Ch 4: Cellular Metabolism
... • Energy in the process of doing work. • Energy of motion. • Examples: 1. Heat 2. Light energy ...
... • Energy in the process of doing work. • Energy of motion. • Examples: 1. Heat 2. Light energy ...
Modern Biology: Chapter 3
... – Monomers join via condensation reactions • Polypeptides • Disaccharides ...
... – Monomers join via condensation reactions • Polypeptides • Disaccharides ...
Modern Biology: Chapter 3
... – Monomers join via condensation reactions • Polypeptides • Disaccharides ...
... – Monomers join via condensation reactions • Polypeptides • Disaccharides ...
Fermentation (Anaerobic Respiration)
... Alcohol Fermentation Performed by yeast, some kinds of bacteria, & a few other microorganisms use for energy ...
... Alcohol Fermentation Performed by yeast, some kinds of bacteria, & a few other microorganisms use for energy ...
NotesSkeletalMuscleActivity
... Aerobic Respiration (also called Oxidative Phosphorylation) Glucose Pyruvic Acid CO2 + H2O Requires Oxygen 36 ATP per molecule of glucose (38 Total = Glycolysis, Krebs & ETC) Provides energy for hours Energy comes from glucose, pyruvic acid, fatty acids & amino acids Occurs in mitochondria ...
... Aerobic Respiration (also called Oxidative Phosphorylation) Glucose Pyruvic Acid CO2 + H2O Requires Oxygen 36 ATP per molecule of glucose (38 Total = Glycolysis, Krebs & ETC) Provides energy for hours Energy comes from glucose, pyruvic acid, fatty acids & amino acids Occurs in mitochondria ...
Chemical Reaction
... An organic compound that living things use to store energy; not made from monomers ...
... An organic compound that living things use to store energy; not made from monomers ...
No Slide Title
... •Chemical Evolution, simple molecules condense to form more complex forms (polymers) ...
... •Chemical Evolution, simple molecules condense to form more complex forms (polymers) ...
Biomolecules Unit Review File
... 12. Draw a single nucleotide. Draw a chain of nucleic acid. How many strands does DNA have? How many strands does RNA have? 13. What provides more energy lipids or carbohydrates? What type of energy are each of them? 14. What is glycogen? Where can you find it? What organisms utilize glycogen? 15. W ...
... 12. Draw a single nucleotide. Draw a chain of nucleic acid. How many strands does DNA have? How many strands does RNA have? 13. What provides more energy lipids or carbohydrates? What type of energy are each of them? 14. What is glycogen? Where can you find it? What organisms utilize glycogen? 15. W ...
Complex carbohydrates
... different kinds of atoms. Molecules found in living things are most often combinations of six elements: carbon, hydrogen, nitrogen, oxygen, phosphorus, and sulfur. These elements join together to form proteins, carbohydrates, lipids, ATP, and nucleic acids. ...
... different kinds of atoms. Molecules found in living things are most often combinations of six elements: carbon, hydrogen, nitrogen, oxygen, phosphorus, and sulfur. These elements join together to form proteins, carbohydrates, lipids, ATP, and nucleic acids. ...
Cellular Respiration
... 15-20 minutes. After that energy source is used up your body starts to use the carbs stored in fats. This is why exercise is helpful for weight lose. Short term energy is provided by lactic acid fermentation, this energy source cannot be sustained. ...
... 15-20 minutes. After that energy source is used up your body starts to use the carbs stored in fats. This is why exercise is helpful for weight lose. Short term energy is provided by lactic acid fermentation, this energy source cannot be sustained. ...
CSM 101 Fall 2010 Timeline
... the cytoplasms. This is how cells can communicate between each other by sharing their cytoplasm. This allows for diffusion across many cells and for communication to occur between distant cells. ...
... the cytoplasms. This is how cells can communicate between each other by sharing their cytoplasm. This allows for diffusion across many cells and for communication to occur between distant cells. ...
Jeopardy Review Enzyme/Energetics
... What is the maximum number of ATPs that can be produced in the overall process of oxidative respiration? Derive this. ...
... What is the maximum number of ATPs that can be produced in the overall process of oxidative respiration? Derive this. ...
Physical Science EOC Review Name
... ii. What 2 energy storing molecules are produced? iii. (T/F) Solar energy splits water molecules and oxygen is released into the atmosphere as a waste product. c. Stage 2 doesn’t require solar energy and is called the (Light-Dependent or Light Independent) Reactions; Also called the Dark Reactions. ...
