Focus on Metabolism
... Glycolysis: Anaerobic Metabolism The first stage of cellular respiration takes place in the cytosol of the cell and is called glycolysis, meaning “glucose breakdown.” Because oxygen isn’t needed for this reaction, glycolysis is also called anaerobic metabolism. In glycolysis, the 6-carbon sugar gluc ...
... Glycolysis: Anaerobic Metabolism The first stage of cellular respiration takes place in the cytosol of the cell and is called glycolysis, meaning “glucose breakdown.” Because oxygen isn’t needed for this reaction, glycolysis is also called anaerobic metabolism. In glycolysis, the 6-carbon sugar gluc ...
ap® biology 2013 scoring guidelines
... the absorption spectrum in graph I and chlorophyll a is the pigment used for graph II. The response earned 1 point in part (a) for explaining that bacteriorhodopsin is purple because it reflects rather than absorbs purple light. The response earned 1 point for explaining that chlorophyll a is green ...
... the absorption spectrum in graph I and chlorophyll a is the pigment used for graph II. The response earned 1 point in part (a) for explaining that bacteriorhodopsin is purple because it reflects rather than absorbs purple light. The response earned 1 point for explaining that chlorophyll a is green ...
Lecture t
... DHAP into this pathway by converting it into G3P -the following reactions actually run twice!!! (two molecules of G3P are produced) ...
... DHAP into this pathway by converting it into G3P -the following reactions actually run twice!!! (two molecules of G3P are produced) ...
Cellular Respiration/Fermentation Review Sheet
... EXHALE AS A WASTE PRODUCT 10. What do plants do with the CO2 produced during cellular respiration? THEY STORE IT IN THEIR CELLS & USE IT FOR PHOTOSYNTHESIS 11. What do we do with the H2O produced when glucose breaks down? STORE IT, USE IT TO MAINTAIN CELL HEALTH, OR EXCRETE AS A WASTE PRODUCT 12. Wh ...
... EXHALE AS A WASTE PRODUCT 10. What do plants do with the CO2 produced during cellular respiration? THEY STORE IT IN THEIR CELLS & USE IT FOR PHOTOSYNTHESIS 11. What do we do with the H2O produced when glucose breaks down? STORE IT, USE IT TO MAINTAIN CELL HEALTH, OR EXCRETE AS A WASTE PRODUCT 12. Wh ...
Chapter 4 - Photosynthesis and Cellular Respiration
... • Step 1: Units of sunlight, called photons, strike a molecule of chlorophyll in photosystem II of the thylakoid membrane. The light energy is absorbed by two electrons (2 e- ) in the chlorophyll molecule, giving them enough energy to leave the molecule. • Step 2: At the same time, enzymes in the th ...
... • Step 1: Units of sunlight, called photons, strike a molecule of chlorophyll in photosystem II of the thylakoid membrane. The light energy is absorbed by two electrons (2 e- ) in the chlorophyll molecule, giving them enough energy to leave the molecule. • Step 2: At the same time, enzymes in the th ...
DIFFERENCES IN LIGHT ACCLIMATION
... Short-term photoacclimation (sec-min): responses to environmental changes that are easily reversible, involving preexisting components within a biochemical pathway (e.g. increases in enzyme activity within the Calvin cycle in response to temperature ...
... Short-term photoacclimation (sec-min): responses to environmental changes that are easily reversible, involving preexisting components within a biochemical pathway (e.g. increases in enzyme activity within the Calvin cycle in response to temperature ...
Cellular Respiration Notes (8.3)
... Enzymes break it down into pyruvate Net result = 2 ATP Precedes aerobic respiration ...
... Enzymes break it down into pyruvate Net result = 2 ATP Precedes aerobic respiration ...
Cellular_respiration_ppt
... Light (dependent) reaction: Make O2 by splitting H2O Calvin Cycle (light independent) reaction: make glucose (C6H12O6) from CO2 and H ions 6CO2 + 6H2O + light energy C6H12O6 + 6O2 ...
... Light (dependent) reaction: Make O2 by splitting H2O Calvin Cycle (light independent) reaction: make glucose (C6H12O6) from CO2 and H ions 6CO2 + 6H2O + light energy C6H12O6 + 6O2 ...
