biochem

Chapter 1 Full By Uziel Abisai Vega Manzano In a bacterial cell, the DNA is in the: A) cell envelope. B) cell membrane. C) nucleoid. D) nucleus. E) ribosomes. In a bacterial cell, the DNA is in the: A) cell envelope. B) cell membrane. C) nucleoid. D) nucleus. E) ribosomes. A major change occurring in the evolution of eukaryotes from prokaryotes was the development of: A) DNA. B) photosynthetic capability. C) plasma membranes. D) ribosomes. E) the nucleus. A major change occurring in the evolution of eukaryotes from prokaryotes was the development of: A) DNA. B) photosynthetic capability. C) plasma membranes. D) ribosomes. E) the nucleus. In eukaryotes, the nucleus is enclosed by a double membrane called the: A) cell membrane. B) nuclear envelope. C) nucleolus. D) nucleoplasm. E) nucleosome. In eukaryotes, the nucleus is enclosed by a double membrane called the: A) cell membrane. B) nuclear envelope. C) nucleolus. D) nucleoplasm. E) nucleosome. The dimensions of living cells are limited, on the lower end by the minimum number of biomolecules necessary for function, and on the upper end by the rate of diffusion of solutes such as oxygen. Except for highly elongated cells, they usually have lengths and diameters in the range of: A) 0.1 mm to 10 mm. B) 0.3 mm to 30 mm. C) 0.3 mm to 100 mm. D) 1 mm to 100 mm. E) 1 mm to 300 mm. The dimensions of living cells are limited, on the lower end by the minimum number of biomolecules necessary for function, and on the upper end by the rate of diffusion of solutes such as oxygen. Except for highly elongated cells, they usually have lengths and diameters in the range of: A) 0.1 mm to 10 mm. B) 0.3 mm to 30 mm. C) 0.3 mm to 100 mm. D) 1 mm to 100 mm. E) 1 mm to 300 mm. Which group of single-celled microorganisms has many members found growing in extreme environments? A) bacteria B) archaea C) eukaryotes D) heterotrophs E) None of the answers is correct. Which group of single-celled microorganisms has many members found growing in extreme environments? A) bacteria B) archaea C) eukaryotes D) heterotrophs E) None of the answers is correct. The bacterium E. coli requires simple organic molecules for growth and energy—it is therefore a: A) chemoautotroph. B) chemoheterotroph. C) lithotroph. D) photoautotroph. E) photoheterotroph. The bacterium E. coli requires simple organic molecules for growth and energy—it is therefore a: A) chemoautotroph. B) chemoheterotroph. C) lithotroph. D) photoautotroph. E) photoheterotroph. Which is a list of organelles? A) mitochondria, chromatin, endoplasmic reticulum B) peroxisomes, lysosomes, plasma membrane C) proteasomes, peroxisomes, lysosomes D) mitochondria, endoplasmic reticulum, peroxisomes E) All of the answers are correct. Which is a list of organelles? A) mitochondria, chromatin, endoplasmic reticulum B) peroxisomes, lysosomes, plasma membrane C) proteasomes, peroxisomes, lysosomes D) mitochondria, endoplasmic reticulum, peroxisomes E) All of the answers are correct. Which list has the cellular components arranged in order of INCREASING size? A) amino acid < protein < mitochondrion < ribosome B) amino acid < protein < ribosome < mitochondrion C) amino acid < ribosome < protein < mitochondrion D) protein < amino acid < mitochondrion < ribosome E) protein < ribosome < mitochondrion < amino acid Which list has the cellular components arranged in order of INCREASING size? A) amino acid < protein < mitochondrion < ribosome B) amino acid < protein < ribosome < mitochondrion C) amino acid < ribosome < protein < mitochondrion D) protein < amino acid < mitochondrion < ribosome E) protein < ribosome < mitochondrion < amino acid The three-dimensional structure of macromolecules is formed and maintained primarily through noncovalent interactions. Which one of the following is NOT considered a noncovalent interaction? A) carbon-carbon bonds B) hydrogen bonds C) hydrophobic interactions D) ionic interactions E) van der Waals interactions The three-dimensional structure of macromolecules is formed and maintained primarily through noncovalent interactions. Which one of the following is NOT considered a noncovalent interaction? A) carbon-carbon bonds B) hydrogen bonds C) hydrophobic interactions D) ionic interactions E) van der Waals interactions Which element is NOT among the four most abundant in living organisms? A) carbon B) hydrogen C) nitrogen D) oxygen E) phosphorus Which element is NOT among the four most abundant in living organisms? A) carbon B) hydrogen C) nitrogen D) oxygen E) phosphorus The four covalent bonds in methane (CH4) are arranged around carbon to give which geometry? A) linear B) tetrahedral C) trigonal bipyramidal D) trigonal planar E) trigonal pyramidal The four covalent bonds in methane (CH4) are arranged around carbon to give which geometry? A) linear B) tetrahedral C) trigonal bipyramidal D) trigonal planar E) trigonal pyramidal What functional groups are present on this molecule? A) ether and aldehyde B) hydroxyl and