Muscle Metabolism - Liberty Union High School District
... Donor molecule: Creatine kinase grabs a Pi from creatine phosphate (CP) and adds to ADP to make ATP, nearly all ATP during short burst are produced this way (phosphagen system) ...
... Donor molecule: Creatine kinase grabs a Pi from creatine phosphate (CP) and adds to ADP to make ATP, nearly all ATP during short burst are produced this way (phosphagen system) ...
Biochemistry Study Guide – Exam 1
... 4 types of weak interactions in water Ionic bonds, hydrogen bonds, Van der Waals forces (3 types) Also, hydrophobic interaction (which is not an attractive force) Acid-base chemistry and ionization Relationship between [H+] and pH Acid dissociation constant, pKa Titration curves for single pKa, mult ...
... 4 types of weak interactions in water Ionic bonds, hydrogen bonds, Van der Waals forces (3 types) Also, hydrophobic interaction (which is not an attractive force) Acid-base chemistry and ionization Relationship between [H+] and pH Acid dissociation constant, pKa Titration curves for single pKa, mult ...
Bio-Molecules
... Movement: Makes up muscle tissue (actin and myosin). Transport: Carries oxygen in organisms (hemoglobin). Immunity: Helps fight off foreign invaders (antibodies). Enzymes: Speed up chemical reactions (amylase and trypsin). Energy source (1 gram = 4 cal of energy). ...
... Movement: Makes up muscle tissue (actin and myosin). Transport: Carries oxygen in organisms (hemoglobin). Immunity: Helps fight off foreign invaders (antibodies). Enzymes: Speed up chemical reactions (amylase and trypsin). Energy source (1 gram = 4 cal of energy). ...
Excretion and Metabolic Wastes
... molecules they can use to do 'work' with, or making structural components for the cell. ...
... molecules they can use to do 'work' with, or making structural components for the cell. ...
Slide 1
... metabolized to generate energy. Many carbohydrates can be broken down in glycolysis and enter the Krebs Cycle. Proteins can be broken down into amino acids and those can be deaminated and the carbon chains feed into the Krebs Cycle. The very long carbon chains of fatty acids can be chopped into two ...
... metabolized to generate energy. Many carbohydrates can be broken down in glycolysis and enter the Krebs Cycle. Proteins can be broken down into amino acids and those can be deaminated and the carbon chains feed into the Krebs Cycle. The very long carbon chains of fatty acids can be chopped into two ...
nutrition i - people.vcu.edu
... BODY’S “IDLING SPEED” (THE MINIMAL WAKING RATE OF INTERNAL ENERGY EXPENDITURE) DIRECT CALORIMETERY(MEASURE RATE OF HEAT PRODUCTION) INDIRECT CALORIMETERY (MEASURE OXYGEN CONSUMPTION) (SEE LAB NOTES FROM DEC.2) ...
... BODY’S “IDLING SPEED” (THE MINIMAL WAKING RATE OF INTERNAL ENERGY EXPENDITURE) DIRECT CALORIMETERY(MEASURE RATE OF HEAT PRODUCTION) INDIRECT CALORIMETERY (MEASURE OXYGEN CONSUMPTION) (SEE LAB NOTES FROM DEC.2) ...
Organic compounds
... Provide structure for tissue and organs and carry out cell metabolism. Metabolism: all the chemical reactions that occur within an organism. The basic building blocks are amino acids (a.a.) A structural building block of many organism Enzymes are proteins ...
... Provide structure for tissue and organs and carry out cell metabolism. Metabolism: all the chemical reactions that occur within an organism. The basic building blocks are amino acids (a.a.) A structural building block of many organism Enzymes are proteins ...
BOTANY DEPARTMENT - university of nairobi staff profiles
... the intricate nature of life. Define homeostatis, differentiate between Homoeotherms and Poikilotherms Distinguish different modes autotrophic and heterotrophic nutrition Understand anaerobic and aerobic metabolism and its importance A good understanding of biological reductive and oxidative reactio ...
... the intricate nature of life. Define homeostatis, differentiate between Homoeotherms and Poikilotherms Distinguish different modes autotrophic and heterotrophic nutrition Understand anaerobic and aerobic metabolism and its importance A good understanding of biological reductive and oxidative reactio ...
