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A Tour of the Cell. 0. 4. Questions prepared by Brad Stith, University of Colorado Denver Jung Choi, Georgia Institute of Technology. Which cellular structure is common to all three domains of life?. nucleus endoplasmic reticulum mitochondria phospholipid bilayer cell membrane
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A Tour of the Cell 0 4 Questions prepared by Brad Stith,University of Colorado Denver Jung Choi,Georgia Institute of Technology
Which cellular structure is common to all three domains of life? • nucleus • endoplasmic reticulum • mitochondria • phospholipid bilayer cell membrane • endocytotic vesicles
Which cellular structure is common to all three domains of life? nucleus endoplasmic reticulum mitochondria phospholipid bilayer cell membrane endocytotic vesicles
Enzymes responsible for biosynthesis of membrane lipids would be located in what part of the cell? endoplasmic reticulum nucleus lysosomes Golgi plasma membrane
Enzymes responsible for biosynthesis of membrane lipids would be located in what part of the cell? endoplasmic reticulum nucleus lysosomes Golgi plasma membrane
Which of the following is not an argument for the theory that mitochondria and chloroplasts evolved from prokaryotic endosymbionts? Mitochondria and chloroplasts have double membranes. Mitochondria and chloroplasts have their own ribosomes. Mitochondria and chloroplasts have their own DNA. The mitochondrial and chloroplast genomes are circular. All of the above support the endosymbiotic theory.
Which of the following is not an argument for the theory that mitochondria and chloroplasts evolved from prokaryotic endosymbionts? Mitochondria and chloroplasts have double membranes. Mitochondria and chloroplasts have their own ribosomes. Mitochondria and chloroplasts have their own DNA. The mitochondrial and chloroplast genomes are circular. All of the above support the endosymbiotic theory.
Autophagy removes old damaged organelles like mitochondria. Decreased autophagy results in degeneration and inflammation and may result in the “symptoms” of aging. Which of the following organelle(s) is/are central to autophagy? smooth ER peroxisomes rough ER lysosomes Golgi apparatus
Autophagy removes old damaged organelles like mitochondria. Decreased autophagy results in degeneration and inflammation and may result in the “symptoms” of aging. Which of the following organelle(s) is/are central to autophagy? smooth ER peroxisomes rough ER lysosomes Golgi apparatus
What proteins are not made at the rough ER? insulin digestive enzymes of the gut antibodies in the blood enzymes found within the peroxisome organelle collagen (an extracellular matrix protein)
What proteins are not made at the rough ER? insulin digestive enzymes of the gut antibodies in the blood enzymes found within the peroxisome organelle collagen (an extracellular matrix protein)
What is the correct order of the exocytosis or secretion pathway? rough ER, endosome, Golgi, smooth ER rough ER, Golgi, smooth ER, exocytosis smooth ER, rough ER, exocytosis, Golgi rough ER, Golgi, transport vesicle, exocytosis rough ER, Golgi, endosome, exocytosis, transport vesicle
What is the correct order of the exocytosis or secretion pathway? rough ER, endosome, Golgi, smooth ER rough ER, Golgi, smooth ER, exocytosis smooth ER, rough ER, exocytosis, Golgi rough ER, Golgi, transport vesicle, exocytosis rough ER, Golgi, endosome, exocytosis, transport vesicle
Brefeldin A is a drug that disrupts transport from the ER to the Golgi apparatus. What other organelles and membranes are affected? lysosomes, transport vesicles, plasma membrane mitochondria, peroxisomes, plasma membrane vacuoles, mitochondria, plasma membrane lysosomes, transport vesicles, nuclear membrane all intracellular organelles and membranes
Brefeldin A is a drug that disrupts transport from the ER to the Golgi apparatus. What other organelles and membranes are affected? lysosomes, transport vesicles, plasma membrane mitochondria, peroxisomes, plasma membrane vacuoles, mitochondria, plasma membrane lysosomes, transport vesicles, nuclear membrane all intracellular organelles and membranes
Alcohol is destroyed in the cell by the removal of hydrogen atoms. Where does this occur? (Drugs are destroyed in the cell at a different location.) lysosome smooth ER peroxisome rough ER Golgi apparatus
Alcohol is destroyed in the cell by the removal of hydrogen atoms. Where does this occur? (Drugs are destroyed in the cell at a different location.) lysosome smooth ER peroxisome rough ER Golgi apparatus
Taxol, a drug approved for the treatment of breast cancer, prevents depolymerization of microtubules. What cellular function that affects cancer cells more than normal cells might Taxol interfere with? maintaining cell shape cell motility (cilia or flagella) chromosome movements in cell division cell division (cleavage furrow formation) cytoplasmic streaming
Taxol, a drug approved for the treatment of breast cancer, prevents depolymerization of microtubules. What cellular function that affects cancer cells more than normal cells might Taxol interfere with? maintaining cell shape cell motility (cilia or flagella) chromosome movements in cell division cell division (cleavage furrow formation) cytoplasmic streaming
Glucosamine, chondroitin, and hyaluronate are sold in health-food and grocery stores to help reduce pain and increase flexibility in the joints. They are molecules that make up collagen of extracellular matrix. proteoglycan complex of extracellular matrix. integrins. fibronectin. cytoskeleton.
Glucosamine, chondroitin, and hyaluronate are sold in health-food and grocery stores to help reduce pain and increase flexibility in the joints. They are molecules that make up collagen of extracellular matrix. proteoglycan complex of extracellular matrix. integrins. fibronectin. cytoskeleton.