aldehyde C) hydroxyl and carboxylic acid D) hydroxyl and ester E) hydroxyl and ketone What functional groups are present on this molecule? A) ether and aldehyde B) hydroxyl and aldehyde C) hydroxyl and carboxylic acid D) hydroxyl and ester E) hydroxyl and ketone The macromolecules that serve in the storage and transmission of genetic information are: A) carbohydrates. B) lipids. C) membranes. D) nucleic acids. E) proteins. The macromolecules that serve in the storage and transmission of genetic information are: A) carbohydrates. B) lipids. C) membranes. D) nucleic acids. E) proteins. Stereoisomers that are nonsuperimposable mirror images of each other are known as: A) anomers. B) cis-trans isomers. C) diastereoisomers. D) enantiomers. E) geometric isomers. Stereoisomers that are nonsuperimposable mirror images of each other are known as: A) anomers. B) cis-trans isomers. C) diastereoisomers. D) enantiomers. E) geometric isomers. The catalog of all proteins functioning in a cell is the: A) metabolome. B) proteasome. C) lysosome. D) proteome. E) genome. The catalog of all proteins functioning in a cell is the: A) metabolome. B) proteasome. C) lysosome. D) proteome. E) genome. Use the terms a) chemoautotrophs, b) chemoheterotrophs, c) photoautotrophs, and d) photoheterotrophs and identify the answer that CORRECTLY finishes the statement: Carnivores are _____ and herbivores are _____. A) b; c B) b; d C) b; b D) a; b E) a; a Use the terms a) chemoautotrophs, b) chemoheterotrophs, c) photoautotrophs, and d) photoheterotrophs and identify the answer that CORRECTLY finishes the statement: Carnivores are _____ and herbivores are _____. A) b; c B) b; d C) b; b D) a; b E) a; a The enzyme fumarase catalyzes the reversible hydration of fumaric acid to l-malate, but it will not catalyze the hydration of maleic acid, the cis isomer of fumaric acid. This is an example of: A) biological activity. B) chiral activity. C) racemization. D) stereoisomerization. E) stereospecificity. The enzyme fumarase catalyzes the reversible hydration of fumaric acid to l-malate, but it will not catalyze the hydration of maleic acid, the cis isomer of fumaric acid. This is an example of: A) biological activity. B) chiral activity. C) racemization. D) stereoisomerization. E) stereospecificity. Humans maintain a nearly constant level of hemoglobin by continually synthesizing and degrading it. This is an example of a(n): A) dynamic steady state. B) equilibrium state. C) exergonic change. D) free-energy change. E) waste of energy. Humans maintain a nearly constant level of hemoglobin by continually synthesizing and degrading it. This is an example of a(n): A) dynamic steady state. B) equilibrium state. C) exergonic change. D) free-energy change. E) waste of energy. If heat energy is absorbed by the system during a chemical reaction, the reaction is said to be: A) at equilibrium. B) endergonic. C) endothermic. D) exergonic. E) exothermic. If heat energy is absorbed by the system during a chemical reaction, the reaction is said to be: A) at equilibrium. B) endergonic. C) endothermic. D) exergonic. E) exothermic. If the free energy change ?G for a reaction is –46.11 kJ/mol, the reaction is: A) at equilibrium. B) endergonic. C) endothermic. D) exergonic. E) exothermic. If the free energy change ?G for a reaction is –46.11 kJ/mol, the reaction is: A) at equilibrium. B) endergonic. C) endothermic. D) exergonic. E) exothermic. The major carrier of chemical energy in all cells is: A) acetyl triphosphate. B) adenosine monophosphate. C) adenosine triphosphate. D) cytosine tetraphosphate. E) uridine diphosphate. The major carrier of chemical energy in all cells is: A) acetyl triphosphate. B) adenosine monophosphate. C) adenosine triphosphate. D) cytosine tetraphosphate. E) uridine diphosphate. Enzymes are biological catalysts that enhance the rate of a reaction by: A) decreasing the activation energy. B) decreasing the amount of free energy released. C) increasing the activation energy. D) increasing the amount of free energy released. E) increasing the energy of the transition state. Enzymes are biological catalysts that enhance the rate of a reaction by: A) decreasing the activation energy. B) decreasing the amount of free energy released. C) increasing the activation energy. D) increasing the amount of free energy released. E) increasing the energy of the transition state. Energy requiring metabolic pathways that yield complex molecules from simpler precursors are: A) amphibolic. B) anabolic. C) autotrophic. D) catabolic. E) heterotrophic. Energy requiring metabolic pathways that yield complex molecules from simpler precursors are: A) amphibolic. B) anabolic. C) autotrophic. D) catabolic. E) heterotrophic. Hereditary information (with the exception of some viruses) is preserved in: A) deoxyribonucleic acid. B) membrane structures. C) nuclei. D) polysaccharides. E) ribonucleic acid. Hereditary information (with the exception of some viruses) is preserved in: