cellular [AMP], [ADP], and [ATP] are far away from their equilibrium values. What is an alternative explanation for why this reaction operates with a G’ 0? a). Adenylate kinase is altering t ...
... 3). For the reaction catalyzed by adenylate kinase: ATP + AMP 2 ADP The overall G’ 0 even though the cellular [AMP], [ADP], and [ATP] are far away from their equilibrium values. What is an alternative explanation for why this reaction operates with a G’ 0? a). Adenylate kinase is altering t ...
Worked solutions: Chapter 2 Human biochemistry
... Proteins have a secondary, tertiary and quaternary structure due to intermolecular forces between functional groups in the polymer chain, in addition to the initial primary structure, whereas poly(ethene), a non-polar polymer, only has a primary structure. Also, there are 20 possible monomers for pr ...
... Proteins have a secondary, tertiary and quaternary structure due to intermolecular forces between functional groups in the polymer chain, in addition to the initial primary structure, whereas poly(ethene), a non-polar polymer, only has a primary structure. Also, there are 20 possible monomers for pr ...
organic molecules webquest
... these questions: http://www.wisc-online.com/objects/index_tj.asp?objid=AP13104 1. What elements are carbohydrates generally composed of? 2. What is the type of sugar found in fruit called? 3. What is the common name for sucrose? 4. Polysaccharides include starch, cellulose, and glycogen. These long, ...
... these questions: http://www.wisc-online.com/objects/index_tj.asp?objid=AP13104 1. What elements are carbohydrates generally composed of? 2. What is the type of sugar found in fruit called? 3. What is the common name for sucrose? 4. Polysaccharides include starch, cellulose, and glycogen. These long, ...
Slide 1
... carbon atoms bonded to each other and to atoms of other elements. – These other elements commonly include hydrogen (H), oxygen (O), nitrogen (N), sulfur (S), and phosphorus (P). ...
... carbon atoms bonded to each other and to atoms of other elements. – These other elements commonly include hydrogen (H), oxygen (O), nitrogen (N), sulfur (S), and phosphorus (P). ...
CELLULAR RESPIRATION
... CELLULAR RESPIRATION Cellular Respiration - Cells transfer energy from food molecules to ATP, the byproduct is water and carbon dioxide ...
... CELLULAR RESPIRATION Cellular Respiration - Cells transfer energy from food molecules to ATP, the byproduct is water and carbon dioxide ...
Anaerobic Respiration
... Value of exercise intensity at which [blood lactate] increases sharply because lactate production is greater that lactate removal. Exercising below this intensity can be maintained for hours (such when someone is running a marathon) However, beyond this may limit duration b/c of pain, stiffness, fat ...
... Value of exercise intensity at which [blood lactate] increases sharply because lactate production is greater that lactate removal. Exercising below this intensity can be maintained for hours (such when someone is running a marathon) However, beyond this may limit duration b/c of pain, stiffness, fat ...
Electron Transport Chain
... Once this ATP is used up_____________ fermentation can provide enough ATP ...
... Once this ATP is used up_____________ fermentation can provide enough ATP ...
Understanding Our Environment
... Resulting complexes split into twelve 3PGA molecules. NADPH and ATP (from light dependent reactions) supply energy and electrons that reduce the twelve 3PGA to 12 GA3P. Ten of the twelve GA3P molecules are restructured into six RuBP molecules using another 6 ATPs. The remaining two GA3P are us ...
... Resulting complexes split into twelve 3PGA molecules. NADPH and ATP (from light dependent reactions) supply energy and electrons that reduce the twelve 3PGA to 12 GA3P. Ten of the twelve GA3P molecules are restructured into six RuBP molecules using another 6 ATPs. The remaining two GA3P are us ...
LB Metabolic Diseases
... from fatty acid ßoxidation is either: 1) oxidized in TCA 2) repackaged 3) forms ketones ...
... from fatty acid ßoxidation is either: 1) oxidized in TCA 2) repackaged 3) forms ketones ...
Cellular Respiration PowerPoint
... exactly you need to breathe? What happens when you stop breathing? ...
... exactly you need to breathe? What happens when you stop breathing? ...
Benfotiamine 150 + Alpha-Lipoic Acid 300
... Aging brings an accumulation of oxidized proteins that interfere with mitochondrial efficiency, and a reduction in mitochondrial mass that leads to imperfect energy homeostasis. Alpha-lipoic acid’s status as a so-called “mitochondrial nutrient” helps to address these aging factors.18, 19 Benfotiamin ...
... Aging brings an accumulation of oxidized proteins that interfere with mitochondrial efficiency, and a reduction in mitochondrial mass that leads to imperfect energy homeostasis. Alpha-lipoic acid’s status as a so-called “mitochondrial nutrient” helps to address these aging factors.18, 19 Benfotiamin ...
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.