Catalytic Nitrene Transfer onto Isocyanide by a Redox
... Catalytic Nitrene Transfer onto Isocyanide by a Redox-Active Ligand Zirconium Complex Andy I. Nguyen Mentor: Alan Heyduk In an effort to bridge the gap between late- and early-metal reactivity, we have used redox-active ligands that are capable of multielectron valence changes. These ligands on form ...
... Catalytic Nitrene Transfer onto Isocyanide by a Redox-Active Ligand Zirconium Complex Andy I. Nguyen Mentor: Alan Heyduk In an effort to bridge the gap between late- and early-metal reactivity, we have used redox-active ligands that are capable of multielectron valence changes. These ligands on form ...
Fall 2008 Blank Final Exam
... Select the best multiple-choice answer by filling in the corresponding circle on the rear page of the answer sheet. If you have any questions before the exam, please ask. If you have any questions during the exam, please ask the proctor. Open and start this exam when instructed. When finished, place ...
... Select the best multiple-choice answer by filling in the corresponding circle on the rear page of the answer sheet. If you have any questions before the exam, please ask. If you have any questions during the exam, please ask the proctor. Open and start this exam when instructed. When finished, place ...
Cellular Respiration Harvesting Chemical Energy
... C6H12O6 + 6O2 6CO2 + 6H2O • The reactants in photosynthesis are the same as the products of cellular respiration. ...
... C6H12O6 + 6O2 6CO2 + 6H2O • The reactants in photosynthesis are the same as the products of cellular respiration. ...
File - May-Lissa Faustin Eportfolio
... Chloroplasts take in sunlight and convert it into energy. The chloroplasts contain chlorophyll which gives the plants the green color that plants usually have. In photosynthesis, Organisms split water as a source of electrons, and then they release O2. Electrons also reduce CO2 to sugars. There are ...
... Chloroplasts take in sunlight and convert it into energy. The chloroplasts contain chlorophyll which gives the plants the green color that plants usually have. In photosynthesis, Organisms split water as a source of electrons, and then they release O2. Electrons also reduce CO2 to sugars. There are ...
Energy Systems
... Anaerobic Alactic (ATP-CP) or (ATP-PC) • A short term energy of both fast and slow twitch muscle fibres that does not require oxygen and does not produce lactic acid. ...
... Anaerobic Alactic (ATP-CP) or (ATP-PC) • A short term energy of both fast and slow twitch muscle fibres that does not require oxygen and does not produce lactic acid. ...
Supplemental notes in pdf
... synthesize carbohydrates from CO2 and H2O. Aerobic organisms, such as ourselves, consume carbohydrates as a chemical source of energy and metabolize them in the presence of O2 to from CO2 and H2O. All organisms depend directly or indirectly on energy derived from thermonuclear fusion reactions on th ...
... synthesize carbohydrates from CO2 and H2O. Aerobic organisms, such as ourselves, consume carbohydrates as a chemical source of energy and metabolize them in the presence of O2 to from CO2 and H2O. All organisms depend directly or indirectly on energy derived from thermonuclear fusion reactions on th ...
Carbohydrate Metabolism
... molecules, two NADH molecules are synthesized during this step. Each 1,3-bisphosphoglycerate is subsequently dephosphorylated (i.e., a phosphate is removed) by phosphoglycerate kinase into 3-phosphoglycerate. Each phosphate released in this reaction can convert one molecule of ADP into one high-ener ...
... molecules, two NADH molecules are synthesized during this step. Each 1,3-bisphosphoglycerate is subsequently dephosphorylated (i.e., a phosphate is removed) by phosphoglycerate kinase into 3-phosphoglycerate. Each phosphate released in this reaction can convert one molecule of ADP into one high-ener ...
Raman Spectroscopy
... sufficiently high the electrons may not only jump to the outer levels but may leave the atoms completely ; the process is called photoelectric effect. Thus photophysical processes include phenomena like fluorescence , phosphresence and photoelectric effect. ...
... sufficiently high the electrons may not only jump to the outer levels but may leave the atoms completely ; the process is called photoelectric effect. Thus photophysical processes include phenomena like fluorescence , phosphresence and photoelectric effect. ...