A) deoxyribonucleic acid. B) membrane structures. C) nuclei. D) polysaccharides. E) ribonucleic acid. When a region of DNA must be repaired by removing and replacing some of the nucleotides, what ensures that the new nucleotides are in the correct sequence? A) DNA cannot be repaired and this explains why mutations occur. B) Specific enzymes bind the correct nucleotides. C) The new nucleotides base pair accurately with those on the complementary strand. D) The repair enzyme recognizes the removed nucleotide and brings in an identical one to replace it. E) The three-dimensional structure determines the order of nucleotides. When a region of DNA must be repaired by removing and replacing some of the nucleotides, what ensures that the new nucleotides are in the correct sequence? A) DNA cannot be repaired and this explains why mutations occur. B) Specific enzymes bind the correct nucleotides. C) The new nucleotides base pair accurately with those on the complementary strand. D) The repair enzyme recognizes the removed nucleotide and brings in an identical one to replace it. E) The three-dimensional structure determines the order of nucleotides. The three-dimensional structure of a protein is determined primarily by: A) electrostatic guidance from nucleic acid structure. B) how many amino acids are in the protein. C) hydrophobic interaction with lipids that provide a folding framework. D) modification during interactions with ribosomes. E) the sequence of amino acids in the protein. The three-dimensional structure of a protein is determined primarily by: A) electrostatic guidance from nucleic acid structure. B) how many amino acids are in the protein. C) hydrophobic interaction with lipids that provide a folding framework. D) modification during interactions with ribosomes. E) the sequence of amino acids in the protein. According to Oparin's theory for the origin of life, the prebiotic atmosphere: A) already contained some primitive RNA molecules. B) basically was very similar to the atmosphere of today. C) contained many amino acids. D) had an abundance of methane, ammonia, and water. E) was rich in oxygen. According to Oparin's theory for the origin of life, the prebiotic atmosphere: A) already contained some primitive RNA molecules. B) basically was very similar to the atmosphere of today. C) contained many amino acids. D) had an abundance of methane, ammonia, and water. E) was rich in oxygen. When two genes in an organism share detectable sequence similarity, those genes or their gene products, are said to be: A) homologues. B) orthologues. C) paralogues. D) both homologues and orthologues. E) both homologues and paralogues. F) both orthologues and paralogues. When two genes in an organism share detectable sequence similarity, those genes or their gene products, are said to be: A) homologues. B) orthologues. C) paralogues. D) both homologues and orthologues. E) both homologues and paralogues. F) both orthologues and paralogues. Which statement is NOT a distinguishing feature of living organisms? A) There exists a high degree of organizational complexity. B) The structure of components influences their function. C) Organisms can reproduce themselves. D) Organisms do not need to interact with their environment. E) Organisms change over time. Which statement is NOT a distinguishing feature of living organisms? A) There exists a high degree of organizational complexity. B) The structure of components influences their function. C) Organisms can reproduce themselves. D) Organisms do not need to interact with their environment. E) Organisms change over time. Which organic molecules can be considered “alive”? A) proteins B) carbohydrates C) nucleic acids D) saccharides E) None of the answers is correct. Which organic molecules can be considered “alive”? A) proteins B) carbohydrates C) nucleic acids D) saccharides E) None of the answers is correct. Which statement is NOT true regarding the plasma membrane? A) It is a physical barrier separating the inside of the cell from its surroundings. B) It is a flexible, hydrophobic structure. C) The individual lipids and proteins of the plasma membrane are covalently linked. D) The plasma membrane incorporates newly made lipid and protein components as a cell grows. E) Cell division occurs without loss of the membrane integrity. Which statement is NOT true regarding the plasma membrane? A) It is a physical barrier separating the inside of the cell from its surroundings. B) It is a flexible, hydrophobic structure. C) The individual lipids and proteins of the plasma membrane are covalently linked. D) The plasma membrane incorporates newly made lipid and protein components as a cell grows. E) Cell division occurs without loss of the membrane integrity. The major difference between prokaryotes and eukaryotes is that: A) prokaryotes have a nucleus, while eukaryotes do not. B) eukaryotes have a nucleus, while prokaryotes do not. C) eukaryotes have double-stranded DNA, while prokaryotes have