Stage 4 Digestion: Electron Transport Chain
... Stage 4 Digestion: Electron Transport Chain - ETC Interconnected proteins - named by Roman numerals (on large graphic on back of page) - embedded in the inner mitochondrial membrane ETC Jobs 1. Dehydrogenases: Removal of H from NADH and FADH Separation into a high energy electron e- & H+ 2. Proton p ...
... Stage 4 Digestion: Electron Transport Chain - ETC Interconnected proteins - named by Roman numerals (on large graphic on back of page) - embedded in the inner mitochondrial membrane ETC Jobs 1. Dehydrogenases: Removal of H from NADH and FADH Separation into a high energy electron e- & H+ 2. Proton p ...
metabolism - Doctor Jade Main
... • all chemical reactions occurring in an organism • involves • Catabolism – breakdown of organic molecules – releases energy • Anabolism – synthesis of new organic molecules – formation of new chemical bonds ...
... • all chemical reactions occurring in an organism • involves • Catabolism – breakdown of organic molecules – releases energy • Anabolism – synthesis of new organic molecules – formation of new chemical bonds ...
Document
... ORGANIC CHEMISTRY Organic compounds always contain carbon and hydrogen. Inorganic compounds typically lack carbon. ...
... ORGANIC CHEMISTRY Organic compounds always contain carbon and hydrogen. Inorganic compounds typically lack carbon. ...
CellFactoryChemE355 - University of Washington
... of metabolism arose New strategies for redesign ...
... of metabolism arose New strategies for redesign ...
File - Buford`s Biology Buzz
... sunlight, rainfall, and temperature enter the picture a. DNA b. carbohydrate c. lipid d. protein is the 15. Which of the following does NOT describe some a. organ system. b. ecosystem. c. biosphere. aspect of polysaccharides? d. molecule. e. community. a. energy storage b. straight or branched chain ...
... sunlight, rainfall, and temperature enter the picture a. DNA b. carbohydrate c. lipid d. protein is the 15. Which of the following does NOT describe some a. organ system. b. ecosystem. c. biosphere. aspect of polysaccharides? d. molecule. e. community. a. energy storage b. straight or branched chain ...
Chem 371-001 - Loyola University Chicago
... Classroom Behavior It is incumbent upon the students to maintain a professionalism and code of conduct appropriate with the course material and course enrollment. Rude, disruptive behavior (such as talking during lecture) will not be tolerated. While it is acceptable to use laptops or tablets for ta ...
... Classroom Behavior It is incumbent upon the students to maintain a professionalism and code of conduct appropriate with the course material and course enrollment. Rude, disruptive behavior (such as talking during lecture) will not be tolerated. While it is acceptable to use laptops or tablets for ta ...
Multiple Choice Review- Photosynthesis and Cellular Respiration
... 38. How many turns of the Calvin Cycle are needed to create one molecule of glucose? a. 1 b. 2 c. 3 d. 6 39. Which of the following is the reduced form of a molecule used only in photosynthesis and not in cellular respiration? a. NADH b. FADH2 c. NAD+ d. NADPH 40. Which of the following is not a res ...
... 38. How many turns of the Calvin Cycle are needed to create one molecule of glucose? a. 1 b. 2 c. 3 d. 6 39. Which of the following is the reduced form of a molecule used only in photosynthesis and not in cellular respiration? a. NADH b. FADH2 c. NAD+ d. NADPH 40. Which of the following is not a res ...
Chapter 2 Molecules to enzymes Short Answer
... State four elements that are needed by living organisms, other than carbon, hydrogen and oxygen, giving one role of each. ...
... State four elements that are needed by living organisms, other than carbon, hydrogen and oxygen, giving one role of each. ...
BIOCHEMISTRY REVIEW SHEET
... h. Name the 3 polysaccharides below and give functions of each: Name of polysaccharide Function/description ...
... h. Name the 3 polysaccharides below and give functions of each: Name of polysaccharide Function/description ...
Cellular Metabolism
... b. Fatty acids are broken into ___ ____________ fragments via beta-oxidation and fed into the citric acid cycle 3. Proteins can be broken down via proteases into ____________, then by peptidases into _______ acids; the glucogenic A.A.s can be used in cell respiration G. ____________ pathways 1. ____ ...
... b. Fatty acids are broken into ___ ____________ fragments via beta-oxidation and fed into the citric acid cycle 3. Proteins can be broken down via proteases into ____________, then by peptidases into _______ acids; the glucogenic A.A.s can be used in cell respiration G. ____________ pathways 1. ____ ...
