Sample Exam 1
... 20. What is the major function of carbohydrates in the body? a. They act as enzymes to speed up chemical reactions. b. They are the molecules of instruction and inheritance. c. They provide structure to the body by holding it together. d. They provide the primary source of fuel for a cell to make e ...
... 20. What is the major function of carbohydrates in the body? a. They act as enzymes to speed up chemical reactions. b. They are the molecules of instruction and inheritance. c. They provide structure to the body by holding it together. d. They provide the primary source of fuel for a cell to make e ...
Effect of Temperature Increasing the temperature increases the
... Denaturing effect • Proteins take on the 3-D structure with lowest potential energy - increases their stability • Increased energy causes increased motion within the molecule as well as between molecules • Weak bonds in the tertiary structure (hydrogen bonds) are broken and new bonds form in differ ...
... Denaturing effect • Proteins take on the 3-D structure with lowest potential energy - increases their stability • Increased energy causes increased motion within the molecule as well as between molecules • Weak bonds in the tertiary structure (hydrogen bonds) are broken and new bonds form in differ ...
Ref ID: 368
... toxic forms. We have correlated drug resistance in neuroblastoma (NB) cell lines with mRNA overexpression of g-glutamylcysteine synthetase (g-GCS) and GSH-s-transferase µ (GSTµ), that code for glutathione synthesis and utilization enzymes. METHODS: We studied 20 NB cell lines containing 10 sensitive ...
... toxic forms. We have correlated drug resistance in neuroblastoma (NB) cell lines with mRNA overexpression of g-glutamylcysteine synthetase (g-GCS) and GSH-s-transferase µ (GSTµ), that code for glutathione synthesis and utilization enzymes. METHODS: We studied 20 NB cell lines containing 10 sensitive ...
Quizlet Vocab Chapter 2
... formed when an atom loses or gains an electron; if it loses an electron a + ion is formed (ex, Na+) and if if gains an electron a - ion is formed (ex. Cl-) ...
... formed when an atom loses or gains an electron; if it loses an electron a + ion is formed (ex, Na+) and if if gains an electron a - ion is formed (ex. Cl-) ...
Overview: The Energy of Life
... • Each enzyme has an optimal temperature in which it can function • Each enzyme has an optimal pH in which it can function • Optimal conditions favor the most active shape for the enzyme molecule Cofactors • Cofactors are nonprotein enzyme helpers • Cofactors may be inorganic (such as a metal in ion ...
... • Each enzyme has an optimal temperature in which it can function • Each enzyme has an optimal pH in which it can function • Optimal conditions favor the most active shape for the enzyme molecule Cofactors • Cofactors are nonprotein enzyme helpers • Cofactors may be inorganic (such as a metal in ion ...
Close Reading for Macromolecules
... 27. What WILL lipids (oils and fats) dissolve in? (Question for thought) other nonpolar molecules 28. ___Phspholipids______________ makes up cell membranes. 29. Name a waxy lipid covering plants. cuticle 30. Plant pigments like ______chlorophyll______ are also ___lipids____. 31. Lipids have more ___ ...
... 27. What WILL lipids (oils and fats) dissolve in? (Question for thought) other nonpolar molecules 28. ___Phspholipids______________ makes up cell membranes. 29. Name a waxy lipid covering plants. cuticle 30. Plant pigments like ______chlorophyll______ are also ___lipids____. 31. Lipids have more ___ ...
... 50% yield with >98% regioselectivity by reaction of the corresponding free sugar with ethyl L-lactate in the presence of 10% water. Compounds 2a and 2b were further converted to 4a and 4b, respectively, via reaction with pyruvate catalyzed by sialic acid aldolase. Compounds 3a and 3b were deoxygenat ...
Enzymes: Regulation 2-3
... 4. Interaction with regulatory proteins (Chapter 14, pp. 389-391) Protein Kinase Cascades • Phosphorylation as a control mechanism → highly amplified effects: One single activated protein kinase molecule can phosphorylate hundreds of target proteins in a very short time. phosphorylation, • If target ...
... 4. Interaction with regulatory proteins (Chapter 14, pp. 389-391) Protein Kinase Cascades • Phosphorylation as a control mechanism → highly amplified effects: One single activated protein kinase molecule can phosphorylate hundreds of target proteins in a very short time. phosphorylation, • If target ...
Finals Practice Exam
... Spring 2004 BCHS 3304 Final Exam Review Student Copy1). The TR transition of hemoglobin upon binding of oxygen to the heme has been thoroughly investigated. On a thermodynamic level, this TR transition can be described as (primarily) an enthalpically driven process. Which of the following phenomen ...
... Spring 2004 BCHS 3304 Final Exam Review Student Copy1). The TR transition of hemoglobin upon binding of oxygen to the heme has been thoroughly investigated. On a thermodynamic level, this TR transition can be described as (primarily) an enthalpically driven process. Which of the following phenomen ...