single-stranded DNA. D) prokaryotes have double-stranded DNA, while eukaryotes have single-stranded DNA. E) prokaryotes do not have ribosomes. The major difference between prokaryotes and eukaryotes is that: A) prokaryotes have a nucleus, while eukaryotes do not. B) eukaryotes have a nucleus, while prokaryotes do not. C) eukaryotes have double-stranded DNA, while prokaryotes have single-stranded DNA. D) prokaryotes have double-stranded DNA, while eukaryotes have single-stranded DNA. E) prokaryotes do not have ribosomes. If an organism is a facultative anaerobe, which statement is TRUE? A) The organism requires sulfur to live. B) The organism will die if exposed to oxygen. C) The organism requires oxygen to live. D) The organism does not require oxygen to live but will not die if exposed to oxygen. E) The organism requires methane to live. If an organism is a facultative anaerobe, which statement is TRUE? A) The organism requires sulfur to live. B) The organism will die if exposed to oxygen. C) The organism requires oxygen to live. D) The organism does not require oxygen to live but will not die if exposed to oxygen. E) The organism requires methane to live. Which statement is TRUE regarding energy sources used by organisms? A) Phototrophs can use carbon dioxide as a carbon source. B) Phototrophs can use carbon dioxide as an energy source. C) All phototrophs are autotrophs. D) All chemotrophs are heterotrophs. E) All phototrophs are autotrophs that can use carbon dioxide as a carbon source. Which statement is TRUE regarding energy sources used by organisms? A) Phototrophs can use carbon dioxide as a carbon source. B) Phototrophs can use carbon dioxide as an energy source. C) All phototrophs are autotrophs. D) All chemotrophs are heterotrophs. E) All phototrophs are autotrophs that can use carbon dioxide as a carbon source. Which statement is FALSE regarding bacterial and archaeal cells? A) Archaeal and bacterial plasma membranes consist of a thin bilayer of lipid molecules penetrated by proteins. B) Bacteria and archaea have group specific specializations in their cell envelope. C) Archaea can have a single- or double-layered membrane. D) Bacteria can have a single- or double-layered membrane. E) Both bacteria and archaea have a layer of peptidoglycan in their cell envelope. Which statement is FALSE regarding bacterial and archaeal cells? A) Archaeal and bacterial plasma membranes consist of a thin bilayer of lipid molecules penetrated by proteins. B) Bacteria and archaea have group specific specializations in their cell envelope. C) Archaea can have a single- or double-layered membrane. D) Bacteria can have a single- or double-layered membrane. E) Both bacteria and archaea have a layer of peptidoglycan in their cell envelope. Which organelle does NOT consist of a double membrane? A) mitochondrion B) ribosome C) chloroplast D) endoplasmic reticulum E) Golgi body Which organelle does NOT consist of a double membrane? A) mitochondrion B) ribosome C) chloroplast D) endoplasmic reticulum E) Golgi body Which method is MOST useful when fractionating cellular organelles? A) centrifugation B) precipitation C) chromatography D) restriction digest E) peroxidation Which method is MOST useful when fractionating cellular organelles? A) centrifugation B) precipitation C) chromatography D) restriction digest E) peroxidation Which organelle is NOT found in plant cells? A) ribosome B) lysosome C) chloroplast D) vacuole E) mitochondrion Which organelle is NOT found in plant cells? A) ribosome B) lysosome C) chloroplast D) vacuole E) mitochondrion Which reason is MOST probable for why carbon is used in living organisms but not silicon? A) Carbon can make four bonds, whereas silicon can only make three. B) Carbon can make double bonds, but silicon cannot. C) Carbon can form more preferred geometries when bonding. D) Carbon is lighter, and therefore its bonds are stronger. E) Silicon is heavier, and therefore its bonds are stronger. Which reason is MOST probable for why carbon is used in living organisms but not silicon? A) Carbon can make four bonds, whereas silicon can only make three. B) Carbon can make double bonds, but silicon cannot. C) Carbon can form more preferred geometries when bonding. D) Carbon is lighter, and therefore its bonds are stronger. E) Silicon is heavier, and therefore its bonds are stronger. Which group includes the four most abundant elements in living organisms? A) carbon, hydrogen, oxygen, iron B) carbon, hydrogen, nitrogen, oxygen C) carbon, hydrogen, phosphorous, oxygen D) carbon, nitrogen, phosphorous, oxygen E) carbon, hydrogen, sulfur, oxygen Which group includes the four most abundant elements in living organisms? A) carbon, hydrogen, oxygen, iron B) carbon, hydrogen, nitrogen, oxygen C) carbon, hydrogen, phosphorous, oxygen D) carbon, nitrogen, phosphorous, oxygen E) carbon, hydrogen, sulfur, oxygen What did Jacques Monod mean when he wrote, “What is true of E. coli is true of the elephant?” A) Bacterial