Microbes in the Biosphere - Bio@Tech
... • Higher-energy molecules are oxidized (lose electrons) • Lower-energy molecules are reduced (gain electrons) • G = -nFE (kJ/mol) – n = # e- transferred – F = Faraday constant – E = redox potential difference ...
... • Higher-energy molecules are oxidized (lose electrons) • Lower-energy molecules are reduced (gain electrons) • G = -nFE (kJ/mol) – n = # e- transferred – F = Faraday constant – E = redox potential difference ...
triose phosphate
... molecules such as sugars and lipids. Respiration takes place in all cells all of the time Breathing is the mechanical process that supplies oxygen to the body for respiration and that removes carbon dioxide produced. Breathing ventilates the gas exchange surfaces. Aerobic Respiration is respiration ...
... molecules such as sugars and lipids. Respiration takes place in all cells all of the time Breathing is the mechanical process that supplies oxygen to the body for respiration and that removes carbon dioxide produced. Breathing ventilates the gas exchange surfaces. Aerobic Respiration is respiration ...
Document
... energy” becomes released and funneled through the energy-rich compound ATP to power cellular needs. Figure 1 shows how an ATP molecule forms from a molecule of adenine and ribose (called adenosine), linked to three phosphate molecules. The bonds linking the two outermost phosphates, termed high-ener ...
... energy” becomes released and funneled through the energy-rich compound ATP to power cellular needs. Figure 1 shows how an ATP molecule forms from a molecule of adenine and ribose (called adenosine), linked to three phosphate molecules. The bonds linking the two outermost phosphates, termed high-ener ...
Chapter 6 notes
... • Your body requires a continuous supply of energy just to stay alive—to keep your heart pumping and ...
... • Your body requires a continuous supply of energy just to stay alive—to keep your heart pumping and ...
Vignette -- The Winogradsky Column
... It is a jug of wet, sulfide-rich, organics-containing mud allowed to develop with a single source of exogenous energy: light. A. As the photosynthetic organisms plastered against the glass accumulate “primary productivity,”the myriad colors of the interacting photosynthetic communities are easily ob ...
... It is a jug of wet, sulfide-rich, organics-containing mud allowed to develop with a single source of exogenous energy: light. A. As the photosynthetic organisms plastered against the glass accumulate “primary productivity,”the myriad colors of the interacting photosynthetic communities are easily ob ...
uptake of nutrients-2014
... plasma membrane that will not permit the free passage of most substances. In view of the enormous variety of nutrients and the complexity of the task, it is not surprising that microorganisms make use of several different transport mechanisms. The most important of these are facilitated diffusion, a ...
... plasma membrane that will not permit the free passage of most substances. In view of the enormous variety of nutrients and the complexity of the task, it is not surprising that microorganisms make use of several different transport mechanisms. The most important of these are facilitated diffusion, a ...
Document
... light absorbed is sufficiently high the electrons may not only jump to the outer levels but may leave the atoms completely ; the process is called photoelectric effect. Thus photophysical processes include phenomena like fluorescence , phosphresence and photoelectric effect. ...
... light absorbed is sufficiently high the electrons may not only jump to the outer levels but may leave the atoms completely ; the process is called photoelectric effect. Thus photophysical processes include phenomena like fluorescence , phosphresence and photoelectric effect. ...
Document
... light absorbed is sufficiently high the electrons may not only jump to the outer levels but may leave the atoms completely ; the process is called photoelectric effect. Thus photophysical processes include phenomena like fluorescence , phosphresence and photoelectric effect. ...
... light absorbed is sufficiently high the electrons may not only jump to the outer levels but may leave the atoms completely ; the process is called photoelectric effect. Thus photophysical processes include phenomena like fluorescence , phosphresence and photoelectric effect. ...
Carbohydrate Metabolism
... molecules, two NADH molecules are synthesized during this step. Each 1,3-bisphosphoglycerate is subsequently dephosphorylated (i.e., a phosphate is removed) by phosphoglycerate kinase into 3-phosphoglycerate. Each phosphate released in this reaction can convert one molecule of ADP into one high-ener ...
... molecules, two NADH molecules are synthesized during this step. Each 1,3-bisphosphoglycerate is subsequently dephosphorylated (i.e., a phosphate is removed) by phosphoglycerate kinase into 3-phosphoglycerate. Each phosphate released in this reaction can convert one molecule of ADP into one high-ener ...