Structure of the Cell Membrane
... Can’t – polypetides (proteins) polysaccarides (starches) B. Non-Polar enough Example: O2, CO2, Steroids, Lipids Note: Ions do not move through membranes very well (Na+, Cl-, H+, ) due hydration shell ...
... Can’t – polypetides (proteins) polysaccarides (starches) B. Non-Polar enough Example: O2, CO2, Steroids, Lipids Note: Ions do not move through membranes very well (Na+, Cl-, H+, ) due hydration shell ...
How Cells Harvest Energy
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
Topic Three Chemistry of Life - MrsGorukhomework
... When fats are metabolized for energy, it releases a lot more water than if you use glucose. Desert camels can live off that water when they use the fat in their hump. *condensation and hydrolysis equations with words or formulas b. phospholipids – only two fatty acids and other is replaced by phosph ...
... When fats are metabolized for energy, it releases a lot more water than if you use glucose. Desert camels can live off that water when they use the fat in their hump. *condensation and hydrolysis equations with words or formulas b. phospholipids – only two fatty acids and other is replaced by phosph ...
Chapter 7: PowerPoint
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
Integration of Photosynthetic Protein Molecular Complexes in Solid
... 1. Solid State electronic devices (photodetectors, photovoltaic cells) 2. Using Photosynthetic Protein molecular complexes 3. Why they use Photosynthetic Protein molecular complexes? 4. Fabrication of devices. ...
... 1. Solid State electronic devices (photodetectors, photovoltaic cells) 2. Using Photosynthetic Protein molecular complexes 3. Why they use Photosynthetic Protein molecular complexes? 4. Fabrication of devices. ...
Metabolism
... d. What are three examples of organisms that convert mannitol to pyruvate? Note: There are two main processes that convert most of the energy in the pyruvate into ATP: Fermentation and Respiration ...
... d. What are three examples of organisms that convert mannitol to pyruvate? Note: There are two main processes that convert most of the energy in the pyruvate into ATP: Fermentation and Respiration ...
CHAPTER 7 A TOUR OF THE CELL Section E: Other Membranous
... enzyme that converts H2O2 to water. • Some peroxisomes break fatty acids down to smaller molecules that are transported to mitochondria for fuel. • Others detoxify alcohol and other harmful compounds. • Specialized peroxisomes, glyoxysomes, convert the fatty acids in seeds to sugars, an easier energ ...
... enzyme that converts H2O2 to water. • Some peroxisomes break fatty acids down to smaller molecules that are transported to mitochondria for fuel. • Others detoxify alcohol and other harmful compounds. • Specialized peroxisomes, glyoxysomes, convert the fatty acids in seeds to sugars, an easier energ ...
07E-OthrMembranusOrganeles
... convert energy to forms that cells can use for work. • Mitochondria are the sites of cellular respiration, generating ATP from the catabolism of sugars, fats, and other fuels in the presence of oxygen. • Chloroplasts, found in plants and eukaryotic algae, are the sites of photosynthesis. • They conv ...
... convert energy to forms that cells can use for work. • Mitochondria are the sites of cellular respiration, generating ATP from the catabolism of sugars, fats, and other fuels in the presence of oxygen. • Chloroplasts, found in plants and eukaryotic algae, are the sites of photosynthesis. • They conv ...
Protocol S3 – Proteomic analysis
... were evaluated to calculate a single score for candidate protein identifications. Gel bands were annotated manually using graphical image processing software developed in-house. For the gel-free shotgun sequencing (LCMS), the protein samples were first dried down from 125 µl to ~20 µl using a Speedv ...
... were evaluated to calculate a single score for candidate protein identifications. Gel bands were annotated manually using graphical image processing software developed in-house. For the gel-free shotgun sequencing (LCMS), the protein samples were first dried down from 125 µl to ~20 µl using a Speedv ...
MB207_10 - MB207Jan2010
... → involved in transmitting various kinds of signals from the plasma membrane to the interior of the cell. Membrane asymmetry is established during membrane biogenesis by the insertion of different lipids or different proportions of the various lipids into each of the two monolayers. → asymmetry is m ...
... → involved in transmitting various kinds of signals from the plasma membrane to the interior of the cell. Membrane asymmetry is established during membrane biogenesis by the insertion of different lipids or different proportions of the various lipids into each of the two monolayers. → asymmetry is m ...
Cell Boundaries
... a double-layered sheet called a lipid bilayer. It functions as a flexible barrier between the cell and its surroundings. ...
... a double-layered sheet called a lipid bilayer. It functions as a flexible barrier between the cell and its surroundings. ...
Ques#on of the Day: How do you acquire energy?
... STEP 2: Krebs Cycle: Acetyl CoA > CO2, H+, and ATP; 2 turns produce 6 NADH, 2, FADH2, 2 ATP, and 4 CO2. STEP 3: ETC: 10 NADH & 2 FADH2 > 34 ATP ...