cells are identical to animal cells. B) Bacterial cells can synthesize ivory under certain conditions. C) Bacterial cells contain a chromosome similar to animal cells. D) Bacterial cells contain enzymes similar to those found in animal cells. E) Bacterial cells contain molecules with complexity similar to molecules found in in the “mineral world.” What did Jacques Monod mean when he wrote, “What is true of E. coli is true of the elephant?” A) Bacterial cells are identical to animal cells. B) Bacterial cells can synthesize ivory under certain conditions. C) Bacterial cells contain a chromosome similar to animal cells. D) Bacterial cells contain enzymes similar to those found in animal cells. E) Bacterial cells contain molecules with complexity similar to molecules found in in the “mineral world.” Which ranking CORRECTLY describes the rigidity of the red bond (the central bond) shown in the figure? A) 2 = most rigid, 3 = least rigid B) 1 = most rigid, 5 = least rigid C) 4 = most rigid, 3 = least rigid D) 2 = most rigid, 1 = least rigid E) 4 = most rigid, 1 = least rigid Which ranking CORRECTLY describes the rigidity of the red bond (the central bond) shown in the figure? A) 2 = most rigid, 3 = least rigid B) 1 = most rigid, 5 = least rigid C) 4 = most rigid, 3 = least rigid D) 2 = most rigid, 1 = least rigid E) 4 = most rigid, 1 = least rigid Which choice CORRECTLY lists the molecular masses from smallest to largest? A) 18 kDa < 15,000 Da < 15,100 amu < 1.8 MDa < 1.8 mDa B) 1.8 mDa < 15,000 Da < 15,100 amu <18 kDa < 1.8 MDa C) 1.8 MDa < 15,000 Da < 15,100 amu <18 kDa < 1.8 mDa D) 1.8 mDa < 15,100 amu < 15,000 Da <18 kDa < 1.8 MDa E) 1.8 MDa < 18 kDa < 15,100 amu < 1.8 mDa <15,000 Da Which choice CORRECTLY lists the molecular masses from smallest to largest? A) 18 kDa < 15,000 Da < 15,100 amu < 1.8 MDa < 1.8 mDa B) 1.8 mDa < 15,000 Da < 15,100 amu <18 kDa < 1.8 MDa C) 1.8 MDa < 15,000 Da < 15,100 amu <18 kDa < 1.8 mDa D) 1.8 mDa < 15,100 amu < 15,000 Da <18 kDa < 1.8 MDa E) 1.8 MDa < 18 kDa < 15,100 amu < 1.8 mDa <15,000 Da Which substance is NOT a secondary metabolite? A) adenine B) morphine C) quinine D) nicotine E) salicylic acid Which substance is NOT a secondary metabolite? A) adenine B) morphine C) quinine D) nicotine E) salicylic acid Which list of descriptive terms for biological molecules is placed in CORRECT order from smallest to largest? A) monomer, oligomer, polymer B) monomer, multimer, macromer C) oligomer, monomer, polymer D) polymer, oligomer, monomer E) metamer, oligomer, polymer Which list of descriptive terms for biological molecules is placed in CORRECT order from smallest to largest? A) monomer, oligomer, polymer B) monomer, multimer, macromer C) oligomer, monomer, polymer D) polymer, oligomer, monomer E) metamer, oligomer, polymer Which answer choice represents the LARGEST percentage, by weight, of an E. coli cell? A) RNA B) DNA C) protein D) lipids E) water Which answer choice represents the LARGEST percentage, by weight, of an E. coli cell? A) RNA B) DNA C) protein D) lipids E) water Which discipline uses an approach that tries to integrate information to give a molecular picture of all the activities of a cell under certain conditions? A) metabolomics B) genomics C) systems biology D) proteomics E) lipidomics Which discipline uses an approach that tries to integrate information to give a molecular picture of all the activities of a cell under certain conditions? A) metabolomics B) genomics C) systems biology D) proteomics E) lipidomics If a scientist wanted to know whether a particular hydrocarbon was in use in a cell's plasma membrane, they could search the organism's: A) metabolome. B) lipidome. C) glycome. D) proteome. E) genome. If a scientist wanted to know whether a particular hydrocarbon was in use in a cell's plasma membrane, they could search the organism's: A) metabolome. B) lipidome. C) glycome. D) proteome. E) genome. Which types of molecules can serve as informational macromolecules in cells? A) proteins B) nucleic acids C) oligosaccharides D) both proteins and nucleic acids E) proteins, nucleic acids, and oligosaccharides Which types of molecules can serve as informational macromolecules in cells? A) proteins B) nucleic acids C) oligosaccharides D) both proteins and nucleic acids E) proteins, nucleic acids, and oligosaccharides What is the CORRECT name for the configuration of the molecule shown in the figure? A) orthogonal B) trans C) cis D) zis E) chiros What is the CORRECT name for the configuration of the molecule shown in the figure? A) orthogonal B) trans C) cis D) zis E) chiros Which statement CORRECTLY describes the molecules shown in the figure? A) A and D are enantiomers, and B and C are diastereomers. B) A and D are diastereomers, and B and C are enantiomers. C) A and C are enantiomers, and B and D are diastereomers. D) A and C are diastereomers, and B and D are enantiomers. E) All are diastereomers to each other. Which statement CORRECTLY describes the