L7c RESPIRATION Ch9 etc regulation
... ATP synthase ATP synthase uses the exergonic flow of H+ to drive phosphorylation of ADP to ATP This is an example of chemiosmosis, the use of energy in a H+ gradient to drive cellular work ...
... ATP synthase ATP synthase uses the exergonic flow of H+ to drive phosphorylation of ADP to ATP This is an example of chemiosmosis, the use of energy in a H+ gradient to drive cellular work ...
PureCube Rho1D4 Agarose
... The rho1D4 epitope and antibody pair was characterized in the 1980ꞌs and used to purify bovine rhodopsin expressed in monkey kidney cells by coupling the antibody to Sepharose® beads.(1,2) Since then, the rho1D4 system (tag, antibody-coupled affinity matrix, eluent peptide) has been used to study a ...
... The rho1D4 epitope and antibody pair was characterized in the 1980ꞌs and used to purify bovine rhodopsin expressed in monkey kidney cells by coupling the antibody to Sepharose® beads.(1,2) Since then, the rho1D4 system (tag, antibody-coupled affinity matrix, eluent peptide) has been used to study a ...
Cellular Respiration and Photosynthesis Notes
... • Photosynthesis, CO2 and Plants • The Energy of life (ATP) • Structure of chloroplast + Photosynthesis overview ...
... • Photosynthesis, CO2 and Plants • The Energy of life (ATP) • Structure of chloroplast + Photosynthesis overview ...
Cellular Respiration: Harvesting Chemical Energy
... High energy product so reacts exergonically Decarboxylation is loss of CO2 ...
... High energy product so reacts exergonically Decarboxylation is loss of CO2 ...
Lecture 16 - Biology Courses Server
... M6P receptor in TGN directs transport of enzymes to lysosome via clathrincoated vesicles Patients with I-cell disease lack phosphotransferase needed for addition of M6-P to lysosomal proteins in fibroblasts… secreted… ...
... M6P receptor in TGN directs transport of enzymes to lysosome via clathrincoated vesicles Patients with I-cell disease lack phosphotransferase needed for addition of M6-P to lysosomal proteins in fibroblasts… secreted… ...
Document
... Read pages 184-189 Answer the following questions: 1. What are some of the functions of the cell membrane? 2. What is diffusion? Does it move from a high to low concentration, or a low to high concentration? 3. What is osmosis? 4. What does it mean to be selectively permeable? 5. Describe the basic ...
... Read pages 184-189 Answer the following questions: 1. What are some of the functions of the cell membrane? 2. What is diffusion? Does it move from a high to low concentration, or a low to high concentration? 3. What is osmosis? 4. What does it mean to be selectively permeable? 5. Describe the basic ...
photosynthesis and respiration
... pyruvic acid ethyl alcohol + CO2 + 2 ATP 2. Lactic acid fermentation muscle activity, lactobacillus ...
... pyruvic acid ethyl alcohol + CO2 + 2 ATP 2. Lactic acid fermentation muscle activity, lactobacillus ...
Recap: structure of ATP
... Products of Aerobic respiration Product per molecule of glucose Reduced NAD Reduced FAD CO2 ATP ...
... Products of Aerobic respiration Product per molecule of glucose Reduced NAD Reduced FAD CO2 ATP ...
1Memstruc
... 1. The membrane of internal organelles consists of single layers (not a bilayer) of phospholipids. 2. The structures of most membrane proteins are now well known. 3. All membrane lipids are phospholipids. 4. In general, there is great diversity of oligosaccharide structures among glycoproteins and g ...
... 1. The membrane of internal organelles consists of single layers (not a bilayer) of phospholipids. 2. The structures of most membrane proteins are now well known. 3. All membrane lipids are phospholipids. 4. In general, there is great diversity of oligosaccharide structures among glycoproteins and g ...
NOTE: The provided figures may be useful and beneficial. Use them
... 1. Compare & contrast the 4 main classes of macromolecules. Include a labeled drawing of their monomers, 3 examples of each polymer & the polymers’ roles in organisms. Be thorough! 2. Suppose you are eating a serving of chicken. What reactions must occur (& why) for the chicken protein to be convert ...
... 1. Compare & contrast the 4 main classes of macromolecules. Include a labeled drawing of their monomers, 3 examples of each polymer & the polymers’ roles in organisms. Be thorough! 2. Suppose you are eating a serving of chicken. What reactions must occur (& why) for the chicken protein to be convert ...
Name - Skule
... 6) Glycolysis and gluconeogenesis are the __________ and ____________ pathways of glucose metabolism, respectively. Although the two pathways may have steps in common, the two pathways utilize different _______ ...
... 6) Glycolysis and gluconeogenesis are the __________ and ____________ pathways of glucose metabolism, respectively. Although the two pathways may have steps in common, the two pathways utilize different _______ ...
PowerPoint Slides
... • Proteins which have >~50% of their secondary structure elements arranged the in the same order in the protein chain and in three dimensions are classified as having the same fold • No evolutionary relation between proteins *confusingly also called fold classes ...
... • Proteins which have >~50% of their secondary structure elements arranged the in the same order in the protein chain and in three dimensions are classified as having the same fold • No evolutionary relation between proteins *confusingly also called fold classes ...