... STEP 2: Krebs Cycle: Acetyl CoA > CO2, H+, and ATP; 2 turns produce 6 NADH, 2, FADH2, 2 ATP, and 4 CO2. STEP 3: ETC: 10 NADH & 2 FADH2 > 34 ATP ...
cellular respiration
... Structure • Smooth outer Membrane • Folded inner membrane • Folds called Cristae • Space inside cristae called the Matrix ...
... Structure • Smooth outer Membrane • Folded inner membrane • Folds called Cristae • Space inside cristae called the Matrix ...
Cellular Respiration
... acceptor from NADH producing ethanol or lactic acid – this process is called fermentation NADH production is not used as a method to capture energy – used to get rid of hydrogen ions and electrons made when glucose is broken down NAD+ is regenerated by pyruvate acting as final electron acceptor - py ...
... acceptor from NADH producing ethanol or lactic acid – this process is called fermentation NADH production is not used as a method to capture energy – used to get rid of hydrogen ions and electrons made when glucose is broken down NAD+ is regenerated by pyruvate acting as final electron acceptor - py ...
Respiration - College Heights Secondary
... 2. Outputs (per glucose) a. CO2 b. NADH and FADH2 c. 2 ATP ...
... 2. Outputs (per glucose) a. CO2 b. NADH and FADH2 c. 2 ATP ...
Lecture 19 Membranes 2: Membrane Proteins
... • Timescale of msec to sec, lipids DO diffuse freely in plane of membrane. • On much shorter time scale, 25 µsec intervals, lipids zoom around in a small confined area of membrane, then seem to "hop" to another small confined area, as if there were "fences" they had to hop over (networks of interact ...
... • Timescale of msec to sec, lipids DO diffuse freely in plane of membrane. • On much shorter time scale, 25 µsec intervals, lipids zoom around in a small confined area of membrane, then seem to "hop" to another small confined area, as if there were "fences" they had to hop over (networks of interact ...
Cellular Respiration
... that produces 2 molecules of ATP and 2 molecules of pyruvic acid. 2> Kreb’s cycle: a series of chemical reactions using pyruvic acid to produce ATP and two types of reduced molecules. 3>Electron Transport Chain: the process of extracting ATP from NADH and FADH2 ...
... that produces 2 molecules of ATP and 2 molecules of pyruvic acid. 2> Kreb’s cycle: a series of chemical reactions using pyruvic acid to produce ATP and two types of reduced molecules. 3>Electron Transport Chain: the process of extracting ATP from NADH and FADH2 ...
Document
... oxidation of carbs, protein and fatty acids, are ultimately transferred to O2 to produce H20 Located in the inner mitochondrial membrane Electrons travel down the chain, pumping protons into the intermembrane space creating the driving force to produce ATP in a process called oxidative phosphory ...
... oxidation of carbs, protein and fatty acids, are ultimately transferred to O2 to produce H20 Located in the inner mitochondrial membrane Electrons travel down the chain, pumping protons into the intermembrane space creating the driving force to produce ATP in a process called oxidative phosphory ...
UNIT 3 CELLULAR RESPIRATION PROBLEM SETS SPRING 2007
... 2) For questions 2A and 2B below, choose between the following: I) animals only II) plants only III) both plants and animals 2A) Cellular respiration occurs in 2B) Photosynthesis occurs in 3A) What molecule is the energy coin of the cell? 3B) Approximately how many ATP/ADP molecules are present in a ...
... 2) For questions 2A and 2B below, choose between the following: I) animals only II) plants only III) both plants and animals 2A) Cellular respiration occurs in 2B) Photosynthesis occurs in 3A) What molecule is the energy coin of the cell? 3B) Approximately how many ATP/ADP molecules are present in a ...
Unit 06 Lecture Notes: Metabolism and Respiration
... C. Oxidative Phosphorylation: Occurs in inner membrane (crista) of mitochondria 1) Electrons from NADH and FADH2 passed through membrane to O2 (final electron acceptor). a) Flow of electrons used to pump hydrogens out into intermembrane space. b) Hydrogens flow back through enzyme, energy produced f ...
... C. Oxidative Phosphorylation: Occurs in inner membrane (crista) of mitochondria 1) Electrons from NADH and FADH2 passed through membrane to O2 (final electron acceptor). a) Flow of electrons used to pump hydrogens out into intermembrane space. b) Hydrogens flow back through enzyme, energy produced f ...
Phospholipid Bilayers
... The plasma membrane (also known as the cell membrane) forms a barrier between the cytoplasm inside the cell and the environment outside the cell. It protects and supports the cell and also controls everything that enters and leaves the cell. It allows only certain substances to pass through, while k ...
... The plasma membrane (also known as the cell membrane) forms a barrier between the cytoplasm inside the cell and the environment outside the cell. It protects and supports the cell and also controls everything that enters and leaves the cell. It allows only certain substances to pass through, while k ...
Thylakoid
A thylakoid is a membrane-bound compartment inside chloroplasts and cyanobacteria. They are the site of the light-dependent reactions of photosynthesis. Thylakoids consist of a thylakoid membrane surrounding a thylakoid lumen. Chloroplast thylakoids frequently form stacks of disks referred to as grana (singular: granum). Grana are connected by intergranal or stroma thylakoids, which join granum stacks together as a single functional compartment.