What happened to my cousin Patrick O’Neill?
... CQ4: What would happen if Patrick lost his ability to make ATP? A: His muscles would not be able to contract. B: His neurons would not be able to conduct electrical signals. C: Both A and B. ...
... CQ4: What would happen if Patrick lost his ability to make ATP? A: His muscles would not be able to contract. B: His neurons would not be able to conduct electrical signals. C: Both A and B. ...
Cells N5 Homework book - Deans Community High School
... 2. The DNA code is copied then translated before a new protein is made. During the copying process the base Thymine is relaced with a base called Uracil, represented by the letter U. This means that the codes for amino acids all contain the letter U instead of letter T. Use the genetic code to ident ...
... 2. The DNA code is copied then translated before a new protein is made. During the copying process the base Thymine is relaced with a base called Uracil, represented by the letter U. This means that the codes for amino acids all contain the letter U instead of letter T. Use the genetic code to ident ...
Document
... chemical structure of pollutants are due to the action of enzymes, whose specificity is often broad enough to accommodate several molecules of similar structures. ...
... chemical structure of pollutants are due to the action of enzymes, whose specificity is often broad enough to accommodate several molecules of similar structures. ...
File
... 4. Proteins 2. Proteins may have up to 4 levels of organization 1st- sequence of amino acids in a protein chain 2nd- amino acids can be twisted or folded 3rd- chain is folded * Van der Waal’s forces and hydrogen bonds help maintain the shape of the protein ...
... 4. Proteins 2. Proteins may have up to 4 levels of organization 1st- sequence of amino acids in a protein chain 2nd- amino acids can be twisted or folded 3rd- chain is folded * Van der Waal’s forces and hydrogen bonds help maintain the shape of the protein ...
Metabolism Metabolism refers to all the chemical reactions within an
... Metabolism refers to all the chemical reactions within an organism that breakdown molecules to release energy and all the reactions that use energy to build complex molecules. These reactions are referred to as anabolism and catabolism ...
... Metabolism refers to all the chemical reactions within an organism that breakdown molecules to release energy and all the reactions that use energy to build complex molecules. These reactions are referred to as anabolism and catabolism ...
Section 2.3 Carbon Compounds
... 4. Proteins 2. Proteins may have up to 4 levels of organization 1st- sequence of amino acids in a protein chain 2nd- amino acids can be twisted or folded 3rd- chain is folded * Van der Waal’s forces and hydrogen bonds help maintain the shape of the protein ...
... 4. Proteins 2. Proteins may have up to 4 levels of organization 1st- sequence of amino acids in a protein chain 2nd- amino acids can be twisted or folded 3rd- chain is folded * Van der Waal’s forces and hydrogen bonds help maintain the shape of the protein ...
- Our Schools
... your body uses these biomolecules for the storage of nutrients and the transfer of energy in the body . ...
... your body uses these biomolecules for the storage of nutrients and the transfer of energy in the body . ...
What happened to my cousin Patrick O’Neill?
... lost his ability to make ATP? A: His muscles would not be able to contract. B: His neurons would not be able to conduct electrical signals. C: Both A and B. ...
... lost his ability to make ATP? A: His muscles would not be able to contract. B: His neurons would not be able to conduct electrical signals. C: Both A and B. ...
Enzyme
Enzymes /ˈɛnzaɪmz/ are macromolecular biological catalysts. Enzymes accelerate, or catalyze, chemical reactions. The molecules at the beginning of the process are called substrates and the enzyme converts these into different molecules, called products. Almost all metabolic processes in the cell need enzymes in order to occur at rates fast enough to sustain life. The set of enzymes made in a cell determines which metabolic pathways occur in that cell. The study of enzymes is called enzymology.Enzymes are known to catalyze more than 5,000 biochemical reaction types. Most enzymes are proteins, although a few are catalytic RNA molecules. Enzymes' specificity comes from their unique three-dimensional structures.Like all catalysts, enzymes increase the rate of a reaction by lowering its activation energy. Some enzymes can make their conversion of substrate to product occur many millions of times faster. An extreme example is orotidine 5'-phosphate decarboxylase, which allows a reaction that would otherwise take millions of years to occur in milliseconds. Chemically, enzymes are like any catalyst and are not consumed in chemical reactions, nor do they alter the equilibrium of a reaction. Enzymes differ from most other catalysts by being much more specific. Enzyme activity can be affected by other molecules: inhibitors are molecules that decrease enzyme activity, and activators are molecules that increase activity. Many drugs and poisons are enzyme inhibitors. An enzyme's activity decreases markedly outside its optimal temperature and pH.Some enzymes are used commercially, for example, in the synthesis of antibiotics. Some household products use enzymes to speed up chemical reactions: enzymes in biological washing powders break down protein, starch or fat stains on clothes, and enzymes in meat tenderizer break down proteins into smaller molecules, making the meat easier to chew.