1) Which of the following is the best example of scientific model? A
... 19) The movement of water molecules across a selectively permeable membrane is known as A) Exocytosis C) Endocytosis B) Phagocytosis D) Osmosis 20) Which is the correct sequence of scientific inquiry? A) forming hypotheses, observing, testing hypotheses, evaluating results, analyzing data B) observi ...
... 19) The movement of water molecules across a selectively permeable membrane is known as A) Exocytosis C) Endocytosis B) Phagocytosis D) Osmosis 20) Which is the correct sequence of scientific inquiry? A) forming hypotheses, observing, testing hypotheses, evaluating results, analyzing data B) observi ...
Chemical Bonding
... H+ ions. The closer to 0 the acid is the stronger it is. • A base is a compound that produces hydroxide ions (OH- ions). The closer to 14 the stronger the base is. • Neutral is any compound that has a pH of 7. ...
... H+ ions. The closer to 0 the acid is the stronger it is. • A base is a compound that produces hydroxide ions (OH- ions). The closer to 14 the stronger the base is. • Neutral is any compound that has a pH of 7. ...
NATIONAL UNIVERSITY OF SINGAPORE DEPARTMENT OF BIOCHEMISTRY ADVANCED PLACEMENT TEST (SAMPLE)
... 1. Which of the following statements about the biophysical property of water is INCORRECT? A. Water molecule forms H-bonds B. Water retains heat well C. Water is dielectrict D. Water at freezing point has the highest density E. Water is polar 2. Which of the following is NOT a strong electrolyte and ...
... 1. Which of the following statements about the biophysical property of water is INCORRECT? A. Water molecule forms H-bonds B. Water retains heat well C. Water is dielectrict D. Water at freezing point has the highest density E. Water is polar 2. Which of the following is NOT a strong electrolyte and ...
Chapter 2 The Chemistry of Life
... Used for structure in plants and some animals Monomer – monosaccharide (simple sugar, like glucose), Polymer – polysaccharide (complex carbohydrate, like starch) ...
... Used for structure in plants and some animals Monomer – monosaccharide (simple sugar, like glucose), Polymer – polysaccharide (complex carbohydrate, like starch) ...
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 ...
Nutrition
... the body and will make thirst worse. Proteins Protein molecules contain nitrogen, which is essential for building body proteins. After proteins are digested, the resulting amino acids are used by the body to build structures and to make enzymes. Proteins are found in muscles, blood, and other struct ...
... the body and will make thirst worse. Proteins Protein molecules contain nitrogen, which is essential for building body proteins. After proteins are digested, the resulting amino acids are used by the body to build structures and to make enzymes. Proteins are found in muscles, blood, and other struct ...
Metabolism
Metabolism (from Greek: μεταβολή metabolē, ""change"") is the set of life-sustaining chemical transformations within the cells of living organisms. These enzyme-catalyzed reactions allow organisms to grow and reproduce, maintain their structures, and respond to their environments. The word metabolism can also refer to all chemical reactions that occur in living organisms, including digestion and the transport of substances into and between different cells, in which case the set of reactions within the cells is called intermediary metabolism or intermediate metabolism.Metabolism is usually divided into two categories: catabolism, the breaking down of organic matter by way of cellular respiration, and anabolism, the building up of components of cells such as proteins and nucleic acids. Usually, breaking down releases energy and building up consumes energy.The chemical reactions of metabolism are organized into metabolic pathways, in which one chemical is transformed through a series of steps into another chemical, by a sequence of enzymes. Enzymes are crucial to metabolism because they allow organisms to drive desirable reactions that require energy that will not occur by themselves, by coupling them to spontaneous reactions that release energy. Enzymes act as catalysts that allow the reactions to proceed more rapidly. Enzymes also allow the regulation of metabolic pathways in response to changes in the cell's environment or to signals from other cells.The metabolic system of a particular organism determines which substances it will find nutritious and which poisonous. For example, some prokaryotes use hydrogen sulfide as a nutrient, yet this gas is poisonous to animals. The speed of metabolism, the metabolic rate, influences how much food an organism will require, and also affects how it is able to obtain that food.A striking feature of metabolism is the similarity of the basic metabolic pathways and components between even vastly different species. For example, the set of carboxylic acids that are best known as the intermediates in the citric acid cycle are present in all known organisms, being found in species as diverse as the unicellular bacterium Escherichia coli and huge multicellular organisms like elephants. These striking similarities in metabolic pathways are likely due to their early appearance in evolutionary history, and their retention because of their efficacy.