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...  (Carbon, Hydrogen, oxygen in 1:2:1 ratio)  Exist as simple sugars or as polymers.  Simple sugars:  3-carbon sugars (glyceraldehyde)  Pentoses (5C) (ribose)  Hexoses (6C) (glucose, fructose)  Uses: Energy source, building blocks for other molecules. ...

Lecture 5 - Fermentation and CHO feeder

... (stored as glycogen) The process of transporting lactate to the liver and its conversion to glucose takes from hours to days to complete. ...

monosaccharides

Introduction and Chemistry (Ch1 2)

... What are examples of inorganic compounds in the body? ...

Lecture 7

... Chapter 5, part B Microbial Metabolism ...

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... Macromolecules: Proteins, Lipids, Polysaccharides (Carbohydrates) and Nucleic Acids Monomer: single building block for a macromolecule Proteins (polypeptides)  Monomer: amino acid (a.a.)  Compound in your body with nitrogen, carbon, oxygen and hydrogen  20 essential amino acids in your body  Lin ...

Metabolic Reactions Responsible for Glucose

... the metabolic reactions responsible, specific inhibitors were added to cultures grown in LP or LP glucose, and APase activity was monitored. The addition of 2.5 mM-potassium fluoride, which inhibits enolase in vivo (Kanapka & Hamilton, 1971) and is also active against V . cholerae enolase in uitro ( ...

Chapter 7

... blood? Hint: they attach to something… what is it? 43. What is the role of carnitine? 44. What needs to happen to amino acids before they can be used for energy? What happens to the amino groups? 45. List some possible fates of amino acids in terms of where they might enter ATPproduction pathways. 4 ...

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... liver. This form produces GTP. GTP is energetically equivalent to ATP; however, its use is more restricted. In particular, protein synthesis primarily uses GTP. Step 6. Step six is a dehydration process that converts succinate into fumarate. Two hydrogen atoms are transferred to FAD, producing FADH2 ...

11 catabolism

... ATP Yield During Aerobic Respiration maximum ATP yield can be calculated – includes P/O ratios of NADH and FADH2 – ATP produced by substrate level phosphorylation the theoretical maximum total yield of ATP during aerobic respiration is 38 Theoretical vs. Actual Yield of ATP amount of ATP produced du ...

Photosynthesis- Photosynthetic carbon reduction (PCR)

... • Increase CO2 at site of Calvin cycle • Under high light/high temperature conditions ...

Building Macromolecules Notes

... also bind forming large polymers called Macromolecules. (macro = large) ...

Respiration Power Point

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ch9 ppt outline

... The cells of most organisms transfer energy found in Proteins and nucleic acids can also be used to make ATP, organic compounds, such as those in foods, to ATP. but they are usually used for building important cell parts. The primary fuel for cellular respiration is _____________. Q18 WHERE DO YOU G ...

Mitochondria Mitochondria are the organelles that function as the

... cell. It is a group of flattened sacs arranged much like a stack of bowls. They function to modify and package proteins and lipids into vesicles, small spherically shaped sacs that bud from the ends of a Golgi apparatus. Vesicles often migrate to and merge with the plasma membrane, releasing their c ...

Chapter 7

... acid & ammonia which can upset the acid-base balance in excess amt.) catabolized by conversion to pyruvate,( can provide glucose) conversion to acetyl CoA ( can provide additional energy or make body fat but cannot make glucose) or enter the TCA cycle directly as compounds other than acetyl CoA (can ...

You Light Up My Life - Hillsborough Community College

... – Used to make beer and wine ...

Lecture 023--Photosynthesis 2 (Dark Reactions)

IBBIO Jeopardy Review 02 wiki

... The induced-fit model is is an extension of the lock-and-key model of enzyme activity. Its accounts for the ability of some enzymes to bind to several substrates. ...

Selected Solutions to End of Chapter 17 Problems

... cleaves fatty acids from triacylglycerol is 7X more active than Pheasant. This also goes for entry to CAC. Pheasant has faster rates for using glycogen and glycolysis. b. What would you predict the oxygen consumption rates for these two birds would be? Pigeon would us more oxygen, a full bore CAC! c ...

BDS Ist YEAR EXAMINATION 2008-09

... Note: 1. Attempt all questions and return this part of the question paper to the invigilator after 20 Minutes. 2. Please tick (√) correct one only. Cutting, overwriting or any other marking are not allowed. 3. For answering please use Ball- pen only. ...

Repetition Summary of last lecture Energy Cell Respiration

... In a c ti v e tra n s c ri p ti o n fa c to r ...

Nutrition - Southwest High School

... Insulin controls the amount of sugar from digested foods circulating in your bloodstream, and allows cells to use the sugar for fuel or be stored for future needs. Watch the animation to learn the basics about insulin. http://www.sharecare.com/question/role-insulin-in-body Insulin is Part of a Balan ...

40Ch35nutrition02200..

... This obese mouse (L) has defect in gene which normally produces leptin, an appetite-regulating protein. ...

Midterm Review

... body. An organism who can not maintain homeostasis within all its systems will die. Explain how the nervous system, muscular system, skeletal system, and circulatory system work together to help you keep a constant body temperature when it is cold. When it is cold out, the sensory neurons (nervous s ...

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Glycolysis

Glycolysis (from glycose, an older term for glucose + -lysis degradation) is the metabolic pathway that converts glucose C6H12O6, into pyruvate, CH3COCOO− + H+. The free energy released in this process is used to form the high-energy compounds ATP (adenosine triphosphate) and NADH (reduced nicotinamide adenine dinucleotide).Glycolysis is a determined sequence of ten enzyme-catalyzed reactions. The intermediates provide entry points to glycolysis. For example, most monosaccharides, such as fructose and galactose, can be converted to one of these intermediates. The intermediates may also be directly useful. For example, the intermediate dihydroxyacetone phosphate (DHAP) is a source of the glycerol that combines with fatty acids to form fat.Glycolysis is an oxygen independent metabolic pathway, meaning that it does not use molecular oxygen (i.e. atmospheric oxygen) for any of its reactions. However the products of glycolysis (pyruvate and NADH + H+) are sometimes disposed of using atmospheric oxygen. When molecular oxygen is used in the disposal of the products of glycolysis the process is usually referred to as aerobic, whereas if the disposal uses no oxygen the process is said to be anaerobic. Thus, glycolysis occurs, with variations, in nearly all organisms, both aerobic and anaerobic. The wide occurrence of glycolysis indicates that it is one of the most ancient metabolic pathways. Indeed, the reactions that constitute glycolysis and its parallel pathway, the pentose phosphate pathway, occur metal-catalyzed under the oxygen-free conditions of the Archean oceans, also in the absence of enzymes. Glycolysis could thus have originated from chemical constraints of the prebiotic world.Glycolysis occurs in most organisms in the cytosol of the cell. The most common type of glycolysis is the Embden–Meyerhof–Parnas (EMP pathway), which was discovered by Gustav Embden, Otto Meyerhof, and Jakub Karol Parnas. Glycolysis also refers to other pathways, such as the Entner–Doudoroff pathway and various heterofermentative and homofermentative pathways. However, the discussion here will be limited to the Embden–Meyerhof–Parnas pathway.The entire glycolysis pathway can be separated into two phases: The Preparatory Phase – in which ATP is consumed and is hence also known as the investment phase The Pay Off Phase – in which ATP is produced.↑ ↑ 2.0 2.1 ↑ ↑ ↑ ↑ ↑ ↑

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Glycolysis