Cell Physiology
... allosteric modulation (the most common type); if bound covalently, it is covalent modulation (which is more difficult to ...
... allosteric modulation (the most common type); if bound covalently, it is covalent modulation (which is more difficult to ...
Chapter 8 study guide
... living organism and energy 2nd law of thermodynamics various types of energy and what they are used for with regards to organisms know what each part of the free energy equation means and measures, and how H and S effect G change in free energy at chemical equilibrium exergonic / enderonic reactions ...
... living organism and energy 2nd law of thermodynamics various types of energy and what they are used for with regards to organisms know what each part of the free energy equation means and measures, and how H and S effect G change in free energy at chemical equilibrium exergonic / enderonic reactions ...
2008b(12): Detail the protective and regulatory roles of the liver
... - catabolic functions: o CHO: glycogenolysis, gluconeogenesis (via acetyl CoA formation from fatty acid breakdown) → maintain BSL o fats: ↑lipolysis ketone body formation bile acid formation (for fat absorption) o proteins: ammonium formation (via glutathione synthesis for transport to PCT in ...
... - catabolic functions: o CHO: glycogenolysis, gluconeogenesis (via acetyl CoA formation from fatty acid breakdown) → maintain BSL o fats: ↑lipolysis ketone body formation bile acid formation (for fat absorption) o proteins: ammonium formation (via glutathione synthesis for transport to PCT in ...
Slide 1
... energy drinks have even more negative health consequences than mixing alcohol with more conventional mixes such as pop, water, or juice? ...
... energy drinks have even more negative health consequences than mixing alcohol with more conventional mixes such as pop, water, or juice? ...
Cell Metabolism
... extracellular signalling molecules. • Describe the difference between anabolic and catabolic processes, and explain how metabolic pathways can be reversible and irreversible steps as well as alternative processes. • The key role played by specific enzymes in regulating rates of reactions. ...
... extracellular signalling molecules. • Describe the difference between anabolic and catabolic processes, and explain how metabolic pathways can be reversible and irreversible steps as well as alternative processes. • The key role played by specific enzymes in regulating rates of reactions. ...
Biochemistry Learning Targets and Essential Vocabulary name describe
... Biochemistry Learning Targets and Essential Vocabulary ...
... Biochemistry Learning Targets and Essential Vocabulary ...
Glycolysis - Centre College
... • Charge repulsion of phosphates • Increase in entropy (number of molecules increases) • Resonance stabilization of product ...
... • Charge repulsion of phosphates • Increase in entropy (number of molecules increases) • Resonance stabilization of product ...
PowerPoint Presentation - Horizon Christian Academy
... -Lipids also contain _________, steroids cholesterol ______________, and _______________ hormones phospholipids - main -also form ________________ structure of cell membrane ...
... -Lipids also contain _________, steroids cholesterol ______________, and _______________ hormones phospholipids - main -also form ________________ structure of cell membrane ...
Overview of Energy and Metabolism
... In human metabolism Calorie is really kilocalorie or 1,000 calories. Indicated by a “C” This calorie “C” is the amount of energy required to raise the temperature to 1 kg of water 1 degree C. The Caloric needs of most organisms is measured as Basal Metabolic Rate (BMR) ...
... In human metabolism Calorie is really kilocalorie or 1,000 calories. Indicated by a “C” This calorie “C” is the amount of energy required to raise the temperature to 1 kg of water 1 degree C. The Caloric needs of most organisms is measured as Basal Metabolic Rate (BMR) ...
chapters-6-8-filled
... The return flow of these ions makes part of each ATPsynthase molecule rotate and catalyse the synthesis of ATP. Oxygen, the final electron acceptor, combines with hydrogen ions and electrons to form water. Complex carbohydrates, proteins and fats can all be used as respiratory substrates if they are ...
... The return flow of these ions makes part of each ATPsynthase molecule rotate and catalyse the synthesis of ATP. Oxygen, the final electron acceptor, combines with hydrogen ions and electrons to form water. Complex carbohydrates, proteins and fats can all be used as respiratory substrates if they are ...
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.