Examination questions
... Students select three questions and have about 30 minutes for the written preparation. They should summarize their answers as concisely and accurately as possible. It is recommended to follow these items: - to write a brief synopsis emphasizing the main ideas - to draw metabolic pathways in structur ...
... Students select three questions and have about 30 minutes for the written preparation. They should summarize their answers as concisely and accurately as possible. It is recommended to follow these items: - to write a brief synopsis emphasizing the main ideas - to draw metabolic pathways in structur ...
- Our Schools
... lipids are – Phospholipid bilayer in the cell membrane – Waxes – Oils – Fats – Steroids – Cholesterol ...
... lipids are – Phospholipid bilayer in the cell membrane – Waxes – Oils – Fats – Steroids – Cholesterol ...
CATALYSIS OF BIOCHEMICAL REACTIONS
... 1. A and B together have some potential energy (in chemical bonds) and kinetic energy (in motion). 2. A and B collide; collision distorts or stresses bonds to the point where they can rearrange electrons; generally, this requires more potential energy (since without stress, one expects electrons to ...
... 1. A and B together have some potential energy (in chemical bonds) and kinetic energy (in motion). 2. A and B collide; collision distorts or stresses bonds to the point where they can rearrange electrons; generally, this requires more potential energy (since without stress, one expects electrons to ...
File
... explores the ____________processes within and related to ________organisms. It is a laboratory based science that brings together biology and chemistry. By using chemical knowledge and techniques, biochemists can understand and solve ______________ problems ...
... explores the ____________processes within and related to ________organisms. It is a laboratory based science that brings together biology and chemistry. By using chemical knowledge and techniques, biochemists can understand and solve ______________ problems ...
macromolecules
... organisms are called organic compounds. • Two carbon atoms can form various types of covalent bonds—single, double or triple. ...
... organisms are called organic compounds. • Two carbon atoms can form various types of covalent bonds—single, double or triple. ...
Cellular Respiration Check-in Questions: THESE Questions are
... 5. If the main purpose of cellular respiration is to produce ATP, why do glycolysis and the Krebs cycle only make 4 ATP by the time glucose is converted to carbon dioxide? ...
... 5. If the main purpose of cellular respiration is to produce ATP, why do glycolysis and the Krebs cycle only make 4 ATP by the time glucose is converted to carbon dioxide? ...
Basic Concepts of Cellular Metabolism and Bioenergetics
... - emulsify fat globules - easier to digest. Small intestine Further degradation. Produces amino acids, hexose sugars, fatty acids and glycerol. Moves materials into blood for transport to cells. ...
... - emulsify fat globules - easier to digest. Small intestine Further degradation. Produces amino acids, hexose sugars, fatty acids and glycerol. Moves materials into blood for transport to cells. ...
Macromolecules and the Molecules of Life
... • Made of CHNOP • Large molecules formed by joining polymers • Monomers • The basic units that bond together to form molecules essential to life • Bond via condensation reaction • Monomer + monomer = polymer + water • Polymers • Several monomers joined together • Separate via Hydrolysis • Breakdown ...
... • Made of CHNOP • Large molecules formed by joining polymers • Monomers • The basic units that bond together to form molecules essential to life • Bond via condensation reaction • Monomer + monomer = polymer + water • Polymers • Several monomers joined together • Separate via Hydrolysis • Breakdown ...
SBI4U: Respiration and Photosynthesis Test
... 2). Describe the meaning of the term chemiosmosis and its role in the production of energy for the cell. [3] 3). Cellular respiration is controlled by feedback loops. Explain what this means, using an example. [2] 4). Rubisco is the most common protein in the world. a) What does it do? [2] b) How ma ...
... 2). Describe the meaning of the term chemiosmosis and its role in the production of energy for the cell. [3] 3). Cellular respiration is controlled by feedback loops. Explain what this means, using an example. [2] 4). Rubisco is the most common protein in the world. a) What does it do? [2] b) How ma ...
Endocrine System: Overview
... 5. How long can stored ATP in a muscle cell fuel muscular activity? for about 3 seconds. 6. Muscle cells must be able to generate additional molecules of ATP to continue contracting. Name three processes that achieve ATP regeneration. These are the phosphagen system, anaerobic cellular metabolism an ...
... 5. How long can stored ATP in a muscle cell fuel muscular activity? for about 3 seconds. 6. Muscle cells must be able to generate additional molecules of ATP to continue contracting. Name three processes that achieve ATP regeneration. These are the phosphagen system, anaerobic cellular metabolism an ...
2015FallNSC408
... 2. In which of the following tissue does gluconeogenesis take place? a. Muscle b. Liver c. Adipose 3. Gluconeogenesis produces glucose from amino acids. a. True b. False 4. When an amino acid is metabolized to Acetyl CoA, how many net carbons are contributed for the synthesis of glucose via gluconeo ...
... 2. In which of the following tissue does gluconeogenesis take place? a. Muscle b. Liver c. Adipose 3. Gluconeogenesis produces glucose from amino acids. a. True b. False 4. When an amino acid is metabolized to Acetyl CoA, how many net carbons are contributed for the synthesis of glucose via gluconeo ...
here - Division St. CrossFit
... Basic building blocks that are used to build, maintain, and repair cells, enzymes, immune system and hormones ...
... Basic building blocks that are used to build, maintain, and repair cells, enzymes, immune system and hormones ...
CHAPTER 6
... Parallel pathways of catabolism and anabolism must differ in at least one metabolic step in order that they can be regulated independently. Shown here are two possible arrangements of opposing catabolic and anabolic sequenced between A and P. (a) The parallel sequences proceed via independent routes ...
... Parallel pathways of catabolism and anabolism must differ in at least one metabolic step in order that they can be regulated independently. Shown here are two possible arrangements of opposing catabolic and anabolic sequenced between A and P. (a) The parallel sequences proceed via independent routes ...
Module 3- Bioenergetics - Bangen Athletic Development
... blood lactate threshold pushes these markers to occur at higher exercise intensities. This shift probably occurs as a result of changes in hormone release and increased mitochondrial content. This shift allows athletes to perform more work before fatigue sets in. Oxygen deficit is the anaerobic cont ...
... blood lactate threshold pushes these markers to occur at higher exercise intensities. This shift probably occurs as a result of changes in hormone release and increased mitochondrial content. This shift allows athletes to perform more work before fatigue sets in. Oxygen deficit is the anaerobic cont ...
Metabolic Model Describing Growth of Substrate Uptake
... The values of the parameters included in are calculated with the following numerical methods: Runge-Kutta (fourth order). Comparation of theoretical data and experimental data and the best values calculated by least squares method. ...
... The values of the parameters included in are calculated with the following numerical methods: Runge-Kutta (fourth order). Comparation of theoretical data and experimental data and the best values calculated by least squares method. ...
BIOCHEMISTRY 2.1
... • Cellulose: structural carbohydrate (for SUPPORT) – Glucose units, but cannot be released from one another except for a few species of organisms ...
... • Cellulose: structural carbohydrate (for SUPPORT) – Glucose units, but cannot be released from one another except for a few species of organisms ...
Metabolic Model Describing Growth of Substrate Uptake
... The values of the parameters included in are calculated with the following numerical methods: Runge-Kutta (fourth order). Comparation of theoretical data and experimental data and the best values calculated by least squares method. ...
... The values of the parameters included in are calculated with the following numerical methods: Runge-Kutta (fourth order). Comparation of theoretical data and experimental data and the best values calculated by least squares method. ...
Chapter 2
... 1. Energy is absorbed or released during a chemical reaction. 2. Metabolism is the sum total of all chemical reactions. ...
... 1. Energy is absorbed or released during a chemical reaction. 2. Metabolism is the sum total of all chemical reactions. ...
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.