... ii. What 2 energy storing molecules are produced? iii. (T/F) Solar energy splits water molecules and oxygen is released into the atmosphere as a waste product. c. Stage 2 doesn’t require solar energy and is called the (Light-Dependent or Light Independent) Reactions; Also called the Dark Reactions. ...
3.2 Carbohydrates, lipids annd proteins
... 3.2.5: Outline the role of condensation and hydrolysis in the relationships between monosaccharides, disaccharides and polysaccharides; between fatty acids, glycerol and triglycerides; and between amino acids and polypeptides. ...
... 3.2.5: Outline the role of condensation and hydrolysis in the relationships between monosaccharides, disaccharides and polysaccharides; between fatty acids, glycerol and triglycerides; and between amino acids and polypeptides. ...
Cellular Respiration - Home - Mrs. Guida's AP Biology Class
... organic compounds to extract energy from chemical bonds ...
... organic compounds to extract energy from chemical bonds ...
Zoology – The Chemical Basis of Animal Life
... 3. Growth is influenced both by genetics and the environment D. Reproduction - Organisms produce offspring, which resemble the parents 1. Reproduction can occur sexually or asexually E. Response to Environmental Stimuli – adapting to their environment F. Homeostasis – the tendency of an organism or ...
... 3. Growth is influenced both by genetics and the environment D. Reproduction - Organisms produce offspring, which resemble the parents 1. Reproduction can occur sexually or asexually E. Response to Environmental Stimuli – adapting to their environment F. Homeostasis – the tendency of an organism or ...
Reading Guide for Week 4
... EMB agar plate in Lab Ex. 7? 14. What type of energy harvesting pathway(s) might be used by chemoorganoheterotrophic - obligate aerobes? - obligate anaerobes? - facultative anaerobes? 14. Know that lipids, amino acids, and nucleotides are synthesized from precursor metabolites. Why do fastidious bac ...
... EMB agar plate in Lab Ex. 7? 14. What type of energy harvesting pathway(s) might be used by chemoorganoheterotrophic - obligate aerobes? - obligate anaerobes? - facultative anaerobes? 14. Know that lipids, amino acids, and nucleotides are synthesized from precursor metabolites. Why do fastidious bac ...
Name KEY Block Date Ch 8 – Photosynthesis + Ch 9 – Cellular
... 10. What are the two stages of photosynthesis? Briefly summarize each: a. Light-Dependent Reactions – (light absorption) uses sunlight to produce two energy carriers, NADPH and ATP b. Light-independent reactions – uses carbon dioxide (CO2) to produce glucose, using energy from NADPH and ATP (from st ...
... 10. What are the two stages of photosynthesis? Briefly summarize each: a. Light-Dependent Reactions – (light absorption) uses sunlight to produce two energy carriers, NADPH and ATP b. Light-independent reactions – uses carbon dioxide (CO2) to produce glucose, using energy from NADPH and ATP (from st ...
ENERGY SYSTEMS
... The reactions take place in the sarcoplasm of the muscle cells, Matrix of the Mitochondria and Cristae of the ...
... The reactions take place in the sarcoplasm of the muscle cells, Matrix of the Mitochondria and Cristae of the ...
Study Guide - PEP 535 Exam#1
... What are the sources of proton buffering/utilization/removal in skeletal muscle? Is it correct to interpret lactate production as the cause of muscle acidosis? Why? Why does ATP hydrolysis release a proton? How would you explain the biochemistry of metabolic acidosis during exercise? What is the str ...
... What are the sources of proton buffering/utilization/removal in skeletal muscle? Is it correct to interpret lactate production as the cause of muscle acidosis? Why? Why does ATP hydrolysis release a proton? How would you explain the biochemistry of metabolic acidosis during exercise? What is the str ...
Biol 178 Lecture 13
... • Process of influencing chemical bonds in a way that lowers the AE of a reaction, eg. Stressing bonds. • Speed up reactions ...
... • Process of influencing chemical bonds in a way that lowers the AE of a reaction, eg. Stressing bonds. • Speed up reactions ...
Cell Energetics - Practice Test - Biology
... a. photosynthesis. b. glycolysis. c. electron transport. d. fermentation. ____ 17. Which of the following is a product of the Krebs cycle? a. carbon dioxide b. oxygen c. lactic acid d. glucose ____ 18. Which of the following statements is true of ATP? a. It stores energy as glucose. b. It transfers ...
... a. photosynthesis. b. glycolysis. c. electron transport. d. fermentation. ____ 17. Which of the following is a product of the Krebs cycle? a. carbon dioxide b. oxygen c. lactic acid d. glucose ____ 18. Which of the following statements is true of ATP? a. It stores energy as glucose. b. It transfers ...
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.