Cellular Respiration Overview CHCC 121 Topics PDF
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This document provides an overview of cellular respiration, including its major topics and processes. It also covers introductory topics in biochemistry, and details some Nobel Prizes in Biochemistry. The document includes questions related to energy production and metabolic processes.
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CELLULAR RESPIRATION OVERVIEW/CHCC 121 TOPICS TOPICS FOR THE WHOLES SEMESTER BIOCHEMISTRY BY CAMPBELL/ FARRELL/ McDOUGAL 2 TOPICS CELLULAR RESPIRATION OVERVIEW ✓ GLYCOGEN METABOLISM GLYCOLYSIS A. GLYCOGENOLYSIS CITRIC ACID CYCLE...
CELLULAR RESPIRATION OVERVIEW/CHCC 121 TOPICS TOPICS FOR THE WHOLES SEMESTER BIOCHEMISTRY BY CAMPBELL/ FARRELL/ McDOUGAL 2 TOPICS CELLULAR RESPIRATION OVERVIEW ✓ GLYCOGEN METABOLISM GLYCOLYSIS A. GLYCOGENOLYSIS CITRIC ACID CYCLE B. GLYCOGENESIS ELECTRON TRANSPORT CHAIN ✓ GLUCONEOGENESIS PENTOSE PHOSPHATE PATHWAY A. REACTIONS B. YIELD A. PHASES ✓ FATTY ACID CATABOLISM B. FUNCTIONS ✓ PHOTOSYNTHESIS C. ROLE OF NADPH ✓ AMINO ACID OXIDATION Presentation title 3 Nobel Prizes in Biochemistry from 1901 to 1950 Since the inception of the Nobel Prize in 1901, the field of biochemistry has been honored with numerous awards. From the early work on: chemical dynamics; osmotic pressure in solutions structure and function of nucleic acids Nobel Prizes in Biochemistry from 1901 to 1950 In the early years of the Nobel Prize, the focus was on the chemistry of organic compounds and enzymes. Hermann Emil Fischer, who won the prize in 1902, made significant contributions to the field of organic chemistry, including the synthesis of glucose and purines. Nobel Prizes in Biochemistry from 2001 to 2022 Here is the list of Nobel Prizes in Biochemistry from 2001 to 2022: Nobel Prizes in Biochemistry from 2001 to 2022 Here is the list of Nobel Prizes in Biochemistry from 2001 to 2022: Presentation title 8 AEROBIC RESPIRATION It is the process of cellular respiration that takes place in the presence of oxygen gas to produce energy from food. This type of respiration is common in most of the plants and animals, birds, humans, and other mammals. In this process, water and carbon dioxide are produced as end products. ASSIGNMENT: How are oxidation and reduction involved in metabolism? How do energy-producing reactions allow energy- requiring reactions to take place? Why is coenzyme A such a good example of activation? ASSIGNMENT: What do the following indicators tell you about whether a reaction can proceed as written? (a) The standard free-energy change is positive. (b) The free-energy change is positive. (c) The reaction is exergonic. 26 27
