Quiz 7 Name: 1. After ATP fuels the Na+/K+ pump at the cell
... A) ADP and Pi accumulate in the cytosol and don’t form ATP again B) ADP and Pi are regenerated to ATP by the Na+/K+ pump running in reverse C) ADP and Pi are regenerated to ATP in the chloroplast D) ADP and Pi are regenerated to ATP in the mitochondrion E) C and D 2. Cells use the energy of energy-r ...
... A) ADP and Pi accumulate in the cytosol and don’t form ATP again B) ADP and Pi are regenerated to ATP by the Na+/K+ pump running in reverse C) ADP and Pi are regenerated to ATP in the chloroplast D) ADP and Pi are regenerated to ATP in the mitochondrion E) C and D 2. Cells use the energy of energy-r ...
Photosynthesis and Cellular Respiration
... This is where the sugars are manufactured The ATP and the H+ are used to bind CO2 molecules to a 5 carbon molecule (biphosphate) making an unstable 6 carbon molecule which breaks down to 2 3Carbon molecules. These 3C molecules will be joined to form a simple sugar (C6H12O6) The most importan ...
... This is where the sugars are manufactured The ATP and the H+ are used to bind CO2 molecules to a 5 carbon molecule (biphosphate) making an unstable 6 carbon molecule which breaks down to 2 3Carbon molecules. These 3C molecules will be joined to form a simple sugar (C6H12O6) The most importan ...
Micro 071023
... 3 or 4 protons flowing through turns c proteins enough to change conformation of b protein 1 ATP ...
... 3 or 4 protons flowing through turns c proteins enough to change conformation of b protein 1 ATP ...
Methylamine Dehydrogenase: Structure and Function of Electron
... Methylamine dehydrogenase [MADH] from P. denitr!ficans, which possesses the tryptophan tryptophylquinone [TTQ] cofactor, catalyzes the oxidative deamination of amines. Electrons derived from these oxidations are transferred to the respiratory chain via the type I copper protein, amicyanin, and cytoc ...
... Methylamine dehydrogenase [MADH] from P. denitr!ficans, which possesses the tryptophan tryptophylquinone [TTQ] cofactor, catalyzes the oxidative deamination of amines. Electrons derived from these oxidations are transferred to the respiratory chain via the type I copper protein, amicyanin, and cytoc ...
Chapter 10 Photosynthesis Part 2
... • This circular movement is called - Cyclic Photophosphorylation. ...
... • This circular movement is called - Cyclic Photophosphorylation. ...
cell respiration notes ap - Wesleyan
... to make CITRIC ACID Each glucose requires TWO turns of cycle 1 GLUCOSE produces: 6 CO2, 2 FADH2, 2 ATP, 8 NADH ...
... to make CITRIC ACID Each glucose requires TWO turns of cycle 1 GLUCOSE produces: 6 CO2, 2 FADH2, 2 ATP, 8 NADH ...
Moving Cellular Materials
... The random movement of molecules from a high concentration to a low concentration. (GASES) But what does having a high concentration mean? CLASS DEMO ...
... The random movement of molecules from a high concentration to a low concentration. (GASES) But what does having a high concentration mean? CLASS DEMO ...
BY 123 SI Mock Exam #1 Chapters 1
... Rough ER Golgi lysosome nuclear membrane plasma membrane Rough ER transport vesicle Golgi vesicle plasma membrane food vacuole Rough ER nuclear envelope Golgi smooth ER lysosome Rough ER transport vesicle Golgi smooth ER plasma membrane Rough ER transport vesicle ...
... Rough ER Golgi lysosome nuclear membrane plasma membrane Rough ER transport vesicle Golgi vesicle plasma membrane food vacuole Rough ER nuclear envelope Golgi smooth ER lysosome Rough ER transport vesicle Golgi smooth ER plasma membrane Rough ER transport vesicle ...
Diffusion Across a Cell Membrane. Molecules
... Sodium-Potassium Pump An example of active transport is the sodium-potassium pump. When this pump is in operation, sodium ions (salt) are pumped out of the cell, and potassium ions are pumped into the cell. Both ions move from areas of lower to higher concentration, so ATP is needed to provide energ ...
... Sodium-Potassium Pump An example of active transport is the sodium-potassium pump. When this pump is in operation, sodium ions (salt) are pumped out of the cell, and potassium ions are pumped into the cell. Both ions move from areas of lower to higher concentration, so ATP is needed to provide energ ...
Review for Final Spring 2011
... o capturing light, preventing water loss, gas exchange, thin, veins y Stomata (singular stoma), guard cells, xylem, phloem y Leaf cross section and all its parts (upper & lower epidermis, mesophyll, etc.) y chloroplast and its parts: outer membrane, inner membrane, thylakoid, granum, stroma o Where ...
... o capturing light, preventing water loss, gas exchange, thin, veins y Stomata (singular stoma), guard cells, xylem, phloem y Leaf cross section and all its parts (upper & lower epidermis, mesophyll, etc.) y chloroplast and its parts: outer membrane, inner membrane, thylakoid, granum, stroma o Where ...
Ch. 8 Review Sheet
... Use the following key to show which events occur in which phase of photosynthesis. A = Light Reactions B= Light Independent Reactions 1. _________ ...
... Use the following key to show which events occur in which phase of photosynthesis. A = Light Reactions B= Light Independent Reactions 1. _________ ...
Molecular Mechanisms behind Cholesterol and Sugar Uptake
... behind cholesterol and sugar uptake in humans using a combination of biochemistry, macromolecular crystallography and electron microscopy. We are looking for highly motivated PhD/MSc students to join the group. You will be working with membrane proteins, one of the most challenging classes of protei ...
... behind cholesterol and sugar uptake in humans using a combination of biochemistry, macromolecular crystallography and electron microscopy. We are looking for highly motivated PhD/MSc students to join the group. You will be working with membrane proteins, one of the most challenging classes of protei ...
Review for Final Summer 2011
... o capturing light, preventing water loss, gas exchange, thin, veins Stomata (singular stoma), guard cells, xylem, phloem Leaf cross section and all its parts (upper & lower epidermis, mesophyll, etc.) chloroplast and its parts: outer membrane, inner membrane, thylakoid, granum, stroma o Where ...
... o capturing light, preventing water loss, gas exchange, thin, veins Stomata (singular stoma), guard cells, xylem, phloem Leaf cross section and all its parts (upper & lower epidermis, mesophyll, etc.) chloroplast and its parts: outer membrane, inner membrane, thylakoid, granum, stroma o Where ...
SBI4U_1-1_Organelles 5744KB Oct 19 2016 11:56:53 AM
... Permits cells to conduct photosynthesis; Light is absorbed by the photosynthetic pigment chlorophyll: ◦ This light helps convert water and carbon dioxide into high energy molecules. ...
... Permits cells to conduct photosynthesis; Light is absorbed by the photosynthetic pigment chlorophyll: ◦ This light helps convert water and carbon dioxide into high energy molecules. ...
AP Bio Chap 7 The Cell Membrane only
... separates the living cell from its surroundings • The plasma membrane exhibits selective permeability, allowing some substances to cross it more easily than others ...
... separates the living cell from its surroundings • The plasma membrane exhibits selective permeability, allowing some substances to cross it more easily than others ...
Review for Final Summer 2010
... Define: enzymes catalyst active site coenzyme Chapter 7 Photosynthesis Definition: photosynthesis, Autotrophs Which came first: photosynthesis or cellular respiration? Explain General formula for photosynthesis (Endergonic or Exergonic?) leaf adaptations for photosynthesis o capturing ligh ...
... Define: enzymes catalyst active site coenzyme Chapter 7 Photosynthesis Definition: photosynthesis, Autotrophs Which came first: photosynthesis or cellular respiration? Explain General formula for photosynthesis (Endergonic or Exergonic?) leaf adaptations for photosynthesis o capturing ligh ...
Chapter 7 notes Membrane Structure and Function
... for cell-cell recognition - cell-cell recognition is the ability of a cell to distinguish one type of neighboring cell from another - membrane carbohydrates are usually oligosaccharides (can vary greatly) ...
... for cell-cell recognition - cell-cell recognition is the ability of a cell to distinguish one type of neighboring cell from another - membrane carbohydrates are usually oligosaccharides (can vary greatly) ...
Solutions to Questions in the Cellular Respiration booklet
... Solutions to Questions in the Cellular Respiration booklet #1. Endergonic is any process that requires energy while exergonic is any process that gives off energy. #2. glucose #3. Movement; production of proteins; active transport: cellular division #4. Aerobic respiration is when oxygen is used wit ...
... Solutions to Questions in the Cellular Respiration booklet #1. Endergonic is any process that requires energy while exergonic is any process that gives off energy. #2. glucose #3. Movement; production of proteins; active transport: cellular division #4. Aerobic respiration is when oxygen is used wit ...
Unit 1 - Review Sheet 2010 IB
... CO2 + 6H2O + energy) 2. Describe the importance of ATP to cellular metabolism. ATP energy input ADP+ Pi ...
... CO2 + 6H2O + energy) 2. Describe the importance of ATP to cellular metabolism. ATP energy input ADP+ Pi ...
Aerobic Respiration
... • Reduced NAD and FAD are passed to the ETC where hydrogen is removed and split into H+ and an electron. • The electron is transferred to the first electron carrier, whilst H+ remains in solution. • As the electron is transferred to oxygen, H+ is drawn from solution to reduce oxygen to water. ...
... • Reduced NAD and FAD are passed to the ETC where hydrogen is removed and split into H+ and an electron. • The electron is transferred to the first electron carrier, whilst H+ remains in solution. • As the electron is transferred to oxygen, H+ is drawn from solution to reduce oxygen to water. ...
CHEMISTRY
... Chapter 7 focuses in on the cell membrane and goes into more detail about how this part of the cell functions to control what enters and leaves a cell (= “selective permeability”). The good news is that if you were paying attention in Biology I, this should all be review! ...
... Chapter 7 focuses in on the cell membrane and goes into more detail about how this part of the cell functions to control what enters and leaves a cell (= “selective permeability”). The good news is that if you were paying attention in Biology I, this should all be review! ...
Nerve Signals
... Neurotransmitter released by terminal at synapse Synaptic cleft: separation of plasma membranes by a ...
... Neurotransmitter released by terminal at synapse Synaptic cleft: separation of plasma membranes by a ...
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.