molecules shown in the figure? A) A and D are enantiomers, and B and C are diastereomers. B) A and D are diastereomers, and B and C are enantiomers. C) A and C are enantiomers, and B and D are diastereomers. D) A and C are diastereomers, and B and D are enantiomers. E) All are diastereomers to each other. It is possible to separate a racemic mixture by: A) combustion. B) crystallization. C) centrifugation. D) distillation. E) magnetism. It is possible to separate a racemic mixture by: A) combustion. B) crystallization. C) centrifugation. D) distillation. E) magnetism. Which factor can be changed WITHOUT breaking covalent bonds? A) conformation B) configuration C) chirality D) stereochemistry E) None of the answers is correct. Which factor can be changed WITHOUT breaking covalent bonds? A) conformation B) configuration C) chirality D) stereochemistry E) None of the answers is correct. Living cells produce only one chiral form of a biomolecule because: A) biomolecules, by definition, can exist as only one chiral form. B) living cells can only create L isomers. C) living cells choose to express only the correct isomer. D) living cells have enzymes that are also chiral. E) living cells can produce the opposite chiral form only under certain metabolic conditions. Living cells produce only one chiral form of a biomolecule because: A) biomolecules, by definition, can exist as only one chiral form. B) living cells can only create L isomers. C) living cells choose to express only the correct isomer. D) living cells have enzymes that are also chiral. E) living cells can produce the opposite chiral form only under certain metabolic conditions. Which statement about living systems is NOT true? A) Living organisms can be described as an open system. B) Living systems maintain a more-or-less constant composition. C) Living systems are in equilibrium with their surroundings. D) Living systems exist in a dynamic steady-state. E) Living systems have efficient mechanisms to convert chemical energy from one form into another. Which statement about living systems is NOT true? A) Living organisms can be described as an open system. B) Living systems maintain a more-or-less constant composition. C) Living systems are in equilibrium with their surroundings. D) Living systems exist in a dynamic steady-state. E) Living systems have efficient mechanisms to convert chemical energy from one form into another. When energy is used by a system, can it be “used up”? A) Yes, it is used up when the energy source is depleted. B) Yes, it is used up when all energy is converted into chemical energy. C) No, all energy is converted into potential energy. D) No, all energy is converted into kinetic energy. E) No, energy can be converted into kinetic and potential energy. When energy is used by a system, can it be “used up”? A) Yes, it is used up when the energy source is depleted. B) Yes, it is used up when all energy is converted into chemical energy. C) No, all energy is converted into potential energy. D) No, all energy is converted into kinetic energy. E) No, energy can be converted into kinetic and potential energy. An increase in the entropy of a system can be described as an increase in the total amount of _____ of a system. A) kinetic energy B) potential energy C) oxidative energy D) disorder E) order An increase in the entropy of a system can be described as an increase in the total amount of _____ of a system. A) kinetic energy B) potential energy C) oxidative energy D) disorder E) order In an oxidation-reduction reaction, the oxidized reagent _____, and the reduced reagent _____. A) is energized; is deenergized B) is deenergized; is energized C) loses electrons; gains electrons D) gains electrons; loses electrons E) maintains the same number of electrons; loses electrons In an oxidation-reduction reaction, the oxidized reagent _____, and the reduced reagent _____. A) is energized; is deenergized B) is deenergized; is energized C) loses electrons; gains electrons D) gains electrons; loses electrons E) maintains the same number of electrons; loses electrons The joining of two amino acids via a peptide bond (the process of protein synthesis) has a positive DG value. What does this imply? A) Forming a peptide bond is endergonic and must be coupled to another reaction. B) Forming a peptide bond is exergonic and must be coupled to another reaction. C) Forming a peptide bond is spontaneous and does not need to be coupled to another reaction. D) Forming a peptide bond is spontaneous and can sometimes be coupled to another reaction. E) Forming a peptide bond increases the entropy of a system. The joining of two amino acids via a peptide bond (the process of protein synthesis) has a positive DG value. What does this imply? A) Forming a peptide bond is endergonic and must be coupled to another reaction. B) Forming a peptide bond is exergonic and must be coupled to another reaction. C) Forming a peptide bond is spontaneous and does not need to be coupled to another reaction. D) Forming a peptide bond is spontaneous and can sometimes be coupled to another reaction. E) Forming a peptide bond increases the entropy of a system. Reaction 1 has a DG° of –12.3 kJ/mol, and Reaction 2 has a DG° of 23.4 kJ/mol. Which statement is TRUE of these two reactions? A) Reaction 1 occurs faster. B) Reaction 2 occurs faster. C) Both reactions occur at the same rate. D) Reaction 2 will not occur. E) It is impossible to know which reaction occurs faster with this information. Reaction 1 has a DG° of –12.3 kJ/mol, and Reaction 2 has a DG° of 23.4 kJ/mol. Which statement is TRUE of these two reactions? A) Reaction 1 occurs faster. B) Reaction 2 occurs faster. C) Both reactions occur at the same rate. D) Reaction 2 will not occur. E) It is impossible to know which reaction occurs faster with this information. Fructose-1-phosphate can be hydrolyzed into fructose + inorganic phosphate (Pi) with a DG° of –16.0 kJ/mol. If ATP can be hydrolyzed into ADP + Pi with a DG° of –30.5 kJ/mol, what is the free energy change for the reaction of fructose + ATP ® fructose 1-phospate + ADP? A) –46.5 kJ/mol B) –14.5 kJ/mol C) 46.5 kJ/mol D) 14.5 kJ/mol E) –1.4 Genetic Foundations5 kJ/mol Fructose-1-phosphate can be hydrolyzed into fructose + inorganic phosphate (Pi) with a DG° of –16.0 kJ/mol. If ATP can be hydrolyzed into ADP + Pi with a DG° of –30.5 kJ/mol, what is the free energy change for the reaction of fructose + ATP ® fructose 1-phospate + ADP? A) –46.5 kJ/mol B) –14.5 kJ/mol C) 46.5 kJ/mol D) 14.5 kJ/mol E) –1.4 Genetic Foundations5 kJ/mol In general, increasing the temperature of a reaction will have what effect, based on the relationship between standard free energy change and the equilibrium constant? A) The reaction will be inhibited. B) The reaction will go faster. C) The reaction will become more spontaneous. D) The reaction will become less spontaneous. E) There will be no effect on the reaction. In general, increasing the temperature of a reaction will have what effect, based on the relationship between standard free energy change and the equilibrium constant? A) The reaction will be inhibited. B) The reaction will go faster. C) The reaction will become more spontaneous. D) The reaction will become less spontaneous. E) There will be no effect on the reaction. _____ pathways _____ large molecules, _____ energy. A) Catabolic; break down; releasing B) Anabolic; break down; releasing C) Catabolic; break down; storing D) Anabolic; break down; storing E) Anabolic; build up; releasing _____ pathways _____ large molecules, _____ energy. A) Catabolic; break down; releasing B) Anabolic; break down; releasing C) Catabolic; break down; storing D) Anabolic; break down; storing E) Anabolic; build up; releasing The diagram below is a generic example of what process? A) systems biology B) feedback inhibition C) positive feedback D) equilibrium E) catabolism The diagram below is a generic example of what process? A) systems biology B) feedback inhibition C) positive feedback D) equilibrium E) catabolism In double-stranded DNA, the two strands are held together by _____ bonds. A) covalent B) ionic C) polypeptide D) hydrogen E) phosphodiester In double-stranded DNA, the two strands are held together by _____ bonds. A) covalent B) ionic C) polypeptide D) hydrogen E) phosphodiester The precise three-dimensional structure, or _____ conformation, is critical to a protein's function. A) native B) molecular C) chaperone D) macromolecular E) high-affinity The precise three-dimensional structure, or _____ conformation, is critical to a protein's function. A) native B) molecular C) chaperone D) macromolecular E) high-affinity Accurate folding of a protein does NOT depend on: A) proper pH. B) correct ionic strength. C) correct temperature. D) correct metal ion concentration. E) All of the conditions listed are important for correct folding of a protein. Accurate folding of a protein does NOT depend on: A) proper pH. B) correct ionic strength. C) correct temperature. D) correct metal ion concentration. E) All of the conditions listed are important for correct folding of a protein. The similarities of gene sequences and metabolic pathways across the three domains of life are evidence for: A) evolution. B) a common ancestor. C) cross-species genetic transfer. D) both evolution and a common ancestor. E) both a common ancestor and cross-species genetic transfer. The similarities of gene sequences and metabolic pathways across the three domains of life are evidence for: A) evolution. B) a common ancestor. C) cross-species genetic transfer. D) both evolution and a common ancestor. E) both a common ancestor and cross-species genetic transfer. Which statement is NOT true about genetic mutations? A) Mutations arise from an unrepaired mistake in DNA replication. B) Mutations arise from incorrectly repaired damage to one of the DNA strands. C) Mutations in reproductive cells can be passed on to offspring. D) Mutations may better equip an organism or cell to survive in its environment. E) All of the statements are true. Which statement is NOT true about genetic mutations? A) Mutations arise from an unrepaired mistake in DNA replication. B) Mutations arise from incorrectly repaired damage to one of the DNA strands. C) Mutations in reproductive cells can be passed on to offspring. D) Mutations may better equip an organism or cell to survive in its environment. E) All of the statements are true. When Stanley Miller, in Harold Urey's laboratory, subjected a gaseous mixture mimicking the prebiotic atmosphere on Earth to electrical sparks, he found that _____ were formed. A) amino acids B) aldehydes C) ribonucleotides D) both amino acids and aldehydes E) amino acids, aldehydes, and ribonucleotides When Stanley Miller, in Harold Urey's laboratory, subjected a gaseous mixture mimicking the prebiotic atmosphere on Earth to electrical sparks, he found that _____ were formed. A) amino acids B) aldehydes C) ribonucleotides D) both amino acids and aldehydes E) amino acids, aldehydes, and ribonucleotides Which present-day observable piece of evidence supports the “RNA world” hypothesis? A) RNA molecules participate in biologically significant reactions. B) RNA can serve as an information-carrying molecule. C) RNA nucleotides catalyze peptide bond formation. D) RNA molecules participate in biologically significant reactions, and RNA nucleotides catalyze peptide bond formation. E) RNA molecules participate in biologically significant reactions, RNA can serve as an information-carrying molecule, and RNA nucleotides catalyze peptide bond formation. Which present-day observable piece of evidence supports the “RNA world” hypothesis? A) RNA molecules participate in biologically significant reactions. B) RNA can serve as an information-carrying molecule. C) RNA nucleotides catalyze peptide bond formation. D) RNA molecules participate in biologically significant reactions, and RNA nucleotides catalyze peptide bond formation. E) RNA molecules participate in biologically significant reactions, RNA can serve as an information-carrying molecule, and RNA nucleotides catalyze peptide bond formation. Which statement is NOT true about the formation of early organisms? A) The first organisms were anaerobic because the atmosphere was devoid of oxygen. B) The original electron donor for photosynthetic processes was probably H2S. C) Oxygen, a powerful oxidant, was probably welcomed by anaerobic organisms as a preferable choice for metabolic reactions. D) The transfer of electrons to O2 releases more energy than transferring electrons to SO42– E) Cyanobacteria are modern descendants of early photosynthetic oxygen-producers. Which statement is NOT true about the formation of early organisms? A) The first organisms were anaerobic because the atmosphere was devoid of oxygen. B) The original electron donor for photosynthetic processes was probably H2S. C) Oxygen, a powerful oxidant, was probably welcomed by anaerobic organisms as a preferable choice for metabolic reactions. D) The transfer of electrons to O2 releases more energy than transferring electrons to SO42– E) Cyanobacteria are modern descendants of early photosynthetic oxygen-producers. Which organelle probably originated as an endosymbiotic engulfing of an aerobic bacterium by a eukaryotic cell? A) ribosome B) mitochondrion C) Golgi body D) nucleus E) endoplasmic reticulum Which organelle probably originated as an endosymbiotic engulfing of an aerobic bacterium by a eukaryotic cell? A) ribosome B) mitochondrion C) Golgi body D) nucleus E) endoplasmic reticulum Which statement is NOT true regarding orthologous genes? A) They share similar sequences. B) They usually have the same function. C) They usually have a similar three-dimensional structure. D) They presumably arose from a gene duplication event. E) All of the statements are true. Which statement is NOT true regarding orthologous genes? A) They share similar sequences. B) They usually have the same function. C) They usually have a similar three-dimensional structure. D) They presumably arose from a gene duplication event. E) All of the statements are true. The _____ of homologous proteins can be used to estimate the degree of evolutionary divergence. A) three-dimensional structure B) expression profiles C) sequence similarity D) endosymbiotic nature E) chromosomes The _____ of homologous proteins can be used to estimate the degree of evolutionary divergence. A) three-dimensional structure B) expression profiles C) sequence similarity D) endosymbiotic nature E) chromosomes _____ are typically expressed under all conditions and are not subject to regulation. A) Housekeeping genes B) Homologous genes C) Bacterial genomes D) Eukaryotic genomes E) Endosymbiotic genes _____ are typically expressed under all conditions and are not subject to regulation. A) Housekeeping genes B) Homologous genes C) Bacterial genomes D) Eukaryotic genomes E) Endosymbiotic genes FIN