Lecture 9
... in solution • Crystals have 40-60% water content (similar to most cells) • Proteins may crystallize in of several forms depending on conditions. Different crystal forms of the same protein have identical conformations. • Many enzymes are catalytically active in the crystalline state. ...
... in solution • Crystals have 40-60% water content (similar to most cells) • Proteins may crystallize in of several forms depending on conditions. Different crystal forms of the same protein have identical conformations. • Many enzymes are catalytically active in the crystalline state. ...
Metabolism Objective Project
... 4) Anaerobic respiration produces carbon dioxide, ATP, and either lactic acid or ethyl alcohol. Aerobic respiration produces carbon dioxide, water, and ATP 5)Anaerobic respiration only occurs in the cytoplasm while aerobic occurs in both the cytoplasm and mitochondria ...
... 4) Anaerobic respiration produces carbon dioxide, ATP, and either lactic acid or ethyl alcohol. Aerobic respiration produces carbon dioxide, water, and ATP 5)Anaerobic respiration only occurs in the cytoplasm while aerobic occurs in both the cytoplasm and mitochondria ...
classification of intra- and intermolecular forces
... -Coulombic attraction between oppositely charged species -individually strong, however greatly weakened in the presence of water (e.g. center of proteins→strong, DNA-proteins) ...
... -Coulombic attraction between oppositely charged species -individually strong, however greatly weakened in the presence of water (e.g. center of proteins→strong, DNA-proteins) ...
Topic 1 Review - Capital High School
... A. Each magnesium atom loses two electrons and each chlorine atom gains two electrons. B. Each magnesium atom gains one electron and each chlorine atom loses one electron. C. Each magnesium atom loses two electrons and each chlorine atom gains one electron. D. Each magnesium atom gains one electron ...
... A. Each magnesium atom loses two electrons and each chlorine atom gains two electrons. B. Each magnesium atom gains one electron and each chlorine atom loses one electron. C. Each magnesium atom loses two electrons and each chlorine atom gains one electron. D. Each magnesium atom gains one electron ...
BIOLOGICAL OXIDATION
... 3- Ubiquinone (Coenzyme Q) :Ubiquinones are a group of compounds containing quinine ring but vary according to number of isoprene units at the side chain. It is a small molecule collecting reducing equivalents from the more fixed component of the respiratory chain. Ubiquinone can carry two hydrogen ...
... 3- Ubiquinone (Coenzyme Q) :Ubiquinones are a group of compounds containing quinine ring but vary according to number of isoprene units at the side chain. It is a small molecule collecting reducing equivalents from the more fixed component of the respiratory chain. Ubiquinone can carry two hydrogen ...
S.O.L. Review
... a. Beaker A because of increased surface area. b. Beaker B because of increased surface area. c. Beaker A because of a higher concentration level. d. Beaker B because of a higher concentration level. ...
... a. Beaker A because of increased surface area. b. Beaker B because of increased surface area. c. Beaker A because of a higher concentration level. d. Beaker B because of a higher concentration level. ...
SBI4U: Respiration and Photosynthesis Test
... c) What happens to all the G3P that is produced? [2] 5). A plant uses 54 ATP to build one glucose molecule, but only gets 36 ATP when it breaks the sugar down for energy. Why doesn't the plant run into an energy shortage? [3] 6). Photorespiration can be a problem for C3 plants (most plants). a) Expl ...
... c) What happens to all the G3P that is produced? [2] 5). A plant uses 54 ATP to build one glucose molecule, but only gets 36 ATP when it breaks the sugar down for energy. Why doesn't the plant run into an energy shortage? [3] 6). Photorespiration can be a problem for C3 plants (most plants). a) Expl ...
- Circle of Docs
... fatty acid derivatives hemoglobin and chlorophyll acid amide breakdown products sulfonated hydrocarbons ...
... fatty acid derivatives hemoglobin and chlorophyll acid amide breakdown products sulfonated hydrocarbons ...
Chemical Equation
... • Are compounds composed of charged particles. • In general: the electrons are shared between the ions. Metals tend to give up their electrons to an incomplete nonmetal. • All Ionic compounds are represented by their empirical formulas. They are always in the smallest whole number ratios. ...
... • Are compounds composed of charged particles. • In general: the electrons are shared between the ions. Metals tend to give up their electrons to an incomplete nonmetal. • All Ionic compounds are represented by their empirical formulas. They are always in the smallest whole number ratios. ...
Chapter 3 Molecules, Compounds, and Chemical Equations
... 2. Write the name of the second element in the formula with an -ide suffix. ...
... 2. Write the name of the second element in the formula with an -ide suffix. ...
Chapter 7 Harvesting Energy Slides
... (In mitochondrial matrix) • The last electrons are removed from the organic molecules and put on electron carriers. • FADH2 is an electron carrier like NADH. It can carry 2 electrons on each molecule. ...
... (In mitochondrial matrix) • The last electrons are removed from the organic molecules and put on electron carriers. • FADH2 is an electron carrier like NADH. It can carry 2 electrons on each molecule. ...
Exam #2
... photoheterotrophic bacteria in the surface of the open ocean compared to bacteria that are heterotrophs (recall that the open ocean has very low supply of organic nutrients; i.e. it’s oligotrophic). Know where different amphibolic pathway intermediates shunt off for biosynthesis of amino acids, nucl ...
... photoheterotrophic bacteria in the surface of the open ocean compared to bacteria that are heterotrophs (recall that the open ocean has very low supply of organic nutrients; i.e. it’s oligotrophic). Know where different amphibolic pathway intermediates shunt off for biosynthesis of amino acids, nucl ...
South Pasadena • AP Chemistry
... a) all salts containing NH4+ are soluble. b) all salts containing NO3– are soluble. c) all fluorides are soluble. d) all sulfates (except those of Ca2+, Sr2+, Ba2+, and Pb2+) are soluble. e) most hydroxides are insoluble, except those of Ca2+, Sr2+, Ba2+, the alkali metals and NH4+. ...
... a) all salts containing NH4+ are soluble. b) all salts containing NO3– are soluble. c) all fluorides are soluble. d) all sulfates (except those of Ca2+, Sr2+, Ba2+, and Pb2+) are soluble. e) most hydroxides are insoluble, except those of Ca2+, Sr2+, Ba2+, the alkali metals and NH4+. ...
File
... 2. Which condition is necessary for enzymes to function properly in the human body? (1) These catalysts must have a specific shape. (3) Body temperature must be above 40°C. (2) These catalysts must be able to reproduce. (4) Body pH must be above 10. 3. The term “substrate” is most commonly used to d ...
... 2. Which condition is necessary for enzymes to function properly in the human body? (1) These catalysts must have a specific shape. (3) Body temperature must be above 40°C. (2) These catalysts must be able to reproduce. (4) Body pH must be above 10. 3. The term “substrate” is most commonly used to d ...
Chapter 1 Introduction
... explosive information is being provided at an unprecedented speed. Biochemistry is a window opening to the world of life science. Thus, the knowledge of biochemistry which involves the study of chemical molecules and reactions in living organisms, and the elucidations of the nature of live phenomeno ...
... explosive information is being provided at an unprecedented speed. Biochemistry is a window opening to the world of life science. Thus, the knowledge of biochemistry which involves the study of chemical molecules and reactions in living organisms, and the elucidations of the nature of live phenomeno ...
Metalloprotein
Metalloprotein is a generic term for a protein that contains a metal ion cofactor. A large number of all proteins are part of this category.