Passage
Eukaryotic organelles such as mitochondria and chloroplasts are believed to be relics of formerly free-living prokaryotes. The transition from a hypoxic (low O 2 ) to an oxic atmosphere (21% O 2 ) is said to have enabled primitive eukaryotic anaerobes to engulf ancient aerobic prokaryotes and consequently acquire the ability to produce energy through oxidative phosphorylation. This endosymbiotic theory of eukaryotic evolution also postulates that endosymbiosis resulted in larger eukaryotic genomes, which originated from the partial transfer of mitochondrial genes to the nuclear genome. On integration into the host genome, mitochondria-derived genes became indistinguishable from the original nuclear genes.Researchers have alternatively proposed that after a prolonged period of symbiosis, there is a possibility of gene transfer from eukaryotes to prokaryotes. This hypothesis was initially supported when copper/zinc (Cu/Zn) superoxide dismutase (SOD), a metalloprotein confined to the cytosol of eukaryotic cells, was found in Photobacterium leiognathi. The free-living bacterium P. leiognathi is also a known symbiont of ponyfish, a small fish species native to the Indian and Pacific Oceans.SODs are antioxidant enzymes that serve as the cell's first line of defense against reactive oxygen species (ROS). ROS produced by the electron transport chain damage proteins by oxidizing amino acid residues and metal ions on prosthetic groups, but can accumulate during times of biochemical and environmental stress. Superoxide (O 2 − ) radicals, a form of ROS, are sequestered by SODs and converted into less toxic hydrogen peroxide (H 2 O 2 ) and O 2 gas.
Adapted from Bannister JV, Parker MW. The presence of a copper/zinc superoxide dismutase in the bacterium Photobacterium leiognathi: a likely case of gene transfer from eukaryotes to prokaryotes. Proc Natl Acad Sci USA. 1985;82(1):149-52.
-Ponyfish cells containing P. leiognathi symbionts were exposed to a spindle fiber toxin that inhibits microtubule polymerization. Given this information, which of the following would most likely result as a consequence of toxin exposure?

Question

Passage
Eukaryotic organelles such as mitochondria and chloroplasts are believed to be relics of formerly free-living prokaryotes.  The transition from a hypoxic (low O 2 ) to an oxic atmosphere (21% O 2 ) is said to have enabled primitive eukaryotic anaerobes to engulf ancient aerobic prokaryotes and consequently acquire the ability to produce energy through oxidative phosphorylation.  This endosymbiotic theory of eukaryotic evolution also postulates that endosymbiosis resulted in larger eukaryotic genomes, which originated from the partial transfer of mitochondrial genes to the nuclear genome.  On integration into the host genome, mitochondria-derived genes became indistinguishable from the original nuclear genes.Researchers have alternatively proposed that after a prolonged period of symbiosis, there is a possibility of gene transfer from eukaryotes to prokaryotes.  This hypothesis was initially supported when copper/zinc (Cu/Zn) superoxide dismutase (SOD), a metalloprotein confined to the cytosol of eukaryotic cells, was found in Photobacterium leiognathi.  The free-living bacterium P. leiognathi is also a known symbiont of ponyfish, a small fish species native to the Indian and Pacific Oceans.SODs are antioxidant enzymes that serve as the cell's first line of defense against reactive oxygen species (ROS).  ROS produced by the electron transport chain damage proteins by oxidizing amino acid residues and metal ions on prosthetic groups, but can accumulate during times of biochemical and environmental stress.  Superoxide (O 2 − ) radicals, a form of ROS, are sequestered by SODs and converted into less toxic hydrogen peroxide (H 2 O 2 ) and O 2 gas.
Adapted from Bannister JV, Parker MW. The presence of a copper/zinc superoxide dismutase in the bacterium Photobacterium leiognathi: a likely case of gene transfer from eukaryotes to prokaryotes. Proc Natl Acad Sci USA. 1985;82(1):149-52.
-Ponyfish cells containing P. leiognathi symbionts were exposed to a spindle fiber toxin that inhibits microtubule polymerization.  Given this information, which of the following would most likely result as a consequence of toxin exposure?

Quizplus · Accepted Answer

Somatic (non-sex) eukaryotic cells exist in two stages: interphase, during which the cell grows and synthesizes DNA; and mitosis, during which the nucleus divides to yield two identical daughter cells (with equal genetic material). The phases of mitosis include the following: Prophase: Previously synthesized DNA condenses into chromatids. Two sister (identical) chromatids are then connected by a kinetochore to form a single chromosome. The nuclear envelope disintegrates to allow mitosis in the cytosol. The mitotic spindle begins to form when centrosomes (microtubule-organizing centers consisting of a pair of centrioles) start migrating to opposite poles of the cell and microtubule filaments grow from them, resulting in spindle fibers. Metaphase: The mitotic spindle forms fully when centrosomes align completely at opposite poles of the cell. Chromosomes align on a central plane (metaphase plate) that is equidistant from each centrosome, and attach to the spindle fiber microtubules via their kinetochores. Anaphase: Spindle fibers pull sister chromatids apart (disjunction) while retracting toward the centrioles on opposite poles. Telophase: The nuclear envelope reforms around the two sets of chromosomes, which return to their less compact, premitotic state. During this stage, the parental cell undergoes cytokinesis, the cytoplasmic division into two daughter cells. Nondisjunction in mitosis or meiosis can occur when sister chromatids fail to separate properly during anaphase. Per the question, (eukaryotic) ponyfish cells exposed to a spindle fiber toxin would exhibit nondisjunction during mitosis as spindle fibers are necessary to separate sister chromatids. Therefore, affected ponyfish cells would not show an equal distribution of genetic material (genes) because nondisjunction can result in one daughter cell having unequal numbers of chromosomes compared to the other (Choice B). (Choices A and C) The spindle fiber toxin would not influence the copy number of Cu/SOD genes or delay the separation of daughter cells in P. leiognathi, a prokaryote, because prokaryotes divide by binary fission, a simple method of asexual reproduction that results in two identical daughter cells and does not involve spindle fibers. Educational objective: Most eukaryotic cells (except germ cells) undergo cell division via mitosis. In contrast, prokaryotic cells duplicate via binary fission, a simple form of reproduction that does not involve the separation of chromosomes by spindle fibers.

Passage Eukaryotic Organelles Such as Mitochondria and Chloroplasts Are Believed to to Be