Western blot analysis
... query were defined using an E value cut-off of 10-4. Remote structural homology between Etk, Wzc, MinD, ParA and SopA were established by hidden Markov model (HMM)-HMM alignments using HHpred [10]. The HMM profile was generated by aligning full length protein sequences of MinD, ParA, SopA followed b ...
... query were defined using an E value cut-off of 10-4. Remote structural homology between Etk, Wzc, MinD, ParA and SopA were established by hidden Markov model (HMM)-HMM alignments using HHpred [10]. The HMM profile was generated by aligning full length protein sequences of MinD, ParA, SopA followed b ...
Lecture 5-Bioinorganic Chemistry
... The prosthetic group in all cytochromes comprises of four heme units They have a molecular weight of about 12,400 Active site differences between Hemoglobin and Cytochrome O S (cys) ...
... The prosthetic group in all cytochromes comprises of four heme units They have a molecular weight of about 12,400 Active site differences between Hemoglobin and Cytochrome O S (cys) ...
Cell Project2013
... Each organelle is labeled with the proper name and neatly written ______ 20 points: On multiple sheets of computer paper all plant cell organelles are recognizably drawn with its name and function/s ______ 30 points: Animal cell 3-D model ...
... Each organelle is labeled with the proper name and neatly written ______ 20 points: On multiple sheets of computer paper all plant cell organelles are recognizably drawn with its name and function/s ______ 30 points: Animal cell 3-D model ...
ch4 FA 11 - Cal State LA
... – Transporter catalyzes movement from one side to other, driven by movement down concentration gradient – 1st step of glycolysis lowers cytoplasmic concentration – Can be regulated ...
... – Transporter catalyzes movement from one side to other, driven by movement down concentration gradient – 1st step of glycolysis lowers cytoplasmic concentration – Can be regulated ...
AP Biology - gwbiology
... substances to cross into or out of the cell through the membrane more easily than others. This is important because it allows the cell to regulate transport across cellular boundaries, for example by allowing nutrients to enter and waste to exit the cell, while at the same time regulating the concen ...
... substances to cross into or out of the cell through the membrane more easily than others. This is important because it allows the cell to regulate transport across cellular boundaries, for example by allowing nutrients to enter and waste to exit the cell, while at the same time regulating the concen ...
Lecture-Oxidative Phsphorylation
... folding increases surface area (site of ox. phos. machinery) Matrix contains: citric acid cycle enzymes Fatty acid oxidation enzymes (discuss later) ...
... folding increases surface area (site of ox. phos. machinery) Matrix contains: citric acid cycle enzymes Fatty acid oxidation enzymes (discuss later) ...
2014 Quiz IA Answers
... Osmosis moves water from areas with higher solute concentration to areas with solute concentration Pinocytosis moves fluid and dissolved materials into cells A&D ...
... Osmosis moves water from areas with higher solute concentration to areas with solute concentration Pinocytosis moves fluid and dissolved materials into cells A&D ...
Starting Strong Package Version 3.0 (General)V2.docx
... Lipids and proteins. 2. What are the major functions of proteins in plasma membranes? Which of these major functions does the CFTR protein perform? Major functions include providing transport into and out of the cell, serving as ion channels, receiving chemical signals from outside the cell, providi ...
... Lipids and proteins. 2. What are the major functions of proteins in plasma membranes? Which of these major functions does the CFTR protein perform? Major functions include providing transport into and out of the cell, serving as ion channels, receiving chemical signals from outside the cell, providi ...
Exam I Review - Iowa State University
... water into the matrix through the ATP synthase channel by osmosis, and the energy in this water flow is used to power ATP synthesis. *c. H+ movement down a concentration gradient from the intermembrane space into the mitochondrial matrix through ATP synthase results in ATP synthesis d. All these sta ...
... water into the matrix through the ATP synthase channel by osmosis, and the energy in this water flow is used to power ATP synthesis. *c. H+ movement down a concentration gradient from the intermembrane space into the mitochondrial matrix through ATP synthase results in ATP synthesis d. All these sta ...
New York: Holt, Rinehart and Winston, Inc., 1992.
... reaction driven by movement of H+ across the inner membrane into the matrix ...
... reaction driven by movement of H+ across the inner membrane into the matrix ...
Principles of BIOCHEMISTRY
... reaction driven by movement of H+ across the inner membrane into the matrix ...
... reaction driven by movement of H+ across the inner membrane into the matrix ...
Cellular Respiration Harvesting Chemical Energy
... Structure of Mitochondria Mitochondria are found in almost all eukaryotic cells. Its structure is key to its role in cellular respiration. ...
... Structure of Mitochondria Mitochondria are found in almost all eukaryotic cells. Its structure is key to its role in cellular respiration. ...
(Extrinsic) Proteins
... • This bilipid layer is semipermeable, meaning that some molecules are allowed to pass freely (diffuse) through the membrane. • The lipid bilayer is virtually impermeable to large molecules, relatively impermeable to molecules as small as charged ions. • It is quite permeable to lipid soluble low mo ...
... • This bilipid layer is semipermeable, meaning that some molecules are allowed to pass freely (diffuse) through the membrane. • The lipid bilayer is virtually impermeable to large molecules, relatively impermeable to molecules as small as charged ions. • It is quite permeable to lipid soluble